Q 103 - AMDO



AVIATION MAINTENANCE PROGRAMS FUNDAMENTALS

1. Discuss the following maintenance management resources:

Ref (a) COMNAVAIRFORINST 4790.2, Vol I, NAMP

Ref (b) COMNAVAIRFORINST 4790.2, Vol III, NAMP

a. MMP (Ref a, Ch 12) – The purpose of the Monthly Maintenance Plan is to provide scheduled control of the monthly maintenance workload. The MMP includes inspections, transfers of aircraft, compliance with TD’s, requirements for SE, material, manpower, training, and any other factors affecting the maintenance operation. The publication of the MMP is the responsibility of the MMCO.

b. MDBA/A or SA/A (Ref a, Ch 12) – The Maintenance Data Base Administrator/Analyst or the System Administrator/Analyst shall provide qualitative and quantitative analytical information to the MO allowing continuous review of the management practices within the activity/department. This billet will be established at the O or I level to monitor, control, and apply the Maintenance Data System (MDS) within the activity.

c. NALCOMIS reports (Ref b, Ch 7) – NALCOMIS provides a modern, real time, responsive, computer based management information system. Detailed description of NALCOMIS in Sec 201.

d. MDR’s (Ref b, ch. 3) Maintenance Data Reports are prepared from data submitted on Copy 1 of the MAF and is printed in three parts. Part I contains data that has passed the VALSPECs. Part II is a cumulative report containing all records submitted during the current reporting period which contains errors that have not been corrected. Part III will be printed to show any correction/deletion records which cannot be applied to the local data base due to erroneous data.

e. 3M Summary (Ref b, Ch 4) – Maintenance and Material Management (3M) Summary places MDS data into a format that that all maintenance personnel can easily understand. To be of practical use to management, summarized reports must be compiled, studied, and analyzed by all supervisory personnel in the maintenance activity. The most common format for presenting equipment maintenance and utilization data on a monthly basis is the monthly maintenance summary. The monthly maintenance summary provides a coordinated combination of MDS reports to highlight specific problem areas and improve overall maintenance management. Trends may be detected and corrected before they reach crisis levels through analysis over a period of time. The monthly maintenance summary contains various displays; for example, charts, graphs, and tables that are used to present the results of analysis. Several examples of the various charts, graphs, and tables that are used in the monthly maintenance summary are contained in the latest edition of OPNAVINST 4790.2.

112.2 Discuss the following Maintenance Training Program elements:

a. Program manager:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 2, NAMP

The Program Manager shall:

(1) Manage all areas of maintenance training for the department.

b. Composition of qualification/certification record

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 2, NAMP

1) The qualification/certification record (in a standard 9x12 folder) shall be initiated for each enlisted member of the activity and shall accompany the member upon transfer.

• Qualification/certification record will only contain documents required by individuals to perform their current duties.

c. Schedule of training:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 2, NAMP

Navy Type Wings/AIMDs/standalone activities shall: (1) Identify training requirements with standardized syllabi supporting lectures/IMI for each rate and work center for each T/M/S aircraft or weapon system supported. This shall be a joint effort between the fleet and supporting training activities. Lead Type Wings shall coordinate to ensure commonality among similar T/M/S. Training requirements shall include the following minimum elements: (a) Formal training courses (FASOTRAGRU, CNATTU, and NAVAIRDEPOT). Specify courses related to: 1) General administrative duties, for example, Work Center Supervisor and SCIR. 2) General qualification, for example, flight deck fire fighting and SE Phase I and qualified/proficient in rate on assigned T/M/S aircraft. 3) Specific technical skills, for example, advanced radar and flight control rigging. (b) Applicable PQS. (c) Required reading.

d. Requirements for review qualification/certification record:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 2, NAMP

Quarterly

e. Required reading boards:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 2, NAMP

Required reading is divided into categories; active and standing.

(1) The Active Required Reading File contains, at a minimum, maintenance information of a temporary or short-term nature,

(2) The Standing Required Reading File contains information of a long-term nature,

f. OJT:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 2, NAMP

Ensure OJT is conducted by demonstration and simulation under supervision of qualified work center personnel. Sign off qualification in OJT task areas only after individuals have demonstrated sufficient knowledge and skill to independently perform the task/duty.

g. CBT:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 2, NAMP

Computer based Training: interactive courseware with computer managed instruction and computer aided instruction

h. MTL:

Ref (r) COMNAVAIRTRESFORINST 1500.5F, Aviation Master Training Manual

Reservist’s drills and training tracking requirements

i. AMTCS

Ref (a) COMNAVAIRFORINST 4790.2, Vol I, Ch 20, NAMP

AMTCS is a concept that uses technology infusion to standardize tracking, monitoring, and management of all training (formal and IST) into an integrated, cohesive “cradle-to-grave” systems.

3. Discuss the following Fuel Surveillance Program elements:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 3, NAMP

a) Program Manager

1) Be knowledgeable of all reference material and procedures applying to their assigned aircraft or test cell.

2) Provide indoc and follow on training to personnel relating to their responsibilities. Coordinate with the AMO to develop training oriented to the type of aircraft/test cells being operated.

3) Maintain a program file.

4) Review CSEC Audits and reports to aid in assessing the program.

b) Sampling procedures-

1) Allow maximum possible time before taking samples on recently moved or fueled aircraft to allow time for water and solids to settle. When ever possible aircraft should have a minimum of two hours settling time.

2) Wear PPE (including Chemical-Resistant Gloves and Goggles).

3) Take samples, approximately one pint, from each low point drain.

4) A qualified aircrew, shift supervisor, CDI, CDQAR, or QAR shall visually inspect all fuel samples for a clear and bright appearance by swirling and checking directly under the swirl vortex for any discoloration, water, cloudiness, or sediment. If contaminants are present, retain sample, drain approximately one gallon of fuel in to a bucket or suitable container, and take another sample. If the second sample is contaminated, immediately notify maintenance control and give both samples to QA for inspection.

5) If the second sample is not satisfactory initiate a downing discrepancy.

6) Empty and clean sample bottles after each use.

7) Dispose of fuel per local HAZMAT procedures.

Test Cell Sampling procedures only differ in they are taken prior to the first engine run of the day, or weekly as a minimum. If contaminants are present five gallons will be drained, but not more than ten gallons, and a second sample will be taken. If contaminants are still present notify production control and QA.

c) Requirements for sampling- The requirements are designated per the T/M/S MIMs/MRCs/GAI manuals. FSTs/LMTC shall provide guidance for aircraft without specified fuel sampling procedures. Unless otherwise specified by the MRCs, samples shall be taken within 24 hours preceding the aircraft’s initial launch and shall not be valid for more than 24 hours.

d) Disposal procedures- Disposal procedures will be in accordance with the local HAZMAT procedures.

4. Discuss the following Navy Oil Analysis Program elements:

a. Program manager:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 4, NAMP

The MMCO (O-level) or the Power Plants Division Officer (I-level) are designated as the NOAP Manager.

b. Sampling procedures:

Ref (l) Local Directives and SOPs; Specific aircraft MRC’s

Refer to each TMS aircraft/engine MRC’s for sampling points and procedures.

c. Documentation/history:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 4, NAMP

- Make appropriate logbook or AESR Miscellaneous/History (OPNAV 4790/25A), Scheduled Removal Component Card (OPNAV 4790/28A), and Equipment History Record Card (OPNAV 4790/113) entries when NOAP analysis results indicate abnormal wear limits, amounts of metal, or other contamination. Entries shall include type and amount of wear, metal or other contaminant, corrective action taken, and results of subsequent sample analysis. They will be made in the Repair/Rework/Overhaul section of Scheduled Removal Component Card (OPNAV 4790/28A) and the Maintenance Record section of the Equipment History Record Card (OPNAV 4790/113).

- Transfer all NOAP records with aircraft/engine/equipment logbooks.

d. Lab advice codes:

Ref (d) NA 17-15-50.3, Vol I, Joint Oil Analysis Program Manual

Refer to NA 17-15-50.1 APPENDIX A.

e. Special samples:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 4, NAMP

Request a "special" oil analysis from the NOAP/JOAP laboratory per NAVAIR 17-15-50.1. Mark the Oil Analysis Request (DD 2026) and mailing container with red borders to alert the oil laboratory of the need for immediate processing.

112.5 Discuss the following Hydraulic Contamination Control Program elements:

a. Program manager:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 6, NAMP

Provide indoctrination training to all personnel, including supervisors and QA personnel, prior to conducting aircraft or SE hydraulic component maintenance or operation. Provides follow-on training as required. Ensures all personnel authorized to conduct aircraft/SE hydraulic systems sampling and analysis are designated using the Hydraulic Contamination Control Designation and have completed the Hydraulic Contamination Control. Maintain a program file to include Applicable POCs, assigned equipment requiring hydraulic sampling, program related correspondence and message traffic, and ensure adequate number of personnel are certified.

b. Certification/qualification process:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 6, NAMP

Any QAR can administer an open-book written examination for the Hydraulic Contamination Control Program. Observe sampling and analysis techniques periodically, as well as during work center audits. Check hydraulic work center spaces for cleanliness, safety precautions, SE upkeep and abuse, facility adequacy, use and availability of authorized materials, and compliance with applicable hydraulic maintenance technical data. Verify only authorized fluid dispensing SE is used and such SE is maintained in a high standard of cleanliness. All servicing SE will be equipped with 3-micron (absolute) filtration.

c. Sampling procedures:

Ref (l) Local Directives and SOPs; Specific aircraft MRC’s

An electronic particle counter is the preferred hydraulic fluid contamination analysis equipment and shall be used when available. The Hydraulic Fluid Contamination Analysis Kit may be used when a particle counter is not readily available at O-level or supporting I-level.

d. Contamination classification:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 6, NAMP

Maximum acceptable hydraulic fluid particulate contamination levels are Navy Standard Class 5 for aircraft and Navy Standard Class 3 for SE.

e. Documentation:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 6, NAMP

Ensure the Hydraulic Contamination Control Trend Analysis Chart is included in the aircraft logbook Miscellaneous/History and SE Custody and Maintenance History Record upon transfer of aircraft and SE. Ensure appropriate aircraft logbook and SE record entries are made for hydraulic samples. Logs and Records shall place the previous and current Hydraulic Contamination Control Trend Analysis Chart with the aircraft logbooks prior to aircraft transfer. When hydraulic system sampling reveals Navy Standard Class 5 contamination is exceeded, evidence of water, or any other form of contamination requiring decontamination per NAVAIR 01-1A-17, make an entry in the Miscellaneous/History section of the aircraft logbook (indicate date, type contamination, class, method of decontamination, and appropriate reference). In addition, during aircraft acceptance hydraulic system sampling results shall be entered in the Miscellaneous / History section. Place the previous and current Hydraulic Contamination Control Trend Analysis Chart with the SE Custody and Maintenance History Record prior to SE transfer.

f. Disposal procedures:

Ref (e) NA 01-1A-17, Aviation Hydraulics Manual

Ref (l) Local Directives and SOPs; Specific aircraft MRC’s

Shop allows return fluid from the aircraft to flow overboard into a waste container for disposal into HAZMAT which is dumped into 55-gallon drum at HAZMAT site.

112.6 Discuss the following Tire and Wheel Maintenance Safety Program

elements:

Ref (c) COMNAVAIRFORINST 4790.2, VOL V, Ch 7, NAMP

a. Program manager:

– Designated by the MO via the MMP.

- Be familiar with the references in COMNAVAIRFORINST 4790.2 Vol V, ch.

7.1b.

- Provide indoctrination training to applicable personnel prior to performing tire/wheel maintenance.

- Train personnel transporting tire/wheel assemblies and associated hazards.

- Train personnel in the proper handling and protecting of bearings.

- Provide follow on training.

- Maintain a program file to included POC’s, related correspondence and messages, and applicable references or cross locator sheets.

- Use CSEC information, and reports to identify areas of concern and steps required for improvement.

- Ensure tire/wheel personnel are certified

- Ensure video cassettes listed in COMNAVAIRFORINST 4790.2 VOL V, ch. 7-3 are available for use as instructional aids.

b. Safe handling procedures:

Inflated and partially inflated tires shall be handled with the same respect and precautions normally applied to handling live ordnance. Individuals must be fully aware of safety precautions and correct tire/wheel maintenance procedures to ensure against personnel injury or tire/wheel failure after installation. Training, outlined in COMNAVAIRFORINST 4790.2, vol V, ch-7, Figures 7-1 through 7-17 (as applicable), shall be completed before personnel involved in maintenance of aircraft/SE/AWSE tires/wheels are certified to work independently.

c. Qualifications: (I/O-Level and SE)

Complete tire/wheel maintenance safety training requirements, using Figures 7-1 through 7-17 as listed in the COMNAVAIRFORCEINST 4790.2, vol 5, ch.7,(as applicable).

d. Inflation criteria: (afloat/ashore/storage)

Ref: NAVAIR 04-10-506, ch. 3-1

- Storage - RFI tires/wheel and assemblies shall not exceed 100lbs PSIG or 50% of test pressure whichever is less while being stored.

RFI SE/AWSE tire/wheel assemblies shall not exceed 15LBS PSIG or 50% of service pressure, whichever is less while being stored.

All RFI tires being transported off station shall not exceed 25lbs PSIG of pressure.

- Afloat/Ashore – The inflation pressure varies according to the gross weight of the aircraft or whether shore or carrier operations are planned. Refer to the applicable aircraft Maintenance Instruction Manual for the correct inflation pressures.

112.7 Discuss the following ABO Surveillance Program elements:

Ref (c) COMNAVAIRFORINST 4790.2, VOL V, Ch 5, NAMP

a. Program manager- Designated in writing by the MO, the Program manager ensures the ABO Surveillance Program is managed per NAVAIR 06-30-501, NAVAIR 13-1-6.4-1, NAVAIR A6-332AO-GYD-000, NAVAIR AG-115-SL-OMP-000, NAVAIR 06-20-2, MIL-HDBK-1028/1C, NAVAIR 17-15-98, MIMs, MRCs and the NAMP.

b. Safety- Severe cold burns may be caused when the human body comes in contact with surfaces cooled by LOX. The severity of the burn depends on the contact area and contact time. Fire, explosion and equipment failure are other typical threats. See NAVAIR 06-30-501, NAVAIR 13-1-6.4-1, NAVAIR A6-332AO-GYD-000 and NAVAIR AG-115-SL-OMP-000 for hazards and safety procedures.

c. Two-person integrity- All LOX/gaseous operations shall be performed by two or more qualified person, except for removal and replacement of aircraft LOX converters.

d. Special tools/equipment- All tools, tool boxes and SE must be marked, “OXYGEN USE ONLY” and free of any hydrocarbons.

e. Test equipment (I-level)- AIMD shall perform audits on CVW LOX servicing operations when embarked and provide audit results to CVW MO.

112.8 Discuss the following NAMDRP program elements:

Ref (c) COMNAVAIRFORINST 4790.2, VOL V, Ch 10, NAMP

a. Program manager: A program manager is normally considered the expert for a managing a particular program.

b. Types of reports:

- Hazardous Material Reports: HMRs provide a standard method for reporting material deficiencies, which, if not corrected, could result in death or injury to personnel, or damage to or loss of aircraft

- Aircraft Discrepancy Reports: The ADR identifies/documents defects in newly manufactured, modified, or reworked aircraft, including aircraft that have completed PMI.

- Engineering Investigations: Provide an investigation process to determine cause and depth of fleet-reported material failures. Support investigations of material associated with aircraft mishaps, lightning strikes, electromagnetic interference, and stray voltage problems.

- Product Quality Deficiency report. PDQR are used to report deficiencies in new or newly reworked material which may indicate nonconformance with contractual or specification or substandard workmanship. Failure at zero operating time initial installation…first flight… etc.

- Technical Publication Deficiency Report. TPDR provide a simplified process for reporting technical publication safety hazards and routine deficiencies found in COMNAVAIRSYYSCOM technical publications.

c/d. Reporting/Response criteria:

ADR: Submit the report within 5 working days after completing acceptance…check flight or within 5 working days after acceptance post-depot inspection for any on-site D-level maintenance not requiring check flight. If needed a supplemental ADR must be forwarded within 30 days og the initial ADR.

Submit: HMR shall be submitted by the web site reporting system () When this is not accessible, report by priority precedence message within 24 hours of discovery.

Response: The Fleet Support Team (FST)/ Lead Maintenance Technology Center (LMTC) or cognizant screening point is required to respond within 72 hours of receipt of HMRs and all reports combined with HMRs.

Submit: EI request shall be submitted by the web site reporting system (). When this is not accessible, report by routine precedence message within 5 working days after discovery of the deficiency, unless combined with an HMR. In which case, the combined report follows all HMR reporting criteria.

Response: From FST within 5 working days of receipt of an EI.

CAT I TPDR is used when a technical publication deficiency is detected which, if not corrected, could result in death or injury or damage to or loss of aircraft, equipment, or facilities.

Submit: CAT I TPDR shall be submitted by priority message and within 24 hours of discovery of a deficiency.

Response: FST/LMTC or cognizant screening point is required to respond within 5 working days of receipt of a CAT I TPDR.

Response: From FST/LMTC or cognizant screening point is required to respond within 30 days of receipt of a CAT II TPDR.

112.9 Discuss the following Technical Directive Compliance Program elements. Ref (c) COMNAVAIRFORINST 4790.2, VOL V, Ch 11, NAMP

Ref (l) Local Directives and SOPs

a. Program Management- The MO designates via the MMP the MMMCO as the TD Compliance Program Manager and develop LCP’s as Appendix E. PM’s ensure TD applicability, tracking, accountability, documentation and NALCOMIS reqs. Complete listing in NAVAIR 00-25-100 NAVAIRSYSCOM TECHNICAL MANUAL PROGRAM WP 0900 Pg4. (ex. Power Plant Bulletin PPB, Accessory Bulletin AYB) TD Code – Type of directive – Abbreviation.

b. Types – See NAVAIR 00-500C 4 types Formal Change / Interim Change / Bulletin / RAMEC.

c. Categories – Important to Material Control because they determine priority. Immediate Action/Urgent Action/ Routine Action/Record Purpose

d. TDSA List 02 and 04 Technical- Technical Directives Status Accounting List 02 Non incorporated (NINC)listing for Equipment / List 04 Incorporation (INC)listing for equipment / List 04H Historical

e. Screening/routing procedures – Validate incorporation using NAVAIR 00-500C FOR T/M/S, NALDA TSTA NAT02 for code B TD’s and weekly Summary

for Issued Interim TD’s. The combined review is the screening /validation. CTPL deliver’s copy to Maint Control / Prod Control / QA

Parts 1 and 2 of tracking sheet to master copy of the TD.

f. Kit procurement/control – Supply O supports new configurations as a result of TD incorporation. PM ensure parts and kits are ordered against a particular Buno/Serial when ordering.

g. Historical files – It is important to retain an accurate historical record of the equipment. (i.e SRC, HER, ASR cards or ALSS or SE history cards Ref NA 00-25-100 WP 020 A master file copy of the TD will be filed in the CTPL.

h. Verification procedures – Using the tracking sheet in the 4790.2 Vol V, The PM the MMCO and QAS review the TD for applicability to any assigned equipment.

i. Publication control – Upon receipt of a TD, the CTPL shall apply the control stamp to those TD generated/received.

j. Compliance – Responsibility for compliance starts with ACC TYCOM/ Wings-COMFAIR / ultimately rest upon the MO.

k. NA 500 C and NAT 02 Technical Directives (TD) listings are available on the NAVAIR Logistics website

NAT02 are Non incorporated (NINC) listing for Equipment.

112.10 Discuss the following Corrosion Prevention and Control Program elements:

a. Program Manager:

Ref (c) COMNAVAIRFORINST 4790.2, VOL V, Ch 14, NAMP

Ensure the Industrial Hygienist conducts, as part of the activity’s comprehensive baseline survey, a work place assessment (walk through) and exposure assessment of all touch-up painting. Ensure personnel assigned duties involving opening, mixing, or application of coating materials receive preplacement training, periodic medical surveillance evaluations, and respirator fit testing/use as recommended by the Industrial Hygienist. Ensure personnel assigned duties involving exposure to potentially harmful dusts, mists, or vapors use required PPE. Place special emphasis on the environmental laws/regulations. Be knowledgeable of OPNAVINST 5100.19, OPNAVINST 5100.23, OPNAVINST 8000.16, NAVAIR 01-1A-509, NAVAIR 15-01-500, NAVAIR 16-1-540, NAVAIR 17-1-125, DODINST 6050.5, MIL-STD-2161A (AS), OPNAVINST 3750.6, NAVAIR A1-NBCDR-OPM-000, FM 3-5/MCWP 3-37.3, and this instruction. Provide Corrosion Prevention and Control Program indoctrination training and emergency reclamation processes/procedures training. Maintain a program file to include: (a) Applicable POCs. (b) Syllabus identifying the activity’s corrosion prevention and control and Emergency Reclamation Team training requirements. (c) Listing of maintenance personnel who have completed all required corrosion control courses. (d) Program related correspondence and message traffic. (e) Applicable references or cross reference locator sheets. Review CSEC information and reports to aid in identifying specific areas of concern and determine what steps are required for improvement. Provide technical advice and assistance to all work centers in matters pertaining to corrosion prevention and control. Ensure Plane Captains are trained in corrosion prevention and control and are aware of their responsibilities to identify and report corrosion. Ensure aircraft paint schemes are maintained per MIL-STD-2161A (AS). Deviations shall not be made without written ACC/TYCOM approval. Maintain sufficient quantities of required materials, equipment, and tools to support the Corrosion Prevention and Control Program and emergency reclamation actions/procedures. Supervise the Emergency Reclamation Team. Conduct and document quarterly training and drills to refresh team members in emergency reclamation actions. The drills shall encompass specific O-level or I-level maintenance and all emergency reclamation procedures for aircraft, engines, components, and except the physical removal of components and aircraft or SE washing. Verify ultrasonic/water solution component cleaning and drying is not attempted.

b. Manning requirements: (O/I-Level)

Ref (c) COMNAVAIRFORINST 4790.2, VOL V, Ch 7, NAMP

O-Level, if seven or more aircraft assigned, one AM1 qualified in corrosion control, assigned as Work Center/Corrosion Control Team Supervisor. NOTE: One of the below personnel shall be qualified in aircraft paint touch-up and coatings maintenance. One AE3 or AT3 qualified in corrosion control. One AD3 qualified in corrosion control. (b) Two through six aircraft: One AM1 or AM2 and one AM3 qualified aircraft painter. Both shall be qualified in corrosion control.

I-level, assist supported activities by providing expertise and equipment for corrosion repairs when requirements exceed O-level activity capability. Assign two corrosion control qualified AE2s/AT2s to Work Center 60A (if established) or the Avionics Division. Assign one corrosion control qualified AS1 to the Support Equipment Division. Two AM3s qualified in corrosion control. Two AM designated strikers qualified in corrosion control. One AO3 qualified in corrosion control (if AOs are assigned to the activity). Assign qualified corrosion control personnel to the Airframes Branch, or the equivalent, in small detachments and OMDs with fewer than seven aircraft as follows: One aircraft: One rated AM qualified aircraft painter. Assign additional personnel as required to enhance each activity’s Corrosion Prevention and Control Program and Emergency Reclamation Team. Ensure one corrosion control qualified AM1 is assigned to the Airframes Division. Assign one corrosion control qualified AM senior petty officer to QA.

c. Training requirements:

Ref (c) COMNAVAIRFORINST 4790.2, VOL V, Ch 7, NAMP

O-level and I-level personnel engaged in aircraft, engines, components, or SE maintenance shall complete one of the following corrosion control training courses:

(1) CNATT Corrosion Control Course (CNATT-BCC-2.0) or Avionics Corrosion Course (CNATTACC- 2.0) on the Navy Knowledge Online web site (), NAMTRAGRU Corrosion Control (Basic) course (Course C-600-3180), or Avionics Corrosion Control course (Course C-100-4176).

(2) Aviation rating specific "A" school (after 1 April 1992).

(3) NATEC equivalent training.

(4) Airman Apprentice Training course (Course A-950-0078).

O-level Work Center 12C or Corrosion Control Team personnel as well as the I-level Work Centers 51B, 60A, and 92D supervisors shall complete the Aircraft Corrosion Control course (Course N-701-0013) or Aircraft Corrosion course (Course C-600-3183). (Prior completion of one of the above courses is a

prerequisite for course enrollment.) Individuals shall complete the Aircraft Paint Touch Up and Markings course (Course N-701-0014) or Aircraft Paint/Finish course (Course C-600-3182) prior to painting aircraft/SE. This qualification is valid for an unlimited period.

NOTE: Activities may use qualified NATEC personnel to instruct the Aircraft Corrosion Control course

(Course N-701-0013) and the Aircraft Paint Touch Up and Markings course (Course N-701-0014)14-7.

d. Inspection intervals

Ref (g) NA 01-1A-509, Aircraft Weapons Systems Cleaning and C/C

The minimum frequency and extent of these inspections are established by the aircraft programs of the parent service organizations. However, during scheduled or unscheduled maintenance actions on aviation equipment or components, the area involved as well as those within 3 feet or 36 inches (18 inches on each side) of the repair or treatment area shall be visually inspected for corrosion. Additional inspections may be necessary in areas which are particularly prone to corrode, such as magnesium gear boxes, wheel and flap wells, and bilge areas. Areas which are corrosion prone are discussed in Section II of this chapter. GENERAL INSPECTIONS. A general inspection of aviation equipment or components is performed as follows: a. Clean the area thoroughly (as described in Chapter 2) or, for water sensitive areas, wipe the area with a clean cloth dampened with an approved solvent. CAUTION

Prior to removing any access covers or panels primed with TT-P-2760 flexible primer, score the sealant at the edges of the cover/panel with a sharp plastic tool to prevent fraying the paint finish when the panel is removed. b. If corrosion is suspected, examine the area with a 10X magnifying glass and flashlight. Examine edges of skin panels, rivet heads, and corrosion prone areas. If there are blisters, bubbles, or other coating irregularities present, attempt to dislodge the paint by scraping with a sharp plastic tool. If paint does not easily dislodge and corrosion is not suspected, the irregularity is probably confined to the paint film itself and no further action should be taken. When corrosion is suspected but no irregularities are present, apply a strip of 3M No. 250 (preferred) or A-A-883 Type II, flatback masking tape over the clean, dry area. Hand rub the tape for several strokes in order to assure good adhesion, and remove the tape with an abrupt lifting motion. Where paint is removed, inspect and determine the degree of corrosion (paragraph 3-4.).

e. Documentation (MDR-11):

Ref (b) COMNAVAIRFORINST, Vol III, Ch 3, NAMP

Corrosion Control/Treatment Report (MDR-11) - This report is designed for monitoring the Corrosion Prevention and Control Program or for investigating the amount of corrective corrosion treatment necessary. The source of information is the MAF with a general WUC of 040 or MAL Code 170. It is a simple matter to determine whether any specific portion of the aircraft, by WUC, needs additional attention. The report is sorted as follows: (1) Action ORG (major sort). (2) TEC. (3) BU/SERNO. (4) WUC. c. Totals (1) A one-star (*) total is printed for each change of WUC, BU/SERNO, TEC, or ORG. (2) A two-star (**) total is printed for each change in BU/SERNO, TEC, or ORG. (3) A three-star (***) total is printed for each change in ORG.

f. Prevention versus treatment:

Ref (b) COMNAVAIRFORINST, Vol III, Ch 6, NAMP

Corrosion prevention and treatment of aircraft and aeronautical equipment is performed as part of a scheduled maintenance requirement or as an unscheduled maintenance action. (1) Corrosion prevention requirements found while complying with MRCs (scheduled maintenance) will be documented on the inspection look phase MAF. This includes aircraft washing performed as part of a scheduled inspection. (2) Corrosion treatment requirements found during the look phase of an inspection will be documented on a fix phase MAF. Use AT code Z and Malfunction Code 170. The treatment of bare metal is included in this category. (3) Unscheduled corrosion prevention is documented on the MAF only when the elapsed maintenance time exceeds one-half man-hour. Unscheduled aircraft cleaning and temporary repairs of bare metal are included in this category. Multiple items processed may be documented. Use WUC 040, AT code 0, Malfunction Code 000, WD code O, and TM code D. (4) Unscheduled corrosion treatment actions are documented on the MAF using AT code Z and Malfunction Code 170.

112.11 Discuss the following Support Equipment Operator Training and Licensing Program elements:

Ref (c) COMNAVAIRFORINST 4790.2H, Vol V, Ch 17, NAMP

a. Program manager (O/I level):

The AMO is the program manager at the O level. The SE Division Officer is the program manager at the I level.

b. SE requiring a license:

All self-propelled equipment requires a SE license (OPNAV 4790/102). A complete list is available in the NAMP, Vol V, Figure 17-3. Any item that contains an internal combustion engine, input/output voltages greater than 115v AC, input/output voltages greater than 28v DC, input/output pressures greater than 100psi, output temperatures greater than 150 degrees Fahrenheit, or manually operated SE that is highly hazardous in its operation and requires a specific, critical sequence of events to prevent injury or aircraft/equipment damage requires a SE license.

c. Licensing procedures (Phase I/Phase II):

The two-phase operator training program is designed to provide:

Phase I - Training in the operation and O-level maintenance of SE. It is conducted at the local IMA, using training materials furnished/prepared by CNATT. The SE Operator courses contain course outlines, lesson guides, and training aids as appropriate.

Phase II - Training and qualification of O-level and I-level personnel in the proper operation of SE for the particular aircraft/equipment maintenance functions for which they will use the SE. Phase II training consists of required reading, OJT, and practical and written tests. At the O level, the Wing program managers coordinate development of SE written exams covering equipment operating procedures, safety precautions, emergency procedures, and on-aircraft interface/operation. For the I level, the SE Division Officer develops Phase II written examinations with the cognizant Division Officer (IMA/MALS/Air Operations/Weapons Division Officers only).

d. Expiration dates:

SE operator licenses are valid for type equipment and aircraft for 3 years, regardless of activity assigned. SE licenses for self-propelled equipment expires when the state license expires or 3 years, whichever comes first (unless the license is from an auto-extend state). Figures 17-9 and 17-10 outline state driver license extension policies.

e. Proficiency versus requalification:

Transfer to an activity operating the same type/model but a different series merely requires verification of proficiency. Proficiency does not extend the expiration date of the license. It is only a verification through a practical examination that the member can operate the equipment safely. Renewal is a request for requalification and is a new license valid for another 3 years (or until the state license expires). Phase I training is only required to be completed once. For renewal, only the practical examination, QA test, and routing certification must be completed. The original Phase I completion is required to be routed and filed in the training record with the completed renewal certificate.

f. MHE licensing (ashore/afloat):

Forklift trucks are classified as MHE. Forklift operators and explosive ordnance drivers do not require SE operator’s licenses. Forklift operator training is conducted ashore by the Supply Department or Public Works using NAVSEA SWO23-AH-WHM-010 and DOD 4145.19R-1. IMAs ashore may also conduct forklift operator training, after coordinating with the Supply Department to develop a training program which meets or exceeds these requirements. IMAs afloat shall accomplish forklift operator training using, as a minimum, the Support Equipment Forklift Operator course. Procedures for explosive ordnance driver training and licensing are in NAVSEA SWO23-AH-WHM-010 and the Weapons Officer shall verify completion of training requirements prior to licensing. Type equipment and weight limitations are recorded on the U.S. Government Motor Vehicle Operator’s Identification Card (OF-346). The MO will sign the “White Licenses” for all forklift operators afloat.

g. Weight handling equipment licensing:

Wings shall develop standardized WHE Phase II SE training and documentation procedures for the T/M/S aircraft they support per NA 00-80T-119. IMAs shall develop the training and documentation for the WHE they maintain per NA 00-80T-119. PPE and hand signals training shall be included in all MHE/WHE training courses as per the NA 00-80T-96, NA 00-80T-119, and OPNAVINST 3710.7.

112.12 Discuss the following Support Equipment Misuse and Abuse Program elements:

Ref (a) COMNAVAIRFORINST 4790.2, Vol 1, Ch 14, NAMP

a. Program manager. The SE Misuse and Abuse program one of the six programs managed by the Quality Assurance/Analysis Division. A QAR is assigned, via the MMP, program management responsibility. The responsibility for monitoring this program is normally delegated to a senior Petty Officer or Chief within the Maintenance Department.

b. Reporting procedures. Reporting SE Misuse and Abuse is an all hands responsibility. Reporting procedures include:

(1) Anyone witnessing SE misuse/abuse is expected to prepare and forward an SE Misuse/Abuse Report (OPNAV 4790/108), Figures (14-7 and 14-8) to the activity with IMRL reporting responsibilities for the SE item. Handwritten forms are acceptable.

c. Documentation. Documentation of an SE Misuse and Abuse incident requires initiation of an SE Misuse and Abuse incident report, findings of the investigation(s), and recommended actions.

(1) QA shall assign a control number and prepare an official typewritten report for the MO’s signature. Forward the signed report to the CO of the command which held custody of the item. Send a copy to the CO of the command to which the offender is attached, if different.

(2) QA of the command receiving the report shall conduct an investigation and provide recommendations to the CO for corrective action. A joint investigation shall be conducted with the offender’s command, if different. During the investigation, an analysis of licensing, training, certification, maintenance procedures, safety, and related trends will be conducted. The CO shall return the report to originator within 10 working days, with recommendations and action taken described on the back of the form.

112.13 Discuss the following Support Equipment Planned Maintenance System

Program elements:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, CH 18, NAMP

a. Program manager – Designated in writing via the MMP, is the MMCO/PCO.

(1) Develop procedures for scheduling all SE Periodic/PM. Include procedures to track hourly/metered requirements. They cannot be scheduled in SESS.

(2) Screen all SE for PMS applicability.

(3) Ensure acceptance inspections and transfer inspections are conducted on all incoming and outgoing SE.

(4) Ensure all SE is preserved as required, including equipment awaiting disposition.

(5) Ensure SE is turned in for scheduled maintenance/unscheduled maintenance.

(6) Include all SE periodic inspection due dates in the MMP. PC may use SESS.

(7) Maintain applicable SE records.

b. Equipment requiring PMS – SE is screened IAQ MRC’s from NAVAIR 00-500A, NAVSUP 2003, MIMs, or manufacturers publications for required PMS inspections. NDI requirements are listed in NA 17-1-114. If no PMS is required, gear is still inspected for corrosion and serviceability prior to use.

c. Documentation - The SE Custody and Maintenance History Record (OPNAV 4790/51) is used to record acceptance information, custody and transfer, record of rework, preservation/depreservation, TDs and inspections that involve NDI, proofload testing, and disassembly/reassembly. This form shall accompany all items of SE that have maintenance requirements and applicable TDs, for example, MRCs, MIMs, and manufacturer's handbook. Exceptions are PME, engine test cells, stands, and GB-1As which have their own records. The latest completed copy and current copy shall be retained in Maintenance Control/Production Control. This form will accompany AWSE to the Weapons Department when subcustodied from the IMA.

d. Acceptance/transfer of SE (4790/51) -Acceptance inspections/transfer inspections will be performed on all SE accepted or transferred by an activity. Inspection requirements include, but are not limited to:

(1) Initiate a separate MAF for each item of SE, unless provisions of paragraph 18.6a for homogeneous lot apply. The lead serial number in the BU/SER block (A52) of the lot MAF must coincide with the lead serial number on the lot OPNAV 4790/51.

(2) Inventory of all records and components that make up the item of SE/AWSE.

NOTE: Upon approval by the cognizant SECA, non-RFI SE being transferred shall have all supply documentation attached to the appropriate SE Custody and Maintenance History Record (OPNAV 4790/51). All parts removed for maintenance and all received parts not installed shall be forwarded with the SE.

(3) Verify configuration including TD compliance. NALDA TDSA NAT02, OPNAVINST 8000.16, NAVAIR 00-500A, and NAVAIR 00-500C give specific guidance on TD management.

(4) Verify calibration/load testing/forced removal item currency.

(5) Perform preoperational inspection (when applicable).

(6) Perform functional test (when applicable).

112.14 Discuss the following Naval Aviation Metrology and calibration program elements:

Ref (b) COMNAVAIRFORINST, Vol V, Ch 19, NAMP

a1. Program manager (I Level)

1. Implement and manage the IMA’s METCAL program.

2. Ensure all calibratable gear is forwarded through W/C 670 (Establish 67A if regionalization has occurred).

3. Monitor recall of equipment for calibration.

4. Update and correct Inventory Format 310, 311 and 350 reports (including Format 350 reports returned from other workcenters) and submit necessary changes to the designated MOCC (MEASURE Operational Control Center) per OP43P6B. Designate safety related SE on the MEASURE inventory.

5. Ensure that all TAMS (Test and Monitoring Systems) or standards submitted for repair are processed with a complete Support Equipment Discrepancy Report.

6. Maintain a program file that includes program related correspondence/message traffic and applicable references and/or cross reference locator sheets.

a2. Program manager (O Level)

1. Ensure timely delivery of calibratable gear to W/C 670. Obtain a receipt and ensure timely pickup.

2. Ensure equipment is turned in complete with cables, accessories, charts, and peculiar data required during calibration. Indicate anything broken or missing.

3. Induct any non-operational/suspected bad gear with a detailed explanation of discrepancies.

4. Update MEASURE data via the FCA when gear is transferred or received.

5. Retain METER card pink copies until Inventory 350 reflects new calibration date.

6. Update and return corrected original Format 350 report to the supporting activity within 5 working days. Retain on file until corrections appear on subsequent reports.

7. Ensure gear is handled/stored/transported properly.

8. Advise COC on operation impact of OOS gear.

9. Ensure items requiring local one-time interval extensions meet all conditions listed in the NAMP.

10. Designate safety related SE on MEASURE inventory per the NAMP.

11. Plan gear calibration accordingly with operational schedule.

12. Arrange for calibration in projected operational environment.

13. Maintain a program file that includes program related correspondence/message traffic and applicable references and/or cross reference locator sheets.

b. MEASURE – Metrology Automated System for Uniform Recall and Reporting. A system for recall of calibratable gear utilizing MIS techniques.

c. Predeployment planning – Gear should be calibrated based on operations requirements and anticipated availability of calibration capabilities in operating environment.

d. Calibration labels – If illegible, missing and/or damaged, calibration is not reliable and requires recalibration. Will have serial number, date cal is due and date cal was completed. Also have special cal, inactive, calibration not required, and rejected labels.

e. Extension policies/procedures – Done when no other options exist. IMA MO can extend calibration with exception of flight/personnel safety SE. Maximum extension is limited to one interval per NAVAIR 17-3MTL-1 or 12 months, whichever is less. A special label is affixed next to original calibration label.

f. Inventory Format 350 – A list distributed by customer activities to subcustodians listing gear from Format 310 (list from customer activity that has P/N, S/N, subcustodian, calibration interval, scheduled laboratory code and next due date) that is checked out to subcustodians.

Procedures – accomplished as required by NA 17-1-114. documented on the 51 card. Actual procedures depend on the type of equipment being tested.

112.15 Discuss the following Hazardous Material Control and Management Program elements:

Ref (c) COMNAVAIRFORINST, Vol V, Ch 20, NAMP

a. Program Manager

- Ensure an aggressive program of environmental awareness and compliance within the Maintenance Department. Recognize a CO’s potential personal liability for infractions and bring to the CO’s immediate attention any violations or concerns that may impact achieving 100 percent compliance.

- Assist the Maintenance Department in identifying and resolving potential hazards and violations.

- Supervise and Coordinate the program IAW federal regulations, local regulations and this instruction.

- Develop emergency spill procedures to contain, control, and resolve HAZMAT spills.

- Nominate to the MO, an E-5 (or above) as HMC&M Supervisor.

b. Personnel Responsibilities

- Each of your personnel shall receive Training and be documented on the NAMP Indoctrination Training Sheet in the individual’s training record. All personnel will receive hazardous communication training within 30 days of reporting. Personnel will also adhere to the HMC&M instruction at all times.

c. Individual liability

The Commanding Officer is liable for any infractions with HAZMAT and HAZWASTE laws, rules regulations and procedures of the HMC&M program.

112.16 Discuss the following Individual Component Repair List Program elements:

Ref (c) COMNAVAIRFORINST, Vol V, Ch 21, NAMP

a. Program Manager: is responsible to the MMCO for the proper maintenance and use of the ICRL, as well as conducting training for all ICRL Petty Officers

b. Capability Codes:

C1- full repair

C3-limited repair

A1-check and test only

M1-assemble/manufacture

R1-repair and return to originating activity

X1- repair not authorized

X2-lack of authorized equipment/tools/facilities

X3-lack of required technical skills

X6-lack of technical data

Z1-consumable material

c. Change requests: to request changes to the ICRL and provide justification for each request. Ensure applicable blocks 1 through 15 are completed accurately and forward to QA

d. AMSU: Ensure each P/N inducted is identical to the P/N on the component ID plate. Also to ensure all components inducted into work centers are properly identified in activities ICRL.

e. Review/validation requirements: Validate the X1 CC during BCM reviews and induct part to work center if review date has expired. The local use column shall include the BCM review date and work center responsible for review.

112.17 Discuss the following Electrostatic Discharge Program elements:

a. Program manager

Ref (c) COMNAVAIRFORINST, Vol V, Ch 22, NAMP

The Maintenance Officer (MO) will designate in writing via MMP an ESD Program manager. The program manager will enforce compliance, provide indoctrination and refresher training to personnel, ensure protected work areas are properly maintained and materials are available.

b. Labeling requirements

Ref (c) COMNAVAIRFORINST, Vol V, Ch 22, NAMP

All components, circuit boards, modules or consumable parts that are classified ESD, must have an ESD caution label.

c. Training requirements

Ref (c) COMNAVAIRFORINST, Vol V, Ch 22, NAMP

ESD PO will conduct a follow on training to work center personnel quarterly and documented on the NAMP indoctrination training sheet.

d. Protection requirements

Ref (h) NA 01-1A-23, Standard Maintenance Practices Miniature/Microminiature (2M) Electronic Assembly Repair

WRAs – cover all external cannon plug and connector pins with original metal cannon plug, connector caps, ESD conductive plug caps or grid tape.

SRAs – wrap with an inner layer of anti-static pink poly material and outer layer of static shielding material.

NOTE: anti-static pink poly bubble wrap, bags and caps are not static shielding materials, they provide physical protection only.

e. Automated management information and tracking system:

Ref (c) COMNAVAIRFORINST, Vol V, Ch 22, NAMP

SESS (Support Equipment Standardization System) program, 28 day inspection as per NA 17-600-193-6-2.

f. ESD protected work areas: ( I, O level, supply)

Ref (c) COMNAVAIRFORINST, Vol V, Ch 22, NAMP

I level – minimum of a conductive or work surface and appropriate personnel straps. Work surface and wrist straps shall be grounded, identified by ESD signs and posters.

O level – a minimum portable ESD station. If remove/replace of SRAs with in WRAs, shall have ESD protected work area.

Supply – a minimum portable SED station.

112.18 Discuss the following Tool Control Program elements:

Ref (c) COMNAVAIRFORINST, Vol V, Ch 13, NAMP

a. Program manager - MO Designate, in writing via the MMP, the Material Control Officer as TCP Manager.

b. Tool control manual (O-Level) - Contains information that includes material requirements, tool inventories, and detailed instructions for the implementation and operation of the Tool Control Program for a specific type/model aircraft.

c. Inventory requirements - Conduct semiannual tool container inventories with the Work Center Tool Control Representatives. Reconcile/document semiannual inventories with master inventories to ensure no unauthorized additions/deletions to tool containers have occurred. Inventory all tool containers, special tools, and PPE at the beginning and end of each shift and document change of shift inventories using a logbook, such as a pass down log. Ensure tool containers are FOD free at all times.

Note the tool container number on Copy 1 of the MAF in the Tool Box block upon task assignment. The supervisor or CDI and the technician shall do a sight inventory prior to starting each task and at each work stoppage. After maintenance has been completed and before an operational systems check, the inspection process shall once more be performed.

d. Tool identification - Ensure replacement tools are etched with the ORG code, work center, and tool container number upon receipt from TCP Coordinator.

e. Broken/missing tool procedures –

|Notify the MO, AMO, MMCO, CVW MO/Flight Deck Control (as applicable), and QA. |

|Upon notification of a missing tool, flag the ADBs and the Aircraft Status Query/Workload Inquiry Screen/VIDS Board to prevent release of |

|aircraft/components/engines/equipment prior to completion of the missing tool investigation. Initiate a MAF if necessary. |

|Flag the work center status board and stop production for the job involved (IMA only). |

Maintenance Control or Production Control shall forward the Missing/Broken/Worn Tool Report to QA. QA assist/conduct missing tool investigations and annotate findings on the Missing/Broken/Worn Tool Report (Figures 13-1 and 13-2). Missing tools not located after the directed search, the QA investigator shall annotate the missing tool report number and sign a statement in the corrective action block of the MAF that a missing tool investigation was conducted and the tool could not be found.

The QA Officer based upon results of investigation will provide recommendations.

In the event a tool or part of a tool is missing and not recovered, the MO shall release the aircraft/equipment only after an investigation is conducted to confirm the missing tool/tool part is not in the aircraft/equipment.

f. Container layout/silhouette - The position of each tool shall be silhouetted against a contrasting background. The silhouetted outline will highlight each tool location within the container. Silhouetting may be accomplished by use of paint, etching, or other similar methods which do not contribute to FOD or become a system contamination hazard. Each tool location shall be numbered with a corresponding number on the inventory list.

g. Change request - A TCM change is defined as a tool inventory or container layout diagram that is changed and is determined to have fleet-wide applications. A proposed change shall be forwarded with appropriate justification to the Tool Control Model Manager, if assigned, using Tool Control Manual Change/Deviation Request.

112.19 Discuss the following FOD Program elements:

Ref (c) COMNAVAIRFORINST, Vol V, Ch 12, NAMP

a. Program manager shall:

- be knowledgeable of the OPNAVINST 3750.6 (Naval Aviation Safety Program and provide indoc and follow on training for all assigned personnel, regardless of rate

- Use CSEC information to aid in identifying specific areas of concern

- Maintain a program file

- Develop local command procedures

- Ensure each engine FOD is investigated and submit engine FOD report is submitted for each reportable FOD

- Routinely spot check selected areas

- Ensure FOD walkdowns are scheduled and performed on a regular basis

- Ensure FOD prevention is part of all QA inspections

- Review and take appropriate action on QA recommendations concerning missing or loose fasteners and FOD program deficiencies

b. Fastener control – In case of loose or missing fasteners, discrepant fastener shall be marked and documented on VIDS/MAF.

c. Incident reporting – Shall be submitted by the FOD program manager within 5 days of discovery for each reportable FOD. Sample message can be found in the 4790 Vol V figure 12-1.

d. FOD analysis – Performed to look for possible trends in finding where the FOD is being generated.

e. All hands responsibility – All hands are responsible for reducing the amount of FOD generated.

112.20 Discuss the following Quality Assurance Audit Program elements:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 21, Ch 8, NAMP

a. Program Manager – Be designated in writing, via the MMP, by the QAO. Supervise and manage every aspect of the QA Audit Program.

b. Types of audits/periodicity – Workcenter Audits/Semiannually, Program Audits/Annually, Special Audits/Directed by QAO as necessary.

c. CSEC (Computerized Self-evaluation Checklist) – A standardized objective measurement tool used to conduct audits.

d. Routing Chain – Once the QAO has reviewed the findings, the Program Manager will route all recommendations and follow-up remarks to the MO via the chain of command.

e. Follow Up – QARs/Program Monitors will follow-up on all audits in 10 working days to ensure discrepencies are either fixed or show sufficient evidence of work in progress.

112.21 Discuss the following Laser Hazard Control Program elements: [ref.f]

Ref (f) OPNAVINST 5100.27A/MCO 5104.1B, Navy Laser Radiation Hazard Control

Program

a. Program manager – The activity CO and LSSO (Laser System Safety Officer) will have control over all Laser Operation at the local activity. The CO will designate an LSSO whose duties is to ensure that lasers are operated safely per OPNAV 5100.27A. LSSO shall have direct access to the CO and have the authority to suspend, restrict, or terminate the operation of a laser or laser system. The LSSO usually is in charge of the Laser Control Program but the CO can delegate to ALSO, TLSO, LSS, and RLSS based on composition and use of the command.

b. Training – All personnel in areas using class 3b or class 4 lasers and all personnel using class 3a force-on-force lasers shall receive annual training about the potential hazard associated with accidental exposure to this form of radiation.

c. Laser Classifications- There is four laser hazard classifications that determine the required extent of radiation safety controls.

Class 1 – lasers that are safe for use under all reasonably – anticipated conditions of use.

They are incapable of producing damaging radiation during intended use.

Class 2 – are lasers emitting radiation in the visible portion of the spectrum, personnel should wear laser eye wear for protection.

Class 3a and 3b – wavelength in excess of 400 to 1400nm. (Medium power) produce radiation that can cause eye damage when viewed directly.

Class 4 – requires the strictest control. (High power) produce radiation that may be dangerous to the eye even when viewing a diffuse reflection. The direct beam can produce skin damage and can also be a fire hazard.

d. PPE- Command using lasers shall provide appropriate laser protective equipment i.e. eyewear, clothing, barriers, screens, etc to employees. Laser eye protection shall provide optical densities, at the operating wavelengths under both unaided and optically aided viewing to ensure that the applicable MPE (minimum permissible exposure) is not exceeded.

e. Laser fire log – Every laser operation or series of laser firings using class 3b or class 4 laser systems shall be logged for all outdoor range operations by the hosting range and operational unit.

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112.22 Discuss the following Gas Turbine Engine Maintenance Program elements.

Ref (a) COMNAVAIRFORINST 4790.2, Vol V, Ch 24, NAMP

The objective of this program is to provide the policy and procedures whereby maintenance activities can effectively accomplish their assigned engine maintenance responsibilities.

a. Levels of repair

The following type maintenance codes are prescribed for use by power plants work centers with specific engine repair capability.

1. First-Degree Repair. First-degree repair is repair which includes compressor rotor replacement or disassembly to a degree that the compressor rotor assembly can be removed.

2. Second-Degree Repair. Second-degree repair by designated IMAs includes the repair or replacement of turbine rotors and combustion sections (including afterburners), and the repair or replacement of reduction gearboxes and torque shafts which are considered repairable within the limits of the approved intermediate maintenance handbooks.

3. Third-Degree Repair. Encompasses the same gas turbine engine repair capability as the second-degree repair except that certain functions which require high maintenance man-hours and are of low incident rate are excluded.

b. IMA repair capability list.

Due to the high cost of establishing and supporting engine repair facilities, many factors must be taken into consideration before a decision can be made to support a new effort. Among these are: (1) Equipment requirements. (2) Facility requirements. (3) Engine test facility requirements. (4) Personnel requirements and associated technical training. (5) Proximity of other facilities to provide like support. (6) Productivity and capacity.

ICRL CAPABILITY CODES C1 - Full Repair. This code identifies items for which a normal range of failures can be completely repaired by the IMA per applicable directives, for example, Maintenance Plan; Source, Maintenance, and Recoverability (SM&R) codes; and Maintenance Instruction Manuals (MIMs). C3 - Limited Repair. This code identifies items for which repair of the normal range of failures cannot be accomplished. However, repair to some extent beyond test and Ready For Issue (RFI) certification is performed. A1 - Check and Test Only. This code identifies items which can be tested for range of common failures but cannot be repaired at the activity. M1 - Assemble/Manufacture. This code identifies material which can be assembled or fabricated by the IMA. R1 - Repair and Return to Originating Activity. This code identifies components that are automatically and routinely sent from one shore IMA to another shore IMA for repair and return. Examples are components sent repair and return from Naval Air Weapons Station China Lake Weapons Test Squadron IMA to NAS Lemoore AIMD and from NAS Pt Mugu AIMD to NAS Whidbey Island AIMD. The R1 capability code is NOT to be used in an afloat IMA's ICRL. This code can only be used with Work Center 05A. X1 - Repair Not Authorized. This code indicates the activity is not authorized to repair the component. This code is equivalent to BCM 1 and indicates that I-level maintenance is not authorized to repair the component. May not be used for field level repairable equipment, for example, 1RD COG items. This code can only be used with Work Center 05A. X2 - Lack of Authorized Equipment/Tools/Facilities. This code indicates authorized equipment, tools, or facilities are not available. This code must always be accompanied by a Target Capability Code (TCC) and a Target Capability Code Date (TCCDT). X3 - Lack of Required Technical Skills. This code indicates required skills are not available. This code must always be accompanied with a TCC and a TCCDT. X6 - Lack of Technical Data. This code indicates repair cannot be accomplished due to lack of maintenance manuals, drawings, test program disk/tape, test program instruction, etc., which describe detailed repair procedures and requirements. This code must always be accompanied by a TCC and a TCCDT. Z1 - Consumable Material. This code identifies material assigned SM&R code with ZZ in the fourth and fifth positions or B in the fourth position for which a repair program has not been planned but a capability exists to repair a limited range of failures.

112.23 Discuss the following NDI Program elements:

Ref (a) COMNAVAIRFORINST 4790.2, Vol. I, Ch 10

a. Program Manager – COMNAVAIRSYSCOM is responsible for managing a program of research, development, training, and application of NDI techniques and equipment. ACC/TYCOM’s monitor the program of activities under their cognizance and assign an NDI Program Manager at IMAs.

b. Radiation Safety Officer – Maintain liaison with local IMA NDI Technicians.

c. Types of Inspections – NDI is the practice of evaluating a part or sample of material without impairing its future usefulness. Methods used include visual or optical inspections, liquid penetrate, magnetic particle, eddy current, ultrasonic and radiographic.

d. Personnel certification/recertification – NDI technicians receive their initial certifications at the Aircraft NDI School located at NATTC, Pensacola, FL. Recertification must be competed every 3 years by NAVAIRDEPOTs or ACC/TYCOM designated NDI specialists only.

e. Operators versus technicians – NDI technicians are personnel who have successfully completed the Aircraft Non-Destructive Inspection Technician Class C1 course. Technicians with 3 or more year’s experience who are currently certified and engaged in NDI on a regular basis may certify NDI operators at the O-level.

f. Records/logs – Personnel performing NDIs will maintain a log consisting of two sections and including the following:

Left Side: Original and Current NDI Certification Records (OPNAV 4790/139)

Current physical exam

Current eye exam

Right Side: NDI Technician/Operator Work Log (OPNAV 4790/140)

112.24 Discuss the following Aeronautical Equipment Welders Program elements:

(I-Level)

a. Program manager:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 8, NAMP

Manage all areas of program , ensuring proper certification/recertification and program audit requirements.

b. Certification/recertification:

Ref (i) NA 01-1A-34, Aeronautical Equipment Welding

DOD aviation welders may be required to certify in the following

processes:

a. Gas Tungsten Arc Welding (GTAW).

b. Gas Metal Arc Welding (GMAW).

c. Shielded Metal Arc Welding (SMAW).

d. Torch Brazing (TFB).

Each military service will determine which welding process

and metal groups are required for welder certification

- Physical Requirements: Visual Acuity Requirements:

To maintain certification, all military and civilian welders at the Intermediate Level must weld at least once every three months in any given welding process.

Welders shall be certified for each metal group listed in Table 3-2 of ref (i), in which they are to perform welding and/or torch brazing.

Welders whose specimens fail to meet minimum requirements shall have one (1) additional requalification examination.

Refer to ref (i) Figure 3-2 for sequence chart. The

recertification examination requires a double set of specimens and recording documents identified as recertification examination. Should the results of either specimen of a recertification examination be unsatisfactory, the operator shall require further training. Welders who fail the recertification examination will not perform any production welding operations until recertification is achieved.

- Recertification Procedure - A welder shall be recertified to the same requirements as an original certification. It shall be the responsibility of the service commands to determine the interval of recertification.

Welding Process. For welders and welding operators, a test weld made with a given welding process as listed in paragraph 3.2 is qualified only to that welding process.

- Intermediate and Organization Level Welding Recertification - A certified welder shall recertify when one of the following conditions apply:

a. One year has passed since last certification/recertification.

b. The welder fails to maintain the Welder’s Log as described in ref (i) paragraph 3.17.7.

c. There is specific reason to question the ability of a

welder or welding operator to meet the requirements for certification in a given welding process. Specific reasons may include poor quality welds, visual acuity, health, and behavior.

c. Proficiency requirements:

Ref (i) NA 01-1A-34, Aeronautical Equipment Welding

In order to maintain certification, every welder must demonstrate proficiency by welding at least one ferrous and one non-ferrous specimen every 30 days; the demonstration may be coupons or actual component repairs.

d. Logbook:

Ref (i) NA 01-1A-34, Aeronautical Equipment Welding

a. The welder must document proficiency in the Welder’s Log (Figure 3-12) either by practice welds or by actual component welding. The Welder’s Log shall be completed per Figure 3-12 (Sheet 2).

b. The work-center supervisor shall verify the Welder’s Log every 30 days for compliance.

c. If the work-center supervisor is a welder, then Quality Assurance is responsible for verifying the Welder’s Log every 30 days.

112.25 Discuss the following Explosive Handling Personnel Qualification/Certification Program elements:

Ref (m) OPNAVINST 8020.14, DON Explosives Safety Policy

Ref (p) COMNAVAIRFORINST 8023.3, Handling Personnel Qualification and Certification (Qual/Cert) Program

a. Board Chairman (encl. 3)- The Chairman shall be the CO/OIC. The duties may be delegated, in writing, to the cognizant department head assigned. Depending upon the command and responsibilities of the Board Chairman, they may or may not be ordnance certified. Their responsibilities include:

- Oversee the command qual/cert program.

- Be aware of all explosive operations at the activity and ensure that involved personnel are in full compliance.

- Ensure that sufficient quantities of qualified and certified board members are maintained onboard at all times.

- Conduct a formal qual/cert board utilizing an oral and/or written examination.

- Request initial certification and board member waivers from the appropriate TYCOM utilizing guidelines.

- Maintain a Board Chairman’s notebook.

- Oversee SEAOPDET personnel when assigned.

b. Applicability (encl. 1)- The following personnel must be qualified and certified:

- All personnel, including Officers, Enlisted, and DOD civilians, whose duties include explosive tasks with explosives/explosive devices.

- Civilian Contractors providing direct support operating on Naval Activities.

- Command appointed qual/cert board members.

- Dog handlers for handling explosive training scent kits.

- Explosive Ordnance Disposal (EOD) personnel for non-EOD explosive tasks.

c. Certification/recertification process (encl. 3)

-Begins with the identification of all billets that require certification and a determination of the explosives/explosive devices, certification level and work task codes required of each billet.

- When the Division Officer determines that an individual is fully qualified and recommended for certification, the following steps are required:

a. Individual’s training record and Qual/Cert form is annotated with recommended certifications and forwarded to the Board for review.

b. Board members will review the training record to ensure a designated Board member has observed demonstrated proficiency on each explosives/explosive device, WTC’s, and certification levels. No more than 365 days have elapsed between proficiency demonstrations observed by a Board Member for each explosive/explosive device and work task code to be performed with the specific explosive/explosive device, or similar device. No more than 180 days elapsed since member received a formal training lecture covering each explosive/explosive device or family group of devices.

c. If cert/recert is to be granted, the individual, a Board Member and the Chairman will sign in all appropriate blocks of the qual/cert form.

d. A renewal of the certification, whether issued at the time of expiration or before, shall be granted only after the individual has been validated.

e. Line items not requiring recert shall be deleted by making a single line through the entire line entry. The Chairman shall initial and date the deletion in the right hand border.

f. Cert/Recert is valid for a maximum of one year from the date the Chairman signs the qual/cert form.

d. Certification levels (encl. 6)

- The following are the only authorized certification levels, and progressive certification from one level to the next is not mandatory:

1. Team Member (TM) - Basic qualification. Aware of basic safety precautions relative to the task and explosive/explosive devices concerned, has received formal and/or on-the-job training and has been recommended by intermediate supervisor.

- Perform only under direct supervision of a team leader.

2. Individual (I) - Same as TM.

- Has sufficient knowledge and has demonstrated the proficiency to be entrusted with performing the work task alone in safe and reliable operations.

- Capable of interpreting the requirements of applicable checklist, assembly/operating manuals, and SOP.

- This certification level can be used in conjunction with explosives/explosive devices that normally require a team effort to load/download. This is to allow an individual to perform tasks contained in the loading procedure section of checklists without the team leader at the immediate scene. Applies to functions involving cartridge actuated devices in aircraft AEPS systems when a supervised crew concept is not appropriate.

- QA/SO oversight is still required.

3. Team Leader (TL) - Same as I.

- Has sufficient knowledge and has demonstrated the proficiency to direct others in performing the work task safely.

112.26 Discuss the following Aviation Gas Free Engineer Program elements:

Ref (n) NA 01-1A-35 Aircraft Fuel cells and Tanks

Aircraft Confined Space Program. The Aircraft Confined Space Program (ACSP) describes the processes, means, and methods used for recognizing, evaluating, and controlling potential confined space hazards associated with fuel cell and fuel tank maintenance and for communicating those hazards to employees. The ACSP was formerly known as the Aviation Gas Free Engineering Program (AVGFE).

a. Program Manager The Aircraft Confined Space Program Manager (ACSPM) Must be a Quality Assurance Representative (QAR) or a Collateral Duty Quality Assurance Representative (CDQAR). The ACSPM shall be designated in writing by the CO or designee. Responsible for the administration of the program within the organization, ensuring all safety requirements within the scope of this manual.

b. Qualification. Successfully complete the NAMTG course C600-3000A. This

Training shall include hands-on instruction on the operation and calibration

of gas detecting equipment. OJT Training shall be completed to acquaint the

EA with the different characteristics of each individual Fuel cell on each

Type/Model/Series (T/M/S) aircraft for which they are to be qualified. If a

Series change for a particular aircraft T/M results in no change to the fuel

cell configuration of the aircraft, then familiarization with one member of

the Series, qualifies the EA on all members of the Series. For example, if an

EA has OJT'd on a FA-18C then they are automatically qualified to certify

FA-18A, B, and D Aircraft fuel cells as well because the configuration of the

cells are identical. However, that person is not qualified to certify the

FA-18E/F because the E/F has a different configuration of cells.

c. Space certification/expiration. Classifications of Permits. The following categories should be used on Permits to indicate the conditions found at the time tests are conducted.

Class 1: Not Safe For Personnel – Not Safe For Hot Work

Class 2: Not Safe For Personnel Without Protection - Not Safe For Hot Work (Provisional Permit)

Class 3: Safe For Personnel - Not Safe For Hot Work

Class 4: Safe For Personnel - Safe For Hot Work

Class 5: Hands-In/Tool-In Maintenance

Class 6: Reclassified Non-Permit Required Confined Space

The period for which Permits are valid and the requirements for testing and maintaining validity of the Permit shall be specified by the EA, not to exceed 12 hours. A change in personnel due to shift change requires updating of the Permit (and all copies) or the issuing of a new Permit.

Periodic testing shall be performed when, in the professional judgment of the Entry Authority, safe conditions within the fuel cell may deteriorate or the limitations of the Permit may be exceeded. Periodic testing shall be performed during any operation that possesses the potential for producing or releasing toxic, flammable, or asphyxiating atmospheres or materials into the fuel cell. The overriding concern is that safe conditions are maintained within the cell during operations and after interruptions in operations. Therefore, retesting, recertifying conditions, and updating of Permits is required when work interruptions occur which could result in deterioration of safe conditions within the cell.

d. Equipment requirements. Only the Naval Air Systems Command (NAVAIRSYSCOM) (PMA 260) approved gas detectors shall be used to obtain required test readings of the atmosphere in a fuel cell. (Table 2-5, Item 7.a.)

e. Safety/hazards. A Safety Observer is an individual stationed outside a

fuel cell who monitors the Entrant(s). Each Safety Observer shall:

-Be trained in the proper use of respirators and Cardio Pulmonary

Resuscitation (CPR) (‘O’ level only).

-Be trained in the proper use of personal protection equipment (PPE) and

hazards associated with improper oxygen, flammable, and toxic vapor limits.

-Know the hazards that may be faced during entry, which includes

information from MSDS on materials being used and consequences of exposure to

fuel vapor.

-Maintain an accurate count of Entrant(s) in the fuel cell and ensure all the

Entrant(s) are listed on the Permit.

-Communicate with the Entrant(s), by the means specified on the Permit.

-Monitor activities inside and outside the fuel cell to determine if it is

safe for Entrant(s) to remain in the fuel cell.

- Order Entrant(s) to evacuate the fuel cell if any of the following is

detected:

--Any condition in the fuel cell that is not addressed specifically on the Permit.

--Adverse effects of fuel exposure to an Entrant.

--A situation outside the fuel cell that could endanger the Entrant.

f. Documentation. When Permits are issued, distribution shall be as follows:

The original copy shall be placed in a protective cover (if needed) and posted at the main entrance or most commonly used access to the fuel cell.

One legible copy shall be posted at all other access areas that are open and readily accessible to personnel. Each copy may be placed in a protective cover if needed.

One legible copy shall be retained in the EA personal logbook (‘I’ and ‘O’ level).

One legible copy shall be provided to the Aircraft Confined Space Program Manager.

One legible copy shall be provided to the Maintenance Control requesting the service (‘O’ level only).

Other legible copies shall be distributed as required by the administrative or operational requirements peculiar to the activity.

112.27 Discuss the following Respiratory Protection Program elements:

Ref (j) OPNAVINST 5100.23F, Ch 15, Navy Occupational Safety and Health (NAVOSH) Program Manual

a. Program manager – The CO or OIC shall appoint a trained respiratory protection program manager (RPPM) who shall implement program requirements. The RPPM shall maintain a listing of employees that require respiratory protection and shall authorize those employees to wear respiratory protective equipment. The RPPM shall pass one of the following training courses: OSHA Training Institute Course 222 or 222A, NIOSH Course 593, Navy RPPM course, Respiratory Protection Program Management (A-493-0072).

b. Respirator inventory –

Air-Purifying Respirator. These respirators remove air contaminants by filtering, absorbing, adsorbing or chemically reacting with the contaminants as they pass through the respirator canister or cartridge.

Supplied-Air Respirators. These respirators provide breathing air independent of the environment.

Self-Contained Breathing Apparatus (SCBA). This type of respirator allows the user complete independence from a fixed source of air and offers the greatest degree of protection but is also the most complex.

c. Respirator cleaning and storage – Only personnel who have received training through the RPPM shall perform the cleaning, inspection and maintenance of respiratory protective equipment. Store all respiratory protection equipment in a designated clean area.

d. Fit testing - Activities shall fit test each individual required to use a respirator-with a tight-fitting face-piece, at the time of initial fitting and annually thereafter. All tight-fitting positive and negative pressure respirators shall be either qualitatively or quantitatively fit tested by activities initially and annually. To wear full face, negative pressure, air purifying respirators in atmospheres up to their assigned protection factor of 50, personnel must be quantitatively fit tested and the respirator must achieve a fit factor of at least 500, which equates to a safety factor of 10.

e. Documentation - The RPPM shall document respirator fit testing and include, make, model, style and size, method of test and test results, strip chart recording or other recording of test results for quantitative fit test, test date and the name of the instructor/fit test.

112.28 Discuss the following Emergency Reclamation Program elements:

Ref (c) COMNAVAIRFORINST 4790.2, VOL V, Ch 14, NAMP

a. Program manager

- Designated by the MO via the MMP.

- Ensure the Industrial Hygienist conducts a work place assessment and exposure assessment of all touch-up painting operations on aircraft and aeronautical equipment.

- Ensure personnel assigned duties involving opening, mixing, or application of coating materials receive preplacement training, periodic medical surveillance evaluations, and respirator fit testing/use as recommended by the Industrial Hygienist.

- Ensure personnel use required PPE.

- Place special emphasis on the environmental laws/regulations.

- Be knowledgeable of all listed references.OPNAVINST 5100.19, OPNAVINST 5100.23, OPNAVINST 8000.16, NAVAIR 01-1A-509, NAVAIR 15-01-500, NAVAIR 16-1-540, NAVAIR 17-1-125, DODINST 6050.5, MIL-STD-2161A(AS), OPNAVINST 3750.6, NAVAIR A1-NBCDR-OPM-000, FM 3-5/MCWP 3-37.3, and this instruction.

- Provide Corrosion Prevention and Control Program indoctrination training and emergency reclamation processes/procedures training.

- Maintain a program file to include

- Ensure Plane Captains are trained in corrosion prevention and control and are aware of their responsibilities to identify and report corrosion.

- Ensure aircraft paint schemes are maintained per MIL-STD-2161A (AS).

- Maintain sufficient quantities of required materials, equipment, and tools to support the Corrosion Prevention and Control Program and emergency reclamation actions/procedures.

- Supervise the Emergency Reclamation Team. Conduct and document quarterly training and drills to refresh team members in emergency reclamation actions. The drills shall encompass specific O-level or I-level maintenance and all emergency reclamation procedures for aircraft, engines, components, and except the physical removal of components and aircraft or SE washing.

- Verify ultrasonic/water solution component cleaning and drying is not

b. Training/drills requirements - Conduct and document quarterly training and drills to refresh team members in emergency reclamation actions. The drills shall encompass specific O-level or I-level maintenance and all emergency reclamation procedures for aircraft, engines, components, and except the physical removal of components and aircraft or SE washing.

c. ERT Kit contents/PMS – Per local instruction pending TMS will dictate but NAVAIR 01-1A-509-2, fig. 9-2, is a suggested list of items.

[pic]

d. Priority removal list – NAVAIR 01-1A-509-2 See fig 9-1

[pic]

112.29 Discuss the following AMMRL Program elements:

Ref (k) NAVAIRINST 13650.1C, NAVAIRSYSCOM AMMRL Program

Ref (q) COMNAVAIRFORINST 13650.3, Encl 1, AMMRL Program

a. IMRL Program manager- The MO is responsible for overall management and training of the activity’s IMRL Program. This includes designating an E-5 or above with a 9590 secondary NEC as the activity’s IMRL Manager. The primary goal of the IMRL Manager is to ensure all required SE is on-hand.

b. LAMS- Local Asset Management System: The only authorized means for the automated management, tracking and inventorying of SE assets at the organizational or intermediate level of maintenance.

c. Custody codes (P, L) - P: Heavy, large or fragile items subject to misalignment. L: Calibrated items

d. Inventory- The required annual physical inventory may be conducted at any time during the calendar year at the discretion of area commanders but, shall be completed by 31 December of each calendar year. As with many instructions, this requirement may be added to but, not taken away from.

e. Tailoring- Refers to the process of configuring the allowance quantities on a given activity’s IMRL to those quantities which meet the actual requirements of that specific activity.

f. Transaction reporting- The method of reporting SE gains, transfers, re-identification and surveys by an IMRL activity.

112.30 Explain the purpose of the CAD/PAD:

Ref (s) NA 11-100-1.1, Cartridge Actuated Devices and Propellant Actuated devices

The CAD/PAD (Cartridge Actuating Device/Propellant Actuating Device) instruction NA 11-100-1.1 is used for description, service life/Installed/Shelf life computations the usability of the explosive device and discrepancies associated with explosive devices using NAR’s (Naval Ammunition Reclassification).  You can see a description of each explosive device in the military arsenal detail characteristics of the specific usages of explosive.  Service life, Shelf Life and Installed Life detail charts listing illustration of the amount of time the explosive devices can be used from the time of manufacturing to disposal.  NARs are messages sent to the fleet to track and report any type of explosive discrepancies given detail instruction to the procedures that has to be taken to a specific explosive device.  Examples of CAD/PAD that are use for military purpose are releasing weapons stores from aircraft, assist pilots to eject from the aircraft, JATO bottle to assist drones in take off and parachute cable cutter on some ordnance.

112.31 Discuss the following Central Technical Publication elements:

Ref (c) COMNAVAIRFORINST 4790.2, Vol V, Ch 10, NAMP

Ref (o) NA 00-25-100, WP’s 00900, 02000–0250O, NASC Technical Manual Program

a. Program Management – NA 00-25-100 WP 20. Management of the technical library is a function assigned to the Quality Assurance Division. Central Tech Pubs Librarian CTPL performs Requisitions, receives, screens, reviews, routes, distributes, controls, and files all incoming technical publications.

b. DTPL – Dispersed Technical Publication librarian(s). Primary and Alternate representatives are assigned by the W/C Sup. See billet description form Fig 1 WP 2200

c. Training – Personnel assigned to a CTPL shall receive indoc and follow on training in library operation and upkeep. FASO CTPL course is highly encouraged. MBR’s assigned read and sign billet description/ assignment form. Training the DTPL’s is the responsibility of the CTPL.

d. Auditing – The command establishes and maintains a program to audit the CTPL annually (WP 2100). Smart to have an outside look for compliance sanity check. (WP 2100) States: Audits of the CTPL shall be conducted by a SME or at Depot Level facilities, a designated rep to ensure that the manuals and TD’d used by the activity are up to date. are executed quarterly (WP 2200) CSEC is available and should be utilized for program compliance.

e. CECR – Change Entry Certification Record. Used by CTPL to ensure updates to manuals have been issued to and incorporated into dispersed libraries. Should be picked up on a daily basis and acts as a receipt for CTPL. Part 1 tickler file / Part 2 –returned back to CTPL indicating completion / Routine must be incorporated/filed in 5 working days,

IRAC’s incorporated within 2 working days of receipt from the CTPL.

f. IRAC – Interim Rapid Action Change. Issued by Naval activities or Contract Admin Offices (CAO’S) as a Naval Message providing urgent Technical Manual change data. See example (WP 00700).

g. IETM – Several platforms are providing Interactive Electronic Technical Manuals to the CTPL and work centers for maintenance on aircraft. Each of these platforms may have different IETMs and different methods of initial distribution and updating. IETM are available via the NATEC website.

h. TPDR – Technical Publication Discrepancy Report. Falls under the NAMDRP (Naval Aviation Maintenance Discrepancy Reporting Program. Provide a simplified procedure fro reporting technical publication safety hazards and routine deficiencies found in COMNAVAISYSCOM tech publications.

SEE different CAT (categories in 4790.2 Vol V CH-1).

i. SALTS A secure means of communication for the military to send message traffic. Used mainly for sending MILSTRIPS through the supply system. This website has since been replaced by web.salts.navy.mil.

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