PK Structures Mezzanine Specifications



PK Structures Mezzanine Specifications

Part 1 – General

01. Related Work

1. The area where the mezzanine is installed shall have a concrete slab, troweled smooth and level.

2. Concrete areas where the mezzanine column placement occurs shall be capable of withstanding loading as prescribed by the mezzanine manufacturer.

02. System Description

1. This specification is intended to define general requirements that apply to suitable mezzanine design. The mezzanine described will be a free standing, custom-engineered system, as manufactured by PK Structures, Earth City, MO.

2. Mezzanine must be easy to assemble and dissemble for ease of relocation with the use of hand tools.

3. Deflection criteria shall be L/360. The deflection due to live load of structural members supporting floors shall not exceed 1/360 of the span.

4. Drift (lateral deflection) shall be limited to that allowable by the 2003 IBC.

5. The structural design shall at a minimum 5 psf Collateral Load in addition to the dead weight of the mezzanine structure itself.

6. Design criteria for the structure shall comply with specific requirements for ____ PSF live load, ____” underclearance or ____” top of deck height.

03. Reference/Code

1. The codes and specifications listed below will be referenced in the design and fabrication of the mezzanine system.

|2003 IBC |AISC (9th Edition) |

|1997 UBC |AISC-SJ1 |

|1999 BOCA |ASTM A500-GRADE B |

|1999 SBCCI |ASTM A325 |

|2000 29-CFR-1910 (OSHA) |ASTM A36 |

|ICBO No. 4627 |ASTM A992 |

2. Definitions:

The subsequent definitions give meaning to the terms listed above and others used in this specification.

IBC – International Building Code

UBC – Uniform Building Code

BOCA – Building Officials and Code Administrators

SBCCI – Southern Building Code Congress International Incorporated

OSHA – Occupational Safety and Health Administration

ICBO – International Conference of Building Officials

AISC – American Institute of Steel Construction

AISC-SJ1 – American Institute of Steel Construction – Steel Joist Institute

ASTM – American Standards and Testing Methods

AWS – American Welding Society

Dead Load – The allowance made in the load capacity of the mezzanine to account for the weight of the mezzanine structure.

Collateral Load – The additional dead loads other then the weight of the structure and decking materials such as ceilings, sprinklers and mechanical and electrical systems.

Live Load – The maximum loading that the end user may safely place on the mezzanine. Typically, live loads range from 50 PSF. to 250 PSF. Live load is a requirement specified by the end user.

Lateral Load – The force that acts horizontally on the structure causing the mezzanine to sway. All structures shall be designed for some amount of lateral loading. The end user must specify location or seismic zone.

Lateral Deflection (Drift) – The amount that the mezzanine will sway as a result of subjecting it to a lateral load.

3. The owner or end user must inform the mezzanine manufacturer of any local codes, which may affect mezzanine design.

04. Quality Assurance

1. The system manufacturer shall be an established firm with a minimum of 10 years of documented experience in the design and fabrication of custom steel structural systems.

2. The system shall be designed under the direct supervision of a professional engineer experienced in the design of mezzanines in accordance with specifications and national model building codes.

3. Installation contractor shall be a company experienced in installing mezzanine systems.

05. Warranty

1. The manufacturer will warrant the mezzanine to be free from manufacturing defects for a period of one year.

2. Warranty does not cover damage caused by conditions outside the control of the manufacturer.

3. Modifications and/or variations to the system or its components will void and nullify warranties.

Part 2 – Products

01. Approved Manufacturer

1. System Manufacturer to be:

PK Structures

4133 Shoreline Drive

Earth City, MO 63045

Phone: 800-456-5464

Fax: 314-291-2857

E-mail: info@

Web:

2. Manufacturers other than PK Structures shall submit sufficient information to demonstrate compliance with design and performance requirements specified herein and with a minimum of 10 years experience in the design and fabrication of custom steel structural systems.

02. General

1. The mezzanine shall be a custom engineered, freestanding structure. Designed to be in compliance with IBC 2003 code requirements. The mezzanine shall have a minimum clearance above and below of 84”. No “X” bracing or attaching to the building is acceptable. In the instance of mezzanines covering more than 1/3 of room size, owner shall contact the local building department for additional requirements. Items not specifically covered by this specification shall be governed by local codes.

03. Materials

1. Beam-to-Column Connections:

a) Beam to column connections shall be capable of transferring bending moments and must be shown to have adequate capacity to insure structural stability without contribution of base plate connection.

b) Typical connection will consist of structural tee sections and gusseted seat angles, factory welded to columns. The connection brackets shall be positioned so that the shear center of the support beams coincides with that of the column. Acceptable connection designs shall be as shown in the AISC manual under “Suggested Details – Structural Tubing and Pipe – Beam to Column Connections. The vertical position of the structural tee section shall be positioned to provide a dependable and known moment capacity intermediate in degree between the rigidity of a Type 1 and the flexibility of a Type 2

connection as defined in the General Provisions of the AISC manual. This Type 3 “Semi-Rigid” connection

will provide the required lateral support for mezzanines in most locations. A Type 1 “ Rigid – Frame” connection will be furnished for mezzanines in locations where the seismic load requires such a fully restrained connection.

2. Beam-to Beam Connections: The beam reaction shall be transferred to

the support by means of bolting the purlin to a structural angle that is factory welded to the main support girder. This single-angle Type 2 “Simple - Framing” connection shall be welded in the factory in the form of an “L” to provide the necessary flexibility as described in the AISC manual.

3. Framing: All framing shall be wide flange beam framing. Structural support beams shall be sized to satisfy the structural specifications. The chemistry will equal or exceed that of ASTM A992 or A572 requirements. The support beams shall be constructed from hot rolled, wide flange shapes with a minimum tensile yield strength of 50,000 psi. Beams framing into columns shall have a minimum flange width of 4”. Cold-formed “C” channels are not acceptable.

4. Base Plate Connections: Base plate shall be fully welded around the entire perimeter of the mezzanine column. Base plates as a standard shall be centered on the column to facilitate a uniform transfer of axial load to the foundation. Centered base plates will also contribute to reducing sway and adding to the lateral stability of the structure.

5. Columns: Structural support columns shall be sized to satisfy the structural specifications. The chemistry will equal or exceed that of ASTM A500-Grade B requirements. The column section will be of square tube profile, since it has equal strength in both of the principle axis and can facilitate a high strength beam-to-column connection. The minimum diameter size of the square tube will be 5"x5”.

6. Stair: Stair assembly will have treads factory welded to stringers. Stair width shall not be less than 36”. Treads will be designed such that the openings between treads is less than 4 inches creating a closed design. Completely closed “Solid Risers“ as defined by the 2003 IBC are only required when safe egress for people with disabilities is a facility or local code requirement . Maximum rise per tread shall not exceed 7”. Minimum run per tread shall not be less than 11”. Stair shall maintain a minimum headroom clearance of 6’-8”. Stringer and tread components shall have a chemistry, which equals or exceeds that of ASTM A36 requirements. The stair stringers will be a minimum of MC10x8.4. The treads will be steel treadplate with a minimum thickness of 12 gauge, formed to facilitate a “closed” riser.

7. Guardrail: Guardrail will be a 42” high, two-rail design and maintain a minimum clearance between rails. All railing shall have a minimum of a 4” high kickplate. Guardrail shall be assembled at the factory to be comprised as a welded, one-piece assembly. The guardrail shall fasten directly to the mezzanine deck to achieve maximum strength and rigidity. The chemistry will equal or exceed that of ASTM A500-Grade B requirements. All rails will be 1 ½” square tubing. Guardrails to be surfaced mounted to the deck surface without the intrusion of columns protruding through the deck surface. All guardrails shall be fastened to the deck surface using 3/8” x 2 ½” lag screws.

8. Stair Handrail: Handrail on stairs will be a welded, one-piece assembly. Stair handrails will have end returns that continue horizontally for 12” past the rear of the top tread. The same is true at the bottom except the distance is measured from the front nosing and increased to 12” plus the depth of one tread. Handrail will be provided at both sides of the stair. Handrail shall fasten to the outside of the stringers to facilitate a plumb rail without the use of any shims. Handrail shall be free of any sharp edges or protrusions. Ends of handrail shall be designed to avoid hooking on clothing and therefore avoid the possibility of that encouraging an accident. The 2003 IBC requires both guardrails and handrails on stairs.

OSHA and the last editions of BOCA and the Standard Building Codes only require a handrail. As a standard, mezzanine stairs are furnished with handrails only. A guardrail bracket accessory can be provided to

comply with the 2003 IBC. The owner or end user must inform the mezzanine manufacturer if local building authorities require guardrail along the stairs too.

9. Landing: Depth of landing will not be less than the width of the stairs.

10. Decking Fascia: The entire perimeter of the mezzanine will be enclosed with fascia to give the structure a finished appearance.

11. Paint: The surface of the steel will be cleaned of rust and dirt that will impede the adhesion of the paint. The mezzanine will receive one coat of Sherwin Williams Polane 700T(, one component, polyurethane acrylic enamel. All components shall be painted gray.

12. Decking: Standard decking shall be roof deck with a plywood deck surface.

a) Roof decking shall be a minimum of 20 gauge, 1 ½” B-deck, painted white on the underside, with a minimum steel yield strength of 33,000 Psi.

b) Plywood shall be a minimum of ¾” Tongue and Groove Plywood with a minimum span rating of 24” OC.

c) Bar Grating will be a minimum of 1” x 1/8” bearing bars, type W/B 3. All bar grate manufacturing capacity ratings must be corrected to satisfy L/360 deflection criteria. Attachment to the structure shall be through a bar grate manufacturers pre welded lug utilizing a tek 5 screw. Saddle clips and “J” bolts are un-acceptable.

d) Floor Plate will be a minimum of 12-gauge floor plate with a medium raised pattern design.

04. Fabrication

1. Fabrication of materials will comply with dimensions, profiles and gauges shown on the approval drawings.

2. Manufacturing to be performed by a U.S. company.

3. System design to be performed by a degreed structural engineer. Design performed by technicians through the use of charts is unacceptable.

4. All design and analysis must be done under the direct supervision of a Professional Engineer. Professional Engineering seals and calculations can be provided for any state, but must be specified during the bid process.

5. Any exceptions taken to this specification must be submitted in writing with the proposal package. In addition to listing the exceptions, it shall be explained how deviating from this specification results in a superior mezzanine design for the end user.

Part 3-Execution

01. Inspection

1. Inspect working areas to insure that concrete slab is cleaned and free of all debris and obstacles so installer shall have adequate access to the work area. Owner shall advise the Installation Company of any known, imbedded floor obstacles, which may interfere with the installation of floor anchors.

02. Preparation

1. The mezzanine contractor’s technician shall make an inspection of the job site prior to preparation of approval drawings.

03. Installation

1. The structural capacity of the foundation is to be determined by others using sound engineering practices. The true and level condition as well as the capacity of the floor surface is the responsibility of others.

2. Installation of the mezzanine and accessories shall be in accordance with the specifications and instructions contained in the installation manual and drawings.

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