MATH CURRICULUM PLANNING



Muncy School District

Muncy Jr. /Sr. High School

Course Syllabus

General Information:

Date: January 2014 Course Title: CAD 3 Solid Modeling

Prepared by: Mark Kreisher Course Number: 769

Grade: 10-12 Credit: .5

Meetings/cycle: 6 Length = Semester

Course Description

CAD 3-Solid Modeling is an advanced course where students will learn advanced elements of technical drawing, rendering and rapid prototyping.  Instruction in the use and function of the computer aided drafting (CAD) programs and accepted drafting techniques and conventions will be demonstrated. Elements of Engineering Design will be addressed from part creation to assembly to engineering drawing creation. Students will study on-screen testing analysis and well as rendering and animation of mechanical drawings using Solidworks. Units in mechanics such as power transmission, pneumatics and hydraulics will be studied. Students will also gain insight to the world of automation through the study of LASER, CNC and rapid prototyping activities. This course is designed to be for students who are interested in the field of Mechanical Engineering and who have a desire to learn on an independent timeframe and experiment with 3D drawing software.

Prerequisite(s): CAD 1 and Permission

Course Outcomes

• Develop skills in the use of technological tools and systems

• Apply problem-solving techniques in search for solutions to technological problems

• Acquire broad-based transferable skills and knowledge which will be useful in future employment, further education and life’s experiences

• Synthesize learning of mathematics, science, and social studies concepts through technological activities

• Locate, understand, and interpret written information, communicate thoughts, ideas, information, and messages, and create documents, reports, graphs, and flow charts

Course Outline

1. Introduction to Solids Modeling

a. Geometry review

b. Basics of technical sketching

c. Elements of a plan

d. Part tree

e. Navigator

2. Making Parts

a. Sketching parts

i. Drawing

1. Lines

2. Points

3. Planes

4. Circles

5. Arcs

6. Orthographic snaps

7. Splines

8. Multi-shape

9. Polygon

10. Rectangle

11. Trim Entities

12. Convert edges

13. Offset Edges

14. Mirror

15. Pattern

16. Move

ii. Dimensioning

1. Smart Dimensioning

2. Rapid Sketching

3. Construction lines

iii. Modifications

1. Arrays

2. Hole Wizard

3. Cosmetic Threads

b. 3D Modeling

i. Extrusions

ii. Extruded cuts

iii. Drill holes

iv. Revolutions

v. Domes

vi. Wraps

vii. Sweeps

1. Extrusions

2. Cuts

viii. Lofts

1. Extrusions

2. Cuts

ix. Boundaries

1. Extrusions

2. Cuts

x. Modifications

1. Shells

2. Drafts

3. Fillets

4. Chamfers

c. Properties and Appearance’s

i. Materials library

ii. Colors Properties

3. Making Assemblies

a. Importing parts

i. Single Parts

ii. Multiple Parts

iii. Fasteners

b. Constraints

i. Movements

ii. Axis

iii. Planes

c. Mates

i. Concentric

ii. Coincident

iii. Parallel

iv. Perpendicular

v. Intersection

vi. Plane

vii. Tangent

d. Advanced

i. Bill of Materials

ii. Motion Study

iii. Assembly Features

iv. Smart Fasteners

v. Animations

1. Simple Animations

2. Complex Animations

4. Dimension Expert

a. Auto Dimension schemes

b. Location Dimensions

c. Size Dimensions

d. Datum

e. Pattern Features

f. Tolerances

5. Engineering Drawings

a. Document Setup for Output

i. Paper sizes

ii. Title Blocks

b. Inserting pages

i. Adding Pages

ii. Naming Pages

c. Inserting drawings

i. Adding drawings to pages

ii. Views

iii. Projected views

iv. Section Details

v. Adding Callouts

vi. Labeling

vii. Dimensioning

viii. Specialty

1. Break outs

2. Breaks

3. Crops

4. Alternate Positions

d. Specialties

i. Datum

ii. Weldments

iii. Hole Callouts

iv. Hatching

v. Surface Finishes

e. Tables

i. Bill of Materials

ii. Revisions

iii. Hole Table

iv. General Table

f. Projects

i. Kant Twist Clam

ii. Bar Clamp

iii. Water Pump

iv. Fly Tying Vice

v. Tool Vise

6. Testing

a. Using Evaluate

i. Measure

ii. Mass Properties

iii. Section Properties

iv. Sensors

v. Statistics

vi. Diagnostics

vii. Deviation Analysis

viii. Draft Analysis

ix. Undercut Analysis

x. Parting line Analysis

b. Structure Stress Testing-Tower

c. Aerodynamic Lift and Drag test-CO2 Car

d. Fluid Testing- Pipe Dynamics

7. Specialty Drawings

a. Sectional

b. Auxiliary

c. Sheet Metal

d. Fasteners

8. Advanced Working Drawings

a. Mechanisms

i. Gears

ii. Linear Actuators

iii. Pneumatics

iv. Hydraulics

b. Linkages

i. Clutches

ii. CAMs

iii. Splines

iv. Bearings

c. Drivetrains

i. Belts

ii. Chains

iii. Pulleys

iv. Sprockets

d. Welding

i. Types of Welding

ii. Types of Welds

iii. Welding Tests

9. Rendering

a. Photoview 360

i. Photo Rendering of an Object

ii. Rendering into an Environment

b. Animations

10. Advanced Outputs

a. 3D Printing

b. 3D Scanning

c. LASER

d. CNC

e. Plotting

11. Research Project

a. Making a Proposal

b. Sketches

c. Working Model

d. Animation

e. Set of Plans

f. Evaluation

g. Research Presentation

Course Requirements

• Each students works at his or her own pace

Course Expectations

• Arrive to class on time.

• Participate in all activities.

• Be respectful to all.

• Abide by all school rules.

Consequences

• Warning

• Student - teacher conference

• Parent - teacher conference

• Office referral & parent conference

Course Assessment Procedures

The marking period grade will be based on the following rubric:

Each drawing is worth 100 points

Each exercise is worth 50 points

Each quiz is worth 20 points

Each test is worth 100 points

Final Grade= Total Number of Points Earned

Total Number of Points Possible

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