CCOG for CADD 246 archive revision 201801

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Effective Term:
Winter 2018

Course Number:
CADD 246
Course Title:
AutoCAD 3-D and Solid Modeling
Credit Hours:
3
Lecture Hours:
20
Lecture/Lab Hours:
20
Lab Hours:
0

Course Description

Introduces 3-Dimensional drafting and design procedures. Examines concepts including 2D and 3D primitives, User Coordinate Systems, 3D v-points, complex extrusions, regions, shading and rendering, 3D solid models, and supportive AutoCAD 3D databases. Audit available.

Intended Outcomes for the course

Upon successful completion students should be able to:
1. Competently apply drawing and modification commands.
2. Create 3-Dimensional solid models using AutoCAD software.
3. Create technical mechanical assembly drawings using multiple solid models.
4. Generate paper space layouts from model space geometry.

Course Activities and Design

This course will be presented by means of short lecture/discussion sessions and laboratory projects. Individualized instruction will be provided while the student is working on assigned projects. Open laboratory time will be made available, and may be necessary to complete the given tasks.

Outcome Assessment Strategies

Individual and full class discussion; lab drawing assignments; exams; and final project deliverables may be used to assess outcomes.
 

Course Content (Themes, Concepts, Issues and Skills)

1.0 2D AND 3D PRIMITIVES

  • Entity properties of 2D primitives, such as lines, arcs, and circles
  • Entity properties of 3D primitives, such as 3Dpolylines and objects with thickness
  • Basics of AutoCAD's Cartesian coordinate system for plotting 2D and 3D points

2.0 USER COORDINATE SYSTEMS

  • The physical layout of the World Coordinate System
  • Various point entry methods of the World Coordinate System
  • Establishing a new User Coordinate System
  • Various options and point entry methods of User Coordinate Systems
  • The User Coordinate System Icon
  • User Coordinate System - AutoCAD system variables

3.0 3D DISPLAY CONTROLS

  • Plan View within AutoCAD
  • Orthographic and Isometric 3D views
  • Zooming and Panning within 3D views
  • 3D Orbit and its related options
  • Creating Viewports of 3D objects

4.0 BASIC 3D SOLID MODELING OBJECTS

  • Box, Wedge, Cylinder, Sphere, Cone, Torus

5.0 COMPLEX 3D SOLID MODELING OBJECTS

  • Extrusion development - closed profiles for linear or path extrusions
  • Revolving closed profiles
  • Slicing 3D solids
  • Sectioning 3D solids
  • Interference between multiple solids

6.0 SOLID MODELING BOOLEANS

  • Union
  • Subtract
  • Intersect

7.0 MODIFYING SOLID MODELS

  • Modifying faces and edges of solid models
  • Separating models into component parts
  • Shelling solids

8.0 3D OPERATIONS

  • 3DArray, Mirror3D, Rotate3D, Align

9.0 SURFACING ENTITIES

  • Revolved surfaces, Ruled surfaces, Tabulated surfaces, Edge surfaces
  • System variables affecting surface meshes
  • 3D Surfaces' Icon library of various surfaced shapes, ie. Box, Wedge

10.0 SHADING AND RENDERING

  • Shading 3D solids with various options and visual controls
  • Rendering with multiple light sources and material textures
  • System variables affecting visual aspect, ie. Isolines, Dispsilh

11.0 3D SOLIDS AND LAYOUT MODE

  • Paper Space manipulation of Model Space solid models
  • Layout setups including title blocks and multiple paper space viewports

THEMES, CONCEPTS, AND ISSUES:
 

  • Industrial, manufacturing, mechanical and other drafting technology students must be able to visualize and graphically reproduce complex layouts to succeed in subsequent drafting and design courses.
  • Drafting Designers and Engineers need to be able to communicate with each other, and with manufacturing and construction personnel, using graphical representations of physical objects.
  • AutoCAD design software is widely used in the drafting technology professions.
  • Many drafting graduates enter the workplace by performing computerized graphics manipulations.

COMPETENCIES AND SKILLS:
The student will be able to:

  • Communicate effectively using computerized graphical techniques.
  • Demonstrate intermediate to advanced competency using AutoCAD graphics software.
  • Create solid models for use in subsequent drafting courses or within industry.
  • Create a portfolio of AutoCAD drawings to demonstrate their abilities.