PRDE 1450 - AutoCAD: Detailing & Assemblies Credit Hours: 3.00 Prerequisites: DRCG 1140
(formerly DRCG 1110)
Industrial drawing practices with emphasis on development of 3D parametric modeling and orthographic projection and basic subsystem (subassembly) and single component (detail) drawing including dimensioning, auxiliary, and section views.
Location: South Campus
Contact Hours: 4 Billable Contact Hours: 4 OUTCOMES AND OBJECTIVES Outcome 1: Upon completion of this course, students will create three dimensional single component parametric models (details) in the construction of engineering drawings.
Objectives: Using AutoCAD CAD software and a given paper sketch of a machined from solid single component in orthographic 3rd angle projection, the learner will:
- Demonstrate appropriate design intent required to model the part within a specified timeline.
- Apply best profile/efficient modeling practices within a specified timeline.
- Demonstrate appropriate placement of model in space with 100% accuracy after checker changes within one try.
- Construct defined and under-defined sketches within a specified timeline.
Outcome 2: Upon completion of this course, students will create single component (details) orthographic engineering drawings in 3rd angle projection.
Objectives: Using AutoCAD CAD software and a given paper sketch of a machined from solid single component pictorial, the learner will:
- Develop an electronic solid model drawing of the pictorial sketch with 100% accuracy after completing checker changes within one try.
- Convert the electronic drawing from Objective 1.1 to an orthographic drawing in 3rd angle projection. Performance is satisfactory when all primary views of the component are complete, to scale, and appropriately dimensioned and the subtitle block and the title block are complete with an accuracy of 100% after completing checker changes within one try.
Outcome 3: Upon completion of this course, students will apply thread and fastening techniques.
Objectives: Using AutoCAD CAD software and a given paper sketch of a machined from solid single component pictorial, the learner will:
- Develop an electronic solid model drawing of the pictorial sketch with 100% accuracy after completing checker changes within one try.
- Construct a clearance, counter bored, counter sink hole thru with the appropriate callout, using the 3D model from Objective 3.1, with 100% accuracy after completing checker changes within one try.
- Construct a clearance, counter bored, counter sink hole to a specified depth with the appropriate callout, using the 3D model from Objective 3.1, with 100% accuracy after completing checker changes within one try.
- Construct a press fit and slip fit hole thru with the appropriate callout, using the 3D model from Objective 3.1, with 100% accuracy after completing checker changes within one try.
- Construct a press fit and slip fit hole to a specified depth with the appropriate callout, using the 3D model from Objective 3.1, with 100% accuracy after completing checker changes within one try.
- Construct a threaded hole thru with the appropriate callout, using the 3D model from Objective 3.1, with 100% accuracy after completing checker changes within one try.
- Construct a threaded hole to a specified depth with the appropriate callout, using the 3D model from Objective 3.1, with 100% accuracy after completing checker changes within one try.
- Construct a press fit and slip fit dowel pin, and socket head screw, with the appropriate callout, with 100% accuracy after completing checker changes within one try.
Outcome 4: Upon completion of this course, students will develop charts and tables.
Objectives: Using AutoCAD CAD software, the learner will:
- Construct a revision chart, with 100% accuracy after completing checker changes within one try.
- Construct a bill of materials, with 100% accuracy after completing checker changes within one try.
- Construct a boring chart, with 100% accuracy after completing checker changes within one try.
- Import a boring chart, revision chart, and bill of materials into a given electronic drawing, with 100% accuracy after completing checker changes within one try.
Outcome 5: Upon completion of this course, students will apply dimensioning systems to machine parts, casting and weldments.
Objectives: Using AutoCAD CAD software and a given paper sketch of a machined from solid, casting, and welded constructed single component pictorial, the learner will:
- Develop an electronic solid model drawing of the machined from solid, casting, and welded constructed single component with 100% accuracy after completing checker changes within one try.
- Apply appropriate base line dimensioning to a machine from solid part, casting, and weldment with 100% accuracy after completing checker changes within one try.
- Apply appropriate datum line dimensioning to a machine from solid part, casting, and weldment with 100% accuracy after completing checker changes within one try.
Outcome 6: Upon completion of this course, students will develop auxiliary views.
Objectives: Using AutoCAD CAD software and a given paper sketch of a machined from solid, single component pictorial, the learner will:
- Develop an electronic solid model drawing of the machined from solid single component with 100% accuracy after completing checker changes within one try.
- Using the electronic solid model drawing of the machined from solid single component from Objective 6.1, the learner will develop a single auxiliary view with 100% accuracy after completing checker changes within one try.
- Using the electronic solid model drawing of the machined from solid single component from Objective 6.1, the learner will develop a double auxiliary view with 100% accuracy after completing checker changes within one try.
Outcome 7: Upon completion of this course, students will develop sectional views.
Objectives: Using AutoCAD CAD software and a given paper sketch of a machined from solid single component pictorial, the learner will:
- Develop an electronic solid model drawing of the machined from solid single component with 100% accuracy after completing checker changes within one try.
- Using the electronic solid model drawing of the machined from solid single component from Objective 7.1, the learner will develop a broken section, half section, offset section, and aligned section view with 100% accuracy after completing checker changes within one try.
Outcome 8: Upon completion of this course, students will construct a three-dimensional parametric subsystem (subassembly) drawing.
Objectives: Using AutoCAD CAD software and a given paper sketch of a subsystem drawing, the learner will:
- Construct an electronic parametric solid model of the sub system with ballooning, completed bill of materials and title block with 100% accuracy after checker changes within one try.
- Complete a component (detail) sheet(s) in orthographic 3rd angle projection and included 3D thumbnail sketch with 100% accuracy after checker changes within one try.
- Animate and exploded view of the subsystem with 100% accuracy within a specified timeline.
COMMON DEGREE OUTCOMES (Bulleted outcomes apply to the course)
- 1. The graduate can integrate the knowledge and technological skills necessary to be a successful learner.
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- 2. The graduate can demonstrate how to think competently.
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- The graduate can demonstrate how to employ mathematical knowledge.
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- 4. The graduate can demonstrate how to communicate competently.
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- The graduate is sensitive to issues relating to a diverse, global society.
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COURSE CONTENT OUTLINE Session Topic
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- Orientation
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- Orthographic Projection
- Lab
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- Lab
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- Dimensioning
- Lab
- Problems Due
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- Lab
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- Assembly and Detail Relationship
- Lab
- Problems Due
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- Lab
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- Commercial Details
- Lab
- Problems Due
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- Lab
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- Detailing
- Parts machined from a solid
- Lab
- Problems Due
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- Lab
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- Detailing
- Parts machined from a solid
- Lab
- Problems Due
-
- Lab
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- Detailing
- Casting details
- Lab
- Problems Due
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- Lab
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- Detailing
- Casting details
- Lab
- Problems Due
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- Lab
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- Welded Construction
- Weldment details
- Lab
- Problems Due
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- Lab
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- Welded Construction
- Weldment details
- Lab
- Problems Due
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- Lab
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- Sectional Views
- Lab
- Problems Due
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- Lab
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- Sectional Views
- Lab
- Problems Due
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- Lab
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- Auxiliary Views
- Single auxiliary views
- Lab
- Problems Due
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- Lab
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- Auxiliary Views
- Multiple auxiliary views
- Lab
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- Lab
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- Lab
- Problems Due
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- Lab
- Problems Due
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- Course Evaluation
Primary Faculty Buhalis, Harry Secondary Faculty Carlson, James Associate Dean Hinrichsen, Timothy Dean Hutchison, Donald
Official Course Syllabus - Macomb Community College, 14500 E 12 Mile Road, Warren, MI 48088
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