| Credit- Degree applicable | | Effective Quarter: Fall 2020 | I. Catalog Information
| DMT 66A | Creo Parametric (Intermediate) | 4 Unit(s) | | DMT 66B | | 4 Unit(s) | | DMT 66C | | 4 Unit(s) | | DMT 66D | | 4 Unit(s) | | DMT 66E | | 4 Unit(s) |
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| | Prerequisite: Any DMT 65A-E course. Lec Hrs: 24.00
Lab Hrs: 72.00
Out of Class Hrs: 48.00
Total Student Learning Hrs: 144.00 This course covers the intermediate-level application of Creo Parametric that expands the basic knowledge and understanding of solid models and drawings. Special emphasis is given to the creation of parts, assemblies, and drawings which are more complex and technically more difficult than those projects found in the course prerequisite. |
| Student Learning Outcome Statements (SLO)
| | | Create an intermediate-level Document Package which includes Solid Parts, Assemblies, and Basic Drawings for Parts and Assemblies, using Creo Parametric. |
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II. Course Objectives | A. | Create assemblies of 3D components using constraints. |
| B. | Construct exploded assemblies from assembled components. |
| C. | Construct and alter drawing formats, title blocks, and views. |
| D. | Derive 2D details from 3D solid models. |
| E. | Establish a variety of views types including section and auxiliary views on a drawing. |
| F. | Generate assembly drawings and produce bill of materials and title block tables. |
| G. | Produce drawings with exploded views. |
| H. | Create augmented reality experience of parts and assemblies |
| I. | Demonstrate model based definition process to create 3-D drawings. |
III. Essential Student Materials IV. Essential College Facilities V. Expanded Description: Content and Form | A. | Create assemblies of 3D components using constraints. |
| 1. | Geometrically relate components to form an assembly. |
| 3. | Use a variety of assembly constraints. |
| B. | Construct exploded assemblies from assembled components. |
| 3. | Create unique component visibility settings. |
| 4. | Move and rotate components in an assembly. |
| C. | Construct and alter drawing formats, title blocks, and views. |
| 1. | Create drawings with multiple views |
| 2. | Create and save title blocks and sheet formats. |
| 3. | Change the scale of a view. |
| 4. | Display appropriate views for detailing a project. |
| D. | Derive 2D details from 3D solid models. |
| 1. | Use ASME standards to detail drawings. |
| 3. | Create and save configuration files. |
| 4. | Add geometric tolerancing information to a drawing. |
| E. | Establish a variety of views types including section and auxiliary views on a drawing. |
| 1. | Identify the need for sectional views to clarify interior features of a part. |
| 2. | Establish configuration files to use when detailing and creating section drawings. |
| 3. | Identify cutting planes and the resulting views. |
| 4. | Create sections along datum planes. |
| F. | Generate assembly drawings and produce bill of materials and title block tables. |
| 1. | Create an assembly drawing. |
| 2. | Generate a parts list from a bill of materials (BOM). |
| 3. | Balloon an assembly drawing. |
| 4. | Create a section assembly view and change component visibility. |
| 5. | Create a macro-driven table to automatically generate a parts list. |
| G. | Produce drawings with exploded views. |
| 1. | Create drawings with exploded views. |
| 3. | Make assembly drawing sheets with multiple models. |
| 4. | Create balloons on exploded assemblies. |
| H. | Create augmented reality experience of parts and assemblies |
| 2. | Sharing through phone app. |
| I. | Demonstrate model based definition process to create 3-D drawings. |
| 1. | Using existing dimensions |
| 3. | Creating datum references
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| 4. | Creating GD&T call-outs
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| 5. | Publishing to Creo view |
VI. Assignments | A. | On-line video lectures, viewed as assigned during the course. |
| B. | CAD projects demonstrating progressive mastery of Creo |
| C. | Assigned reading from text. |
VII. Methods of Instruction | | Lecture and visual aids
Discussion of assigned reading
Discussion and problem solving performed in class
Homework and extended projects
Laboratory discussion sessions that evaluate the proceedings weekly laboratory exercises
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VIII. Methods of Evaluating Objectives | A. | Accuracy and Completeness of assigned CAD projects. |
| B. | Mid-term Examination covering assigned video lectures, textbook reading, & basic CAD projects. Exam will be evaluated on accuracy and completeness of solid modeling requirements as defined in the grading rubric. |
| C. | Final examination evaluating student’s comprehensive understanding of intermedite Creo Parametric CAD tools as defined in the grading rubric. |
IX. Texts and Supporting References | A. | Examples of Primary Texts and References |
| 1. | Lamit, Louis Gary, “Creo Parametric 5.0”, CreateSpace Independent Publishing Platform, 2018. |
| B. | Examples of Supporting Texts and References |
X. Lab Topics | A. | Assemblies of 3D components |
| B. | Drawing formats, title blocks, and views |
| C. | 2D details from 3D solid models. |
| D. | Section and auxiliary views |
| F. | Drawings with exploded views |
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