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    This textbook, Inventor Parametric Design: Level 1, provides a project-structured methodology for learning Autodesk Inventor. The three projects included will equip learners to build parameter-driven designs, giving them fundamental skills that are scalable for modern manufacturing environments. The author, Alex Bahl, is an experienced mechanical designer with a strong foundation in design and manufacturing. He is currently an instructor of Mechanical Design at Western Technical College in La Crosse, WI. Alex’s approach to parametric design leverages industry-leading techniques to create adaptable and intelligent models.

    Note: This resource is also available as a formatted PDF and editable document on WISELearn.

    The three chapters cover:

    • Technical Drawings with emphasis on continuous improvement through peer reviews.
    • Bottom-Up Design with emphasis on data management of vendor supplied parts.
    • Top-Down Design with emphasis on applying functional tolerances to parametric designs.

    Competencies addressed in the text include:

    1. Apply techniques for mathematical and scientific problem-solving to support design and modeling processes.
    2. Explore user interface, command entry, sequence, file preferences, and options in various software to develop proficiency in digital tools.
    3. Revise and update working drawings to refine accuracy and incorporate design improvements.
    4. Complete working drawings and views of parametric models using acceptable industry standards to establish effective technical documentation.
    5. Sketch 2D geometry using 3D parametric software to build foundational design skills.
    6. Constrain 2D geometry using dimensions and geometric constraints to ensure precision in sketches.
    7. Create a basic parametric model to transition from 2D sketches to functional 3D representations.
    8. Create features on a model to enhance complexity and functionality in parametric design.
    9. Assemble parts using parametric assembly concepts to construct multi-component systems.
    10. Conceptualize and model components of a given assembly to refine and adapt designs for specific applications.
    11. Differentiate between dimensioning and tolerancing methods and understand their effects to ensure precision and manufacturability.
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    1. Article type
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    2. Tags
      1. bottom-up design
      2. competencies
      3. technical drawings
      4. top-down design