![]() ![]() Create setups and apply 2D operations for face, 2D adaptive clearing, 2D contour, chamfer milling, and boring operations within the time allowed.Ģ. T he Learner will access and launch Fusion 360 from the internet, and given pre-defined part parameters, will:ġ. Outcome 8: Upon completion of this course, students will be able to create a Numerical Control (N/C) Tool Path for Computer Aided Manufacturing (CAM) Select the print utility output within the time allowed. Select the mesh parameters within the time allowed.ģ. Select the body to output within the time allowed.Ģ. Outcome 7: Upon completion of this course, students will be able to create a 3D Printed Part.ġ. ![]() Select and adjust Drawing Settings and Preferences with 100% accuracy.ĥ. Create & Edit Annotations with 100% accuracy.Ĥ. Create a Drawing of a model with 100% accuracy.ģ. Outcome 6: Upon completion of this course, students will be able to create an Orthographic Engineering Drawing.ġ. Define functional, manufacturing, and mechanical requirements within the time allowed.ģ. Define the design problem within the time allowed.Ģ. Outcome 5: Upon completion of this course, students will be able to perform a Generative Design.ġ. Perform a motion study with 100% accuracy. Apply top-down design principles with 100% accuracy.Ĥ. ![]() Define assembly joint parameters with 100% accuracy.ģ. Construct an assembly with 100% accuracy.Ģ. The Learner will access and launch Fusion 360 from the internet, and given pre-defined assembly parameters, will:ġ. Outcome 4: Upon completion of this course, students will be able to create a 3D Assembly. Performance is satisfactory when the 3D model has been constructed with 100% accuracy. Import a learner self constructed sketch and create a 3D solid model. Performance is satisfactory when the free form has been modified with 100% accuracy.Ģ. Use sculpting applications to create a 3D free form model. Outcome 3: Upon completion of this course, students will be able to create a 3D Part Model.ġ. Apply sketch constraints with 100% accuracy. The Learner will access and launch Fusion 360 from the internet, and given pre-defined sketch parameters, will:ġ. Outcome 2: Upon completion of this course, students will be able to construct a 2D Part Sketch. Use select Fusion 360 and 3D printer menu options to create a 3D print within the time allowed. Use select Fusion 360 menu options to create an orthographic engineering drawing within the time allowed.Ħ. Use select Fusion 360 menu options to perform a generative design within the time allowed.ĥ. Use select Fusion 360 menu options to model an assembly within the time allowed.Ĥ. Use select Fusion 360 menu options to sketch and model a part within the time allowed.ģ. Use an appropriate internet browser and select menu options and access to launch Fusion 360 CAD software from the internet within the time allowed.Ģ. Outcome 1: Upon completion of this course, students will be able to use The Fusion 360 User Interface.ġ. It includes 3D printing/Additive Manufacturing, Motion Study Simulation, and N/C tool path creation. This course will introduce the student to the entry level CAD applications of Autodesk’s Fusion 360 software, provide “hands-on” experience to create 3D Models of Basic Parts and Assemblies, Orthographic Drawings, and perform a Generative Design on Parts & Assemblies. Prerequisites: PRDE 1250, or PRDE 1010, or consent of advisor. PRDE 1260 - Introduction to AutoDesk Fusion 360 & Generative Design ![]()
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