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Lecturer(s)
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Course content
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Contents of part 1: 1. Familiarization with the concept of volumetric modelers and their integration in the production process. Basic characteristics of parametric modelers. 2. 2D sketch as a basis for creating solids. Internal relations and dimensions 3. Creating an element by pushing it out of the sketch Part 1 4. Creating an element by extruding from the sketch and removing it using extruding Part 2 5. Creating an element using profile rotation 6. Cavity formation using profile rotation 7. Creating an element by dragging the profile along the curve 8. Creating an element by joining several profiles 9. Control curves when joining profiles 10. Use of splines in 2D sketches to create curved geometry 11. Creation of general elements with collapsed surfaces 12. Export of parts to drawing documentation and creation of production documentation 13. Export to 3D PDF presentation format and export to STL for 3D printing
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Learning activities and teaching methods
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- Participation in classes
- 26 hours per semester
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| prerequisite |
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| Knowledge |
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| none |
| none |
| Skills |
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| work with computer |
| work with computer |
| learning outcomes |
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| Knowledge |
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| the student gets to know the typical working environment of 3D CAD software |
| the student gets to know the typical working environment of 3D CAD software |
| the student gets to know the creation of 2D sketches in a 3D modeler |
| the student gets to know the creation of 2D sketches in a 3D modeler |
| the student becomes familiar with the creation of volume components by extending and rotating the sketch |
| the student becomes familiar with the creation of volume components by extending and rotating the sketch |
| the student becomes familiar with the creation of volume components by dragging a sketch along a curve and connecting profiles |
| the student becomes familiar with the creation of volume components by dragging a sketch along a curve and connecting profiles |
| The student will be able to create individual 3D components in a parametric 3D CAD modeler, including the creation of production drawing documentation and data export for 3D printing. |
| The student will be able to create individual 3D components in a parametric 3D CAD modeler, including the creation of production drawing documentation and data export for 3D printing. |
| Student zvládne tvorbu jednotlivých 3D součástí v parametrickém 3D CAD modeláři včetně tvorby výrobní výkresové dokumentace a exportu dat pro 3D tisk. |
| Student zvládne tvorbu jednotlivých 3D součástí v parametrickém 3D CAD modeláři včetně tvorby výrobní výkresové dokumentace a exportu dat pro 3D tisk. |
| Skills |
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| the student can navigate the 3D CAD environment |
| the student can navigate the 3D CAD environment |
| the student can create a 2D and 3D sketch |
| the student can create a 2D and 3D sketch |
| the student can create a complex model consisting of extended and rotated parts |
| the student can create a complex model consisting of extended and rotated parts |
| the student can create a complex model by dragging a profile along a curve or connecting profiles |
| the student can create a complex model by dragging a profile along a curve or connecting profiles |
| teaching methods |
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| Knowledge |
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| Exercises on PC |
| Exercises on PC |
| Skills |
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| Exercises on PC |
| Exercises on PC |
| assessment methods |
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| Knowledge |
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| Systematic observation of the student |
| Systematic observation of the student |
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Recommended literature
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