PARAMETRIC MODELING

1. PARAMETRIC MODELING INTRODUCTION TO PARAMETRIC MODELING 2. BASIC FUNCTIONS 3. ADVANCED FUNCTIONS 4. PARAMETRIC AND SMARTEAM

2. PARAMETRIC MODELING INTRODUCTION TO PARAMETRIC MODELING

3. PARAMETRIC MODELING INTRODUCTION TO PARAMETRIC MODELING : Origin Specs : T°, P, C Calculation: D mini, Valve XXX Manual Input to renew at each spec modification New Specs Geometry Presentation • Time consuming • Lack of flexibility • Unpleasant routine job for designers How to accelerate the process?

4. PARAMETRIC MODELING INTRODUCTION TO PARAMETRIC MODELING : Principles • - Transform the specs, calculation, expert rules into parameters and relation included in 3D modeler • Construction of a parameter driven geometry • The Geometry is directly linked to functionnal parameters, and automatically updated Specs : T°, P, C Calculation: D mini, Valve XXX Geometry • Time saving • Less repetitive work

5. PARAMETRIC MODELING INTRODUCTION TO PARAMETRIC MODELING : Example External diameter of shaft D Bearing Length: L L=1.5D • Non parametric: 44 sec • 4 dimensions to modify • Repetitive operations Parametric: 13 sec - 1 parameter to modify

6. PARAMETRIC MODELING 2. BASIC FUNCTIONS

7. PARAMETRIC MODELING 2. BASIC FUNCTIONS : Parameters and formula Available in any workshop • Parameters: • Has a name, dimension, and value • Can be anything: mm, T°, MPa, s, • Can drive or be driven • Can be inputted or picked up from a list • Can be limited to a range

8. PARAMETRIC MODELING 2. BASIC FUNCTIONS : Parameters and formula • Formulas • Will allow to create a mathematical link between one or several input parameters, and a output one • Only allow to create continuous links • Insert Knowledge, expert rules in an assembly

9. PARAMETRIC MODELING 2. BASIC FUNCTIONS : Parameters and formula Example of the shaft and bearing: We want to drive it from “functional parameters” such as torque, safety coefficient

10. PARAMETRIC MODELING 2. BASIC FUNCTIONS : Parameters and formula

11. PARAMETRIC MODELING 3. ADVANCED FUNCTIONS

12. PARAMETRIC MODELING 3. ADVANCED FUNCTIONS: knowledgware Knowledge Advisor: Most of knowledge tools, Product Engineering Optimizer: Optimisation

13. PARAMETRIC MODELING 3. ADVANCED FUNCTIONS: Knowledge Advisor • Rules: • Allow to create non continuous actions • Synchronus (relaunched each time an entry parameter is modified) • Several outputs

14. PARAMETRIC MODELING 3. ADVANCED FUNCTIONS: Knowledge Advisor • Reaction and actions: • Like a rule but Asynchronuous(Launch action when a specified parameter is modified) • Possibility to couple short script etc

15. PARAMETRIC MODELING 3. ADVANCED FUNCTIONS : Knowledge Advisor • Check: • similar to the rule, but just giving an information • if D>30mm

16. PARAMETRIC MODELING 3. ADVANCED FUNCTIONS: Product Engineering Optimizer Optimizations: - Possibility to include an optimization inside the model - You can then couple it to a reaction so that it is launched any time a specific value is changed

17. PARAMETRIC MODELING 4. PARAMETRIC AND SMARTEAM

18. PARAMETRIC MODELING 4. PARAMETRIC AND SMARTEAM: Contextual links • No problem when creating parameters, formulas, copying sketches, inside a Part. • When creating formulas, copying parameters, sketches between parts, has to be outside the context of an assembly. • Each part has to be open in a different window, and not being open in an assembly in another window Preliminary A.00 A.01 Parameter copied with link • No Replace to latest B.00 B.00

19. PARAMETRIC MODELING 4. PARAMETRIC AND SMARTEAM: Contextual links • To buil a parametric assembly, always use a skeleton • Put the pilot parameters inside the skeleton • Use it as knowledge container to distribute the parameters to different parts

20. PARAMETRIC MODELING 4. HOW TO DO? • Don’t hesitate to contact the support during tours, request • Consult new FAQs about parametric modeling

21. PARAMETRIC MODELING THANK YOU FOR YOUR ATTENTION