Applied Application for Tolerance Stackup and Analysis
About This Course
Course Description:
This course focuses on tolerance stackup and tolerance analysis in mechanical designs, emphasizing the impact of dimensional variations on product form, fit, functionality, and manufacturability. Participants will learn tolerance stackup methods, including Geometric Dimensioning and Tolerancing symbols, and explore how these methods affect product specifications and process yield. The course also covers tolerance analysis, helping engineers understand how geometric tolerances and variations influence product quality. By mastering these techniques, participants will be equipped to make informed design and process changes to improve product performance and manufacturability.
Course Benefits:
In this course, a structured approach to tolerance stackup and analysis will be applied to engineering part assemblies subject to various Geometric Dimensioning and Tolerancing specifications.
What You'll Learn
1. To identify, analyze, and evaluate the degree of fit and variation in a specific design assembly
2. To comprehend and apply the principles and methodologies for evaluating design tolerances using a systematic approach
3. To critically assess and compare tolerance stackup methods on Geometric Dimensioning and Tolerancing specified parts, ensuring effective application
Underpinning Knowledge:
1. General Tolerance Concepts.
2. Types of Fit Systems.
3. Tolerance Part/Assembly Stackup: Concepts and Methods
4. Computer-based Stack Tolerancing Methods.
5. Tolerance Stackup and Geometric Dimensioning and Tolerancing
6. Tolerance Stackup: Size Limit Transfer for Part and Assembly Stacks.
7. Tolerance Stackup on Axis Transfer for Part and Assembly Stacks.
8. Tolerance Analysis and Limitations
9. Statistical Sampling and Tolerance Setting in Tolerance Stackup and Analysis
10. Tolerance Control Methods
11. Tolerance Variations and Allocation Methods