Course participants will be trained to apply tolerance stack-up analysis techniques to a wide variety of assemblies per GD&T requirements of ASME Y14.5-2018, from the very simple to the more complex situations commonly faced in industry today. Both plus and minus and geometrically toleranced assemblies will be examined and stack-up analysis taught and practiced on each. Many different datum structures will be discussed and analyzed. The concepts taught in this course are: loop analysis (also known as circuit diagrams), inner and outer boundaries, minimum gap, maximum wall thickness, maximum interference, minimum and maximum overall dimensions, fixed and floating fastener assembly conditions, projected tolerance zones, the logic of stack-up analysis, statistical tolerancing , and much more.
Introduction
1 Introduction
Chapter 1 Linear Tolerance Stackup
2 Tolerance Stackup Briefing
3 Linear Tolerance Stackup
4 Case Study#1
5 Assembly Shift Tolerance Stackup
6 Case Study#2
Chapter 2 Geometric Tolerance Stackup
7 Geometric Tolerance Review
8 Profile Tolerance Stackup
9 Case Study#3
10 Position Tolerance Stackup
11 Case Study#4
12 Hole-Shaft Assembly Position Tolerance Stack-up
13 Case Study#5
14 Factors affecting Assembly Shift
Chapter 3 MMC/LMC Modifier Tolerance Stackup
15 MMC Modifier Tolerance Stackup
16 Case Study#6
17 LMC Modifier Tolerance Stackup
18 Case Study#7
Chapter 4 Datum and Tolerance Stackup
19 Form Tolerance of Datum Feature to Tolerance Stackup
20 Orientation Tolerance of Datum Feature to Tolerance Stackup
21 Case Study#8
22 Datum Shift Tolerance Stackup
23 SIM/SEP REQT Tolerance Stackup
24 Case Study#9
Chapter 5 Pattern TOP stackup
25 Projected Tolerance Zone to Tolerance Stackup
26 Pattern and Pattern as Datum
27 Case Study#10
28 Composite Tolerance Stackup
Chapter 6 Runout Tolerance Stackup
29 Runout Tolerance Stackup
30 Case Study#11
Chapter 7 Statistic Tolerance Stackup
31 Statistic Tolerance Stackup
32 Case Study#12
Comprehensive Case Study
33 Case Study#13
Final Exam
34 Final Exam
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