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> Tolerance Analysis of 1D, 2D, 3D dimensional chains
Two programs are available for the analysis of linear, 2D and 3D dimensional
chains, which in addition to the basic analysis (Worst case, Root Sum
Squares, Monte Carlo...) also include a solution to some special matters,
like analysis of a dimensional chain deformed as a result of temperature
change and design of tolerances for a selective assembly.
Tolerance analysis of linear dimensional chains.
The program is designed for tolerance analysis
of linear (1D) dimensional chains. The program solves the following
- Tolerance analysis, synthesis and optimization of a dimensional chain
using the arithmetic "WC" (Worst case) method, possibly the statistical "RSS"
(Root Sum Squares) method.
- Analysis of a dimensional chain deformed as a result of temperature
- Extended statistic analysis of dimensional chain using the "6 Sigma"
- Tolerance analysis of a dimensional chain during selective assembly
including optimization of the number of assembled products.
All solved tasks enable work
with standardized tolerance values, both in designing and in optimization of
the dimensional chain.
Tolerance analysis of 2-D and 3-D dimensional chains
The program is designed for the tolerance analysis of two-dimensional
(2-D) and three-dimensional (3-D) dimensional chains. The program solves the
- Tolerance analysis of a dimensional chain using the "Worst case"
- Tolerance analysis of a dimensional chain using the "Monte Carlo"
In designing a dimensional chain, the program enables work with
standardized tolerance values.
Data, methods, algorithms and information from professional literature
and ANSI, ISO, DIN and other standards are used in calculation. List of
standards: ANSI B4.1, ISO 286, ISO 2768, DIN 7186