Group items tagged

MITCalc - Tolerance analysis - Two programs for the tolerance analysis of linear, 2D, and 3D dimensional chains (Worst case, Root Sum Squares, Monte Carlo...). Two programs for the tolerance analysis of linear, 2D, and 3D dimensional chains 1) Tolerance analysis of linear dimensional chains. The program is designed for tolerance analysis of linear (1D) dimensional chains. The program solves the following problems: - 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 change. - Extended statistic analysis of dimensional chain using the "6 Sigma" method. - 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. 2) 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 following problems: - Tolerance analysis of a dimensional chain using the "Worst case" method. - Tolerance analysis of a dimensional chain using the "Monte Carlo" method. 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 the calculation. List of standards: ANSI B4.1, ISO 286, ISO 2768, DIN 7186. Application is developed in MS Excel, is multi-language, and supports Imperial and Metric units.

MITCalc - Tolerance analysis - Two programs for the tolerance analysis of linear, 2D, and 3D dimensional chains (Worst case, Root Sum Squares, Monte Carlo...). Two programs for the tolerance analysis of linear, 2D, and 3D dimensional chains 1) Tolerance analysis of linear dimensional chains. The program is designed for tolerance analysis of linear (1D) dimensional chains. The program solves the following problems: - 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 change. - Extended statistic analysis of dimensional chain using the "6 Sigma" method. - 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. 2) 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 following problems: - Tolerance analysis of a dimensional chain using the "Worst case" method. - Tolerance analysis of a dimensional chain using the "Monte Carlo" method. 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 the calculation. List of standards: ANSI B4.1, ISO 286, ISO 2768, DIN 7186. Application is developed in MS Excel, is multi-language, and supports Imperial and Metric units.

The calculation is designed for a geometrical design and strength check of common chain transmissions using roller chains. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units, and solves the following tasks: - Selection of a power suitable type of chain. - Selection of an optimum transmission alternative regarding power, geometry, and weight. - Calculation of geometric, strength, safety, and operational parameters. - Calculation of power parameters and axis loads. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks). The application includes corresponding databases of roller chains. The calculations use data, procedures, algorithms, and data from ANSI/ASME, ACA (American Chain Association) ISO, DIN, BS, and JIS. Used standards: ANSI/ASME B29.1M (Dec2001), ANSI/ASME B29.3, DIN 8187, DIN 8181, DIN 8181, DIN 8164, DIN 8150, ISO R606, ISO 1275, BS 228, JIS B1801, JIS B1803.

The calculation is designed for a geometrical design and strength check of common chain transmissions using roller chains. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units, and solves the following tasks: - Selection of a power suitable type of chain. - Selection of an optimum transmission alternative regarding power, geometry, and weight. - Calculation of geometric, strength, safety, and operational parameters. - Calculation of power parameters and axis loads. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks). The application includes corresponding databases of roller chains. The calculations use data, procedures, algorithms, and data from ANSI/ASME, ACA (American Chain Association) ISO, DIN, BS, and JIS. Used standards: ANSI/ASME B29.1M (Dec2001), ANSI/ASME B29.3, DIN 8187, DIN 8181, DIN 8181, DIN 8164, DIN 8150, ISO R606, ISO 1275, BS 228, JIS B1801, JIS B1803.

The calculation is developed for geometrical designs of belt and chain transmissions with more sprocket wheels (max. 15). Application is developed in MS Excel, is multi-language, supports Imperial and Metric units, and solves the following main tasks: - Calculation of the necessary length of the belt (chain) using known positions and diameters of sprocket wheels - Achieving the desired (table) length of the belt/chain using a change in the position of the selected sprocket wheel. - Calculation of geometry (angles of wrapping, numbers of teeth in engagement, axis distances, etc.) - Calculation of the radial force acting on the sprocket wheel axis. - Support of 2D CAD systems (AutoCAD, AutoCAD LT, IntelliCAD, TurboCAD)

The calculation is developed for geometrical designs of belt and chain transmissions with more sprocket wheels (max. 15). Application is developed in MS Excel, is multi-language, supports Imperial and Metric units, and solves the following main tasks: - Calculation of the necessary length of the belt (chain) using known positions and diameters of sprocket wheels - Achieving the desired (table) length of the belt/chain using a change in the position of the selected sprocket wheel. - Calculation of geometry (angles of wrapping, numbers of teeth in engagement, axis distances, etc.) - Calculation of the radial force acting on the sprocket wheel axis. - Support of 2D CAD systems (AutoCAD, AutoCAD LT, IntelliCAD, TurboCAD)