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MITCalc - Springs (15 types) - Geometrical and strength design of metal springs of various types and designs, subjected to static or cyclic loads. The calculation is to be used for geometrical and strength design of metal springs of various types and designs, subjected to static or cyclic loads. The program performs the following tasks: Geometrical design and calculation of working cycle parameters for metal springs of the following types and designs: - Helical cylindrical compression springs of round wires and bars. - Helical cylindrical compression springs of rectangular wires and bars. - Helical conical compression springs of round wires and bars. - Helical conical compression springs of rectangular wires and bars. - Belleville springs. - Helical cylindrical tension springs of round wires and bars. - Helical cylindrical tension springs of rectangular wires and bars. - Spiral springs. - Helical cylindrical torsion springs made of round wires and bars. - Helical cylindrical torsion springs made of rectangular wires and bars. - Torsion bar springs with round section. - Torsion bar springs with rectangular sections. - Leaf springs with a constant profile. - Leaf springs with a parabolic profile. - Laminated leaf springs. Automatic proposal (finding) of spring with suitable dimensions. Static and dynamic strength check. The application includes a table of commonly used spring materials according to EN, ASTM/SAE, DIN, BS, JIS, UNI, SIS, CSN, and others. The calculation is based on data, procedures, algorithms, and data from specialized literature and standards EN 13906, DIN 2088, DIN 2089, DIN 2090, DIN 2091, DIN 2092, DIN 2093, DIN 2095, DIN 2096, DIN 2097.

MITCalc - Springs (15 types) - Geometrical and strength design of metal springs of various types and designs, subjected to static or cyclic loads. The calculation is to be used for geometrical and strength design of metal springs of various types and designs, subjected to static or cyclic loads. The program performs the following tasks: Geometrical design and calculation of working cycle parameters for metal springs of the following types and designs: - Helical cylindrical compression springs of round wires and bars. - Helical cylindrical compression springs of rectangular wires and bars. - Helical conical compression springs of round wires and bars. - Helical conical compression springs of rectangular wires and bars. - Belleville springs. - Helical cylindrical tension springs of round wires and bars. - Helical cylindrical tension springs of rectangular wires and bars. - Spiral springs. - Helical cylindrical torsion springs made of round wires and bars. - Helical cylindrical torsion springs made of rectangular wires and bars. - Torsion bar springs with round section. - Torsion bar springs with rectangular sections. - Leaf springs with a constant profile. - Leaf springs with a parabolic profile. - Laminated leaf springs. Automatic proposal (finding) of spring with suitable dimensions. Static and dynamic strength check. The application includes a table of commonly used spring materials according to EN, ASTM/SAE, DIN, BS, JIS, UNI, SIS, CSN, and others. The calculation is based on data, procedures, algorithms, and data from specialized literature and standards EN 13906, DIN 2088, DIN 2089, DIN 2090, DIN 2091, DIN 2092, DIN 2093, DIN 2095, DIN 2096, DIN 2097.

MITCalc - Compression Springs - Geometric and strength designs of helical compression cylindrical springs loaded with static or fatigue loading. The calculation is intended for geometric and strength designs of helical compression cylindrical springs made of wires and rods of circular sections, cold formed, loaded with static or fatigue loading. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units, and solves the following main tasks: - Automatic design of a spring. - Selection of an optimal alternative of spring design given strength, geometry, and weight. - Static and dynamic strength check. - Calculation of working forces of a spring of known production and installation dimensions. - Calculation of installation dimensions for known loading and production parameters of the spring. - The application includes a table of commonly used spring materials according to ISO, ASTM/SAE, DIN, BS, JIS, and others. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks) The calculation is based on data, procedures, algorithms, and data from specialized literature and standards EN 13906-1, DIN 2089-1, DIN 2095.

MITCalc - Torsion Springs - Geometric and strength designs of spiral cylindrical torsion springs loaded with static or cyclic loading. The calculation is intended for geometric and strength designs of spiral cylindrical torsion springs made of wires and rods in circular sections, cold formed, loaded with static or cyclic loading. Application is developed in MS Excel, is multi-language and supports Imperial and Metric units, and solves the following main tasks: - Automatic design of the spring. - Selection of the optimal design of the spring concerning strength, geometry, and weight. - Static and dynamic strength tests. - Calculation of the working forces of a spring with known production and mounting dimensions. - Calculation of mounting dimensions for known spring loading and production parameters. - The application includes a table of commonly used spring materials according to ISO, ASTM/SAE, DIN, BS, JIS, and others. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks) The calculation is based on data, procedures, and algorithms from specialized literature and the standards EN 13906-2, and DIN 2088.

MITCalc - Torsion Springs - Geometric and strength designs of spiral cylindrical torsion springs loaded with static or cyclic loading. The calculation is intended for geometric and strength designs of spiral cylindrical torsion springs made of wires and rods in circular sections, cold formed, loaded with static or cyclic loading. Application is developed in MS Excel, is multi-language and supports Imperial and Metric units, and solves the following main tasks: - Automatic design of the spring. - Selection of the optimal design of the spring concerning strength, geometry, and weight. - Static and dynamic strength tests. - Calculation of the working forces of a spring with known production and mounting dimensions. - Calculation of mounting dimensions for known spring loading and production parameters. - The application includes a table of commonly used spring materials according to ISO, ASTM/SAE, DIN, BS, JIS, and others. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks) The calculation is based on data, procedures, and algorithms from specialized literature and the standards EN 13906-2, and DIN 2088.

MITCalc - Compression Springs - Geometric and strength designs of helical compression cylindrical springs loaded with static or fatigue loading. The calculation is intended for geometric and strength designs of helical compression cylindrical springs made of wires and rods of circular sections, cold formed, loaded with static or fatigue loading. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units, and solves the following main tasks: - Automatic design of a spring. - Selection of an optimal alternative of spring design given strength, geometry, and weight. - Static and dynamic strength check. - Calculation of working forces of a spring of known production and installation dimensions. - Calculation of installation dimensions for known loading and production parameters of the spring. - The application includes a table of commonly used spring materials according to ISO, ASTM/SAE, DIN, BS, JIS, and others. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks) The calculation is based on data, procedures, algorithms, and data from specialized literature and standards EN 13906-1, DIN 2089-1, DIN 2095.

The calculation is intended for geometric and strength designs of helical tension cylindrical springs made of wires and rods of circular sections, cold formed, loaded with static loading. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units, and solves the following main tasks: - Automatic design of the spring. - Selection of an optimal alternative of the spring design given strength, geometry, and weight. - Strength check of the spring. - Calculation of working forces of a spring of known production and mounting dimensions. - Calculation of mounting dimensions for a known loading and production parameters of the spring. - The application includes a table of commonly used spring materials according to ISO, ASTM/SAE, DIN, BS, JIS, and others. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks) The calculation is based on data, procedures, and algorithms from specialized literature and standards EN 13906-2, DIN 2089-2, DIN 2097.

The calculation is intended for geometric and strength designs of helical tension cylindrical springs made of wires and rods of circular sections, cold formed, loaded with static loading. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units, and solves the following main tasks: - Automatic design of the spring. - Selection of an optimal alternative of the spring design given strength, geometry, and weight. - Strength check of the spring. - Calculation of working forces of a spring of known production and mounting dimensions. - Calculation of mounting dimensions for a known loading and production parameters of the spring. - The application includes a table of commonly used spring materials according to ISO, ASTM/SAE, DIN, BS, JIS, and others. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks) The calculation is based on data, procedures, and algorithms from specialized literature and standards EN 13906-2, DIN 2089-2, DIN 2097.