MITCalc Software

MITCalc - Springs - 15 types

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. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units and solves the following main tasks: 1) 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 a bars - Helical cylindrical torsion springs made of rectangular wires and bars - Torsion bar springs with round section - Torsion bar springs with rectangular section - Leaf springs with constant profile - Leaf springs with parabolic profile - Laminated leaf springs 2) Automatic proposal (finding) of a spring with suitable dimensions. 3) 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. This module is a part of MITCalc - Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

Keywords: spring springs cylindrical spring compression spring helical spring conical springs spiral springs torsion bar springs leaf springs style tags

MITCalc - V-Belts Calculation

The calculation is designed for a geometrical design and strength check of belt transmissions using V-belts. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units and solves the following main tasks: - Calculation for 2 or 3 pulleys. - Automatic design of a transmission with the minimum of input requirements. - Design and calculation of geometrical parameters (diameters of pulleys, axis distances, length of the belt, weight of the transmission) - Calculation of strength parameters (power transferred by the belt, number of belts, efficiency, etc.) - Calculation of force conditions (prestressing, axis loading of the pulleys, etc.) - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks). The application works with CAD systems and includes respective models of pulleys and belts. The calculations use procedures, algorithms and data from basic documents and standards ANSI, RMA (Rubber Manufacturers Association), ISO, DIN, BS, and basic documents from catalogues of companies CONTITECH (r) and Gates Rubber Company (r). Used standards: Narrow V-Belts ANSI/RMA IP-22; Traditional V-Belts ANSI/RMA IP-20; Light Duty V-Belts ANSI/RMA IP-23; DIN 7753; DIN 2211; DIN 2215; ISO 4184 This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

Keywords: belt v-belt v-belt transmission design strength check narrow v-belts ansi/rma ip-22 traditional v-belts ansi/rma ip-20 light duty v-belts ansi/rma ip-23 din 7753 din 2211 din 2215 iso 4184 odbc connectivity

MITCalc - Tension Springs

The calculation is intended for the purposes of 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 in view of 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. This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

Keywords: spring springs cylindrical spring tension spring helical spring en 13906-2 din 2089-2 din 2097 static strength check dynamic strength check. midi karaoke files

MITCalc - Compression Springs

The calculation is intended for the purposes of 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 in view of 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. This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

Keywords: spring springs cylindrical spring compression spring helical spring en 13906-1 din 2089-1 din 2095 static strength check dynamic strength check. revolutionary technology

MITCalc -Rolling Bearings Calculation II

This module can be used for the selection, calculation and check of rolling bearings. The programme provides solutions to the following tasks: - Selection and check of a suitable bearing. This module includes a database of approx. 5,000 inch rolling bearings from RBC Bearings, Nice Ball Bearing, General Bearing Company, New Hampshire Ball Bearing, NMB USA Inc., MRC Bearing Group, Fafnir Bearings Company, Torrington Company, Timken Company, Barden Precision Bearing, McGill Manufacturing Co. Inc., NTN Bearing Corporation and INA USA Corporation - Calculation of basic bearing parameters (life, static safety, etc.). - Calculation of adjusted bearing life acc. to the new methodology of ISO 281. - Calculation of load with a pair of tapered roller bearings or a pair angular contact ball bearings resp. - Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD) and 3D CAD in full calculation package (Autodesk Inventor, SolidWorks). In addition to the above given basic calculations, the document also includes several other auxiliary calculations (e.g. a calculation of lubricant operational viscosity, calculation of mean loads for bearings loaded by variable loads, calculation of permitted bearing speed, etc.). The programme uses data, procedures, algorithms and other information from specialised literature, catalogues of rolling bearings SKF, ISO, ANSI, SAE standards and other sources. Related standards: ISO 15, ISO 76, ISO 104, ISO 281, ISO 355, ISO 1132, ISO 5593, ISO 5753, ISO 3448, ISO 15312, DIN 615, DIN 620, DIN 625, DIN 628, DIN 630, DIN 635, DIN 711, DIN 715, DIN 720, DIN 722, DIN 728, BS 290, BS 292, BS 3134, ANSI/ABMA 9-1990, ANSI/ABMA 11-1990. This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, bearings, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

Keywords: bearings bearing roller bearing bearings pair basic dynamic load equivalent dynamic load basic life basic static load equivalent static load static safety factor permissible radial load favorite colors

MITCalc - Tolerance analysis

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 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. This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, bearings, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others

Keywords: tolerance tolerances analysis worst case root sum squares 6 sigma deviation fits ansi b4.1 ansi b4.2 iso 286 iso 1829 iso 2768 en 20286 jis b 0401 imap server

MITCalc - Roller Chains Calculation

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. This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others

Keywords: chain roller chain design strength check chain transmission ansi/asme b29.1m ansi/asme b29.3 din 8187 din 8181 din 8181 din 8164 din 8150 iso r606 iso 1275 bs 228 jis b1801 jis b1803. key control

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