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The program is designed to calculate the optimum cross-section and perform a strength check of slender struts strained for buckling. The program includes: - Selection of six basic types of buckling. - Calculation of area characteristics of 20 types of cross-sections. - Design of optimum profile accommodating the set load. - Strength check of the strut. - Calculation and graphical representation of permitted stress dependent on slenderness rate. - A table of materials and a table of area characteristics of W, S, C, and L profiles according to ANSI/AISC and I, U, L, and T profiles according to DIN/ISO. The calculation is based on data, procedures, algorithms (Johnson, Tetmajer, Euler, Secant), and data from specialized literature and AISC, ISO, DIN, and BS standards. List of standards (DIN 1025, 1026, 1028, 1029, 1024, AISC W, S, C, L, LU ... ). This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connections, tolerances, and many others.

The program is designed to calculate the optimum cross-section and perform a strength check of slender struts strained for buckling. The program includes: - Selection of six basic types of buckling. - Calculation of area characteristics of 20 types of cross-sections. - Design of optimum profile accommodating the set load. - Strength check of the strut. - Calculation and graphical representation of permitted stress dependent on slenderness rate. - A table of materials and a table of area characteristics of W, S, C, and L profiles according to ANSI/AISC and I, U, L, and T profiles according to DIN/ISO. The calculation is based on data, procedures, algorithms (Johnson, Tetmajer, Euler, Secant), and data from specialized literature and AISC, ISO, DIN, and BS standards. List of standards (DIN 1025, 1026, 1028, 1029, 1024, AISC W, S, C, L, LU ... ). This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connections, tolerances, and many others.

Power screw. This program (algorithm) is used to design and check power screws. It is used to solve the following tasks: - Calculation of kinematic parameters (speed, torque, revolutions, and power output... - Simple selection/definition of power screw (metric, square, trapezoidal...) - Screw check for tensile/pressure, thrust, bend, buckling, and critical revolutions. - The program contains a table of materials, threads, and friction coefficients. - Support of 2D CAD systems. The calculation is based on data, procedures, and algorithms from specialized literature and AGMA, ISO, DIN, and BS standards. List of standards: (ISO 68-1, 68-2, ISO 724, ISO 965, ISO 2904: 1977, DIN 513, CSN 01 4050, CSN 01 4052, ANSI/ACME B1.5-1977, ANSI/ACME B1.9-1973, ASME B1.1-2003, IS 4694-1968....). Ball screws. This program (algorithm) is used to design, calculate and check ball screws. It is used to solve the following tasks: - Preliminary design (minimum input parameters - sufficient to navigate and select from catalogs). - Detailed analysis (load, dimensions, parameter check). - Load spectrum table definition (speed, torque, revolutions, and power output...). - Calculation of an equivalent load. - Service life calculation, tolerances, temperature analysis. - Tensile/Pressure, thrust, bend, buckling, and critical revolutions. - Lubrication proposal and efficiency calculation. - The program contains tables of screws according to ISO and ANSI. - Support of 2D CAD systems. The calculation is based on data, procedures, and algorithms from specialized literature and AGMA, ISO, DIN, and BS standards. List of standards: ISO 3408-1:2006; ISO 3408-2: 1991; ISO 3408-3:2006; ISO 3408-4:2006; ISO 3408-5:2006; ISO 286-2:2010; DIN ISO 3408; JIS B1192-1997; JIS B1192-2018; DIN 69051-5; ANSI B5.48.

Power screw. This program (algorithm) is used to design and check power screws. It is used to solve the following tasks: - Calculation of kinematic parameters (speed, torque, revolutions, and power output... - Simple selection/definition of power screw (metric, square, trapezoidal...) - Screw check for tensile/pressure, thrust, bend, buckling, and critical revolutions. - The program contains a table of materials, threads, and friction coefficients. - Support of 2D CAD systems. The calculation is based on data, procedures, and algorithms from specialized literature and AGMA, ISO, DIN, and BS standards. List of standards: (ISO 68-1, 68-2, ISO 724, ISO 965, ISO 2904: 1977, DIN 513, CSN 01 4050, CSN 01 4052, ANSI/ACME B1.5-1977, ANSI/ACME B1.9-1973, ASME B1.1-2003, IS 4694-1968....). Ball screws. This program (algorithm) is used to design, calculate and check ball screws. It is used to solve the following tasks: - Preliminary design (minimum input parameters - sufficient to navigate and select from catalogs). - Detailed analysis (load, dimensions, parameter check). - Load spectrum table definition (speed, torque, revolutions, and power output...). - Calculation of an equivalent load. - Service life calculation, tolerances, temperature analysis. - Tensile/Pressure, thrust, bend, buckling, and critical revolutions. - Lubrication proposal and efficiency calculation. - The program contains tables of screws according to ISO and ANSI. - Support of 2D CAD systems. The calculation is based on data, procedures, and algorithms from specialized literature and AGMA, ISO, DIN, and BS standards. List of standards: ISO 3408-1:2006; ISO 3408-2: 1991; ISO 3408-3:2006; ISO 3408-4:2006; ISO 3408-5:2006; ISO 286-2:2010; DIN ISO 3408; JIS B1192-1997; JIS B1192-2018; DIN 69051-5; ANSI B5.48

AutoFEM Static & Buckling Analysis + ShipConstructor Integration - AutoFEM Static Analysis enables engineers to perform static stress analyses of parts and assemblies under various loading conditions. Static studies calculate displacements, reaction forces, strains, stresses, and factor of safety distribution. Static analysis can help you avoid failure due to high stresses. Various structural loads and restraints can be specified including force, pressure, gravity, rotational load, bearing force, torque, prescribed displacement, temperature, etc.

AutoFEM Static & Buckling Analysis - AutoFEM Static Analysis enables engineers to perform static stress analyses of parts and assemblies under various loading conditions. Static studies calculate displacements, reaction forces, strains, stresses, and factor of safety distribution. Static analysis can help you avoid failure due to high stresses. Various structural loads and restraints can be specified including force, pressure, gravity, rotational load, bearing force, torque, prescribed displacement, temperature, etc.