KISSsoft
The gear calculation covers all common types: cylindrical, bevel, worm, crossed helical, hypoid, and face gears. In addition to calculations based on standards ISO, DIN, AGMA, VDI, etc., numerous sizing and optimization tools are offered, as well as methods that go beyond the standards. The shaft and bearing calculation is fully integrated in KISSsoft®. Among other things, shaft strengths and rating life of bearings are calculated optionally taking into account internal geometry (ISO TS 16281). The calculation can include several coaxial shafts and their connecting bearings. Torsion and bending-critical eigenfrequencies of the shafts are determined. When calculating the shaft-hub connections, the system checks whether a connection is valid and whether the pressures occurring remain below the permissible material characteristic values. All calculation modules offer sizing functions for the strength-relevant geometric dimensions and the maximum transmittable torque.
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UberCloud
Simr (formerly UberCloud) is a cutting-edge platform for Simulation Operations Automation (SimOps). It streamlines and automates complex simulation workflows, enhancing productivity and collaboration. Leveraging cloud-based infrastructure, Simr offers scalable, cost-effective solutions for industries like automotive, aerospace, and electronics. Trusted by leading global companies, Simr empowers engineers to innovate efficiently and effectively. Simr supports a variety of CFD, FEA and other CAE software including Ansys, COMSOL, Abaqus, CST, STAR-CCM+, MATLAB, Lumerical and more. Simr automates every major cloud including Microsoft Azure, Amazon AWS, and Google GCP.
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Ansys Sherlock
Ansys Sherlock is the only reliability physics-based electronics design tool that provides fast and accurate life predictions for electronic hardware at the component, board and system levels in early stage design. Ansys Sherlock automated design analysis provides fast and accurate life predictions for electronic hardware at the component, board and system levels in early design stages. Sherlock bypasses the ‘test-fail-fix-repeat’ cycle by empowering designers to accurately model silicon–metal layers, semiconductor packaging, printed circuit boards (PCBs) and assemblies to predict failure risks due to thermal, mechanical and manufacturing stressors--all before prototype. With embedded libraries containing over 500,000 parts, Sherlock rapidly converts electronic computer-aided design (ECAD) files into computational fluid dynamics (CFD) and finite element analysis (FEA) models. Each model contains accurate geometries, material properties and translates stress information.
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Netfabb
Netfabb® software includes efficient build preparation capabilities alongside tools for optimizing designs for additive manufacturing, simulating metal additive processes, and planning for CNC post-processing. Import models from a variety of CAD formats and use repair tools to quickly correct errors. Make your models production ready by adjusting wall thicknesses, smoothing rough areas, and more. Identify areas that require support and use semi-automated tools to generate support structures. Convert organic, free-form mesh files to boundary representation models and make them available in CAD in STEP, SAT, or IGES format. Use 2D and 3D packing algorithms to optimally place parts within the build volume. Create custom reports that include critical information for manufacturing and quoting. Develop build strategies and define toolpath parameters for maximum surface quality, part density, and speed.
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