ANSYS Mechanical Premium uses the ANSYS Mechanical interface to deliver powerful finite element modeling capabilities in a way that you can use to make real structural engineering decisions.

Mechanical Premium gives you access to the ANSYS Mechanical solver with incredible scalability, wide industry adoption and superb support from a broad base of engineers around the globe. It is also possible to account for fluid flow through pipes and heat generated from friction between parts. All of these capabilities give you more accurate simulations and better results.

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ANSYS Mechanical Premium

More About ANSYS Mechanical Premium

  • Finding natural vibration frequencies, responses to harmonic loads and understanding behavior during transportation (random or PSD vibration) or events such as earthquakes (seismic response) gives you the ability to accurately predict how designs will work in dynamic environments. Including pre-loading adds more fidelity and means that self-weighted, bolted assemblies — or even squealing brakes — can be simulated.
  • ANSYS Mechanical Premium uses the ANSYS Mechanical interface to deliver powerful finite element modeling capabilities in a way that you can use to make real structural engineering decisions. Mechanical Premium gives you access to the ANSYS Mechanical solver with incredible scalability, wide industry adoption and superb support from a broad base of engineers around the globe

Contact detection, mesh generation and solving operations all benefit from additional, ever-increasing core counts. Distributed ANSYS solutions can increase speed in applications that use up to 1,000 cores.

Avoid failure due to repeated cyclic loading. Fatigue analysis can determine the capability of a material to survive the loading cycles experienced during its lifetime.

Analyze the interaction of different physics phenomena to better simulate real-world conditions. Example interactions: Fluid–Structure interaction (one-way) Thermal–Structure interaction (sequential) Other interactions through external data

You can simulate full linear dynamics for modal, harmonic, spectrum response and random vibration, plus transient implicit and explicit effects for impacts and longer, time-dependent simulations, respectively.

ANSYS SpaceClaim is a fast and intuitive 3-D modeling software solution that enables any analyst or engineer to create, edit and repair geometry.

ANSYS DesignXplorer leverages the persistent and automated power of ANSYS Workbench for parametric analyses. It enables you to explore, understand and optimize your design.

Simulate wave, wind and current loads on floating and fixed offshore and marine structures, including spars, FPSOs, semi-submersibles,TLPs, ships, renewable energy systems and breakwater design.

For nonlinear material properties, Mechanical can simulate hyperelasticity for rubber-like materials and rate-dependent plasticity under loading.

Accurate simulation of printed circuit boards (PCBs) requires accounting for the metal traces and dielectric regions. You can automatically map trace metal onto PCB geometry with Mechanical Premium.

Capture the change in stiffness caused by loads applied to structures, ensuring your simulation accounts for effects like stress stiffening, large strain and large deflections. Advanced materials models for geomechanics, metals, hyperelastics and composites combined with user-defined materials provide a
complete solution for nonlinear analysis.

Simulate contacts or joints in assemblies. Model frictional, bonded and other types of contacts with automatic contact generation to accelerate the creation of contact pairs.

Perform steady-state and transient thermal analyses of products, including conduction, convection and radiation effects. Modeling phase-change and temperature-dependent materials ensures an accurate simulation.

ANSYS Simplorer is a powerful platform for modeling, simulating and analyzing virtual system prototypes. Verify and optimize performance of software-controlled, multidomain systems designs.

ANSYS composite simulation software lets you model material definition, first and last ply failure modes, and delamination of layered composites.

Create ACT apps to capture expert knowledge, specialized processes and best practices.

Modal, harmonic, spectrum, random and rotordynamic analyses enable you to understand how natural frequencies, forced vibration, seismic events and transportation vibrations in different environments might affect structures.

Simulate mechanical motion by modeling joints, both perfect and imperfect, and defining stiffness of bushes and bearings for both rigid body and flexible systems.