Ansys
Discovery
Ansys Discovery is the first simulation-driven design tool to combine instant physics simulation (GPU), proven Ansys high-fidelity simulation (CPU) and interactive geometry modelling in a single user experience.
Leveraging the all-new Discovery early in your product design processes will drive substantial gains in engineering productivity, spur innovation and increase your product’s overall performance.
SAVE COST
Signficantly reduce the time it takes you to design products
MORE INSIGHT
Better understand how your products will behave before manufacture
INCREASE PRODUCTVITY
Explore ideas, iterate and innovate with unprecedented speed
IMPROVE QUALITY
Reduce the risk of problems down the line through rigurous analysis and testing
ONE SYSTEM
First simulation driven design tool to combine GPU, CPU and interactive geometry modelling
REDUCE COST
Is your product over engineered? Can you save weight? What happens if i make this change?
Ansys Discovery
Ansys Discovery - CFD, Fluid Flow Analysis
Model Exploration in Ansys Discovery
Ansys Discovery - FEA - Structural Simulation
Ansys Discovery Thermal Analysis
How to Explore, Iterate and Validate a Drone Design in 30 mins with Ansys Discovery
Ansys Discovery - Fluid flow over an STL F1 Car
Ansys Discovery - Factor of Safety
Ansys Discovery Topology Optimisation for designers.
PRODUCT BENEFITS
Structural Design
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See instant stress distribution data regardless of model complexity
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Use Ansys Mechanical solver to simulate nonlinear effects
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Add local refinement for increased accuracy and control
Fluid Analysis
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Instantly find flow trends whilst updating input parameters or making geometry updates
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Get instant feedback on your design performance
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Use Ansys Fluent solver for detailed high-fidelity studies of complex geometries and fluid behavior
Topology Optimisation
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Unlock the potential of generative design
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Allow the software to reduce material based on the loads and conditions
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Add manufacturing constraints
Thermal Analysis
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Instantly evaluate how changes to thermal inputs, materials and design will affect the thermal performance of your design
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Realtime heat flow temperature and heat distribution
Modal Analysis
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Observe different modes of vibration, make changes to geometry and instantly evaluate performance
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Understand problem frequencies
Geometry Modelling + Parameter Studies
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Full modelling capabilities allow users to prep models for any type of simulation or make edit models to optimise your simulation
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Study large numbers of design possibilities by automating geometric parameters