Increase product quality, reduce the number of prototypes and testing costs with SOLIDWORKS Simulation. Verify and optimise the behaviour and performance of your products by testing them virtually based on 3D CAD models.
More insight into your design
Less expensive prototypes
More time for conscious innovation
Increased quality
Your product ready within the deadline
Complex engineering challenges do not automatically imply that analysis tools must also be complex. With seamless integration, the verification of design steps fits into every engineers process.
SOLIDWORKS Simulation offers you a range of analyses to give you insight into all desired situations such as static analyses, fatigue life calculations, automatic design optimisations and frequency analyses.
The automatically generated reports grant you and your customer full insight into the performance of your design.
Insight ensures that you can produce reliably lighter, faster and more efficient designs.
What is the influence of a static load on your design? Gain insight into voltage, displacement and the safety factor of your design.
What is the lifespan of your products? Gain insight into when your product is going to fail and how you can improve it.
For a motion cycle, find out what forces arise or are needed to initiate the movement.
Let Simulation determine the most optimal design based on your chosen variables.
Clear reports support you in your communication with stakeholders.
What effects do temperature changes have on your design? And how long does it take for the model to cool down or overheat?
Determining the natural frequencies of your design is vital when it is subject to vibration.
Buckling failure mode for long and slender components is by collapse at a load below material yield stress. The buckling study predicts the components buckling load factor.
What happens to your product if it is handled incorrectly or dropped?
Determine if your design complies with standardized pressure vessel studies.
Let SOLIDWORKS Simulation generate the most optimal design for you.
Analyze complex materials such as rubbers, plastic and foam and situations where large deformations occur.
Analyse composite products taking into account the number of layers and fibre directions.
Determine whether your design can withstand the impact of varying loads.
What is the influence of a static load on your design? Gain insight into voltage, displacement and the safety factor of your design.
What is the lifespan of your products? Gain insight into when your product is going to fail and how you can improve it.
For a motion cycle, find out what forces arise or are needed to initiate the movement.
Let Simulation determine the most optimal design based on your chosen variables.
Clear reports support you in your communication with stakeholders.
What is the influence of a static load on your design? Gain insight into voltage, displacement and the safety factor of your design.
What is the lifespan of your products? Gain insight into when your product is going to fail and how you can improve it.
For a motion cycle, find out what forces arise or are needed to initiate the movement.
Let Simulation determine the most optimal design based on your chosen variables.
Clear reports support you in your communication with stakeholders.
What effects do temperature changes have on your design? And how long does it take for the model to cool down or overheat?
Determining the natural frequencies of your design is vital when it is subject to vibration.
Buckling failure mode for long and slender components is by collapse at a load below material yield stress. The buckling study predicts the components buckling load factor.
What happens to your product if it is handled incorrectly or dropped?
Determine if your design complies with standardized pressure vessel studies.
Let SOLIDWORKS Simulation generate the most optimal design for you.
What is the influence of a static load on your design? Gain insight into voltage, displacement and the safety factor of your design.
What is the lifespan of your products? Gain insight into when your product is going to fail and how you can improve it.
For a motion cycle, find out what forces arise or are needed to initiate the movement.
Let Simulation determine the most optimal design based on your chosen variables.
Clear reports support you in your communication with stakeholders.
What effects do temperature changes have on your design? And how long does it take for the model to cool down or overheat?
Determining the natural frequencies of your design is vital when it is subject to vibration.
Buckling failure mode for long and slender components is by collapse at a load below material yield stress. The buckling study predicts the components buckling load factor.
What happens to your product if it is handled incorrectly or dropped?
Determine if your design complies with standardized pressure vessel studies.
Let SOLIDWORKS Simulation generate the most optimal design for you.
Analyze complex materials such as rubbers, plastic and foam and situations where large deformations occur.
Analyse composite products taking into account the number of layers and fibre directions.
Determine whether your design can withstand the impact of varying loads.
SOLIDWORKS Simulation helps companies reduce product cost costs, streamline the design process and accelerate innovation.
There is a lot more to say about our tools, solutions, trainings and services.
info-ZA@cadmes.com
Phone: +27 (0)12 880 3159
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