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Fusion Simulation Extension - Subscription

Fusion Simulation Extension - Subscription


Overview


The Autodesk Fusion Simulation Extension empowers your team to analyze part performance, manufacturability, and generative design capabilities.
Generative design outcomes can help you discover weight reduction and performance enhancements. Combine this with simulation study types like structural, thermal, and explicit simulations, as well as injection molding to gain a comprehensive understanding of how your 3D design will perform under real-life conditions before manufacturing.
  • Shorten your product development time - Automate performance and reduce design costs with generative design. Minimize physical prototypes with digital prototypes using simulation tools.
  • Improve your product's reliability - Access advanced simulation study types to validate real-world design performance through side-by-side design comparisons.
  • Expand your design possibilities - Use manufacturing process-aware artificial intelligence to quickly expand design options well beyond human imagination.


Key capabilities
Nonlinear Static Stress
Simulate large deformation, motion, contact, and load change behaviors on nonlinear materials.

 Structural Buckling
Develop and refine designs to prevent structural failure with insights like the critical buckling multiplier.

 Event Simulation
Predict how time-dependent forces influence 3D design performance. 

 Modal Frequencies
Inspect the effects of natural, free vibration on your part or assembly to help you fine-tune your design.
Injection Molding
Learn how part design influences part manufacturability and part quality for plastic injection molded parts.		 Electronics Cooling
Identify risk of electronic component and part failure due to overheating on your printed circuit board (PCB) assemblies.		 Generative Design
Explore multiple outcomes that meet your design specifications while reducing weight and improving performance.		 Thermal Simulation
Trace heat transfer and temperature-induced stresses with thermal steady state and thermal stress simulations.
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From $1,390.00
Fusion Simulation Extension - Subscription
$1,390.00
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Description


Overview


The Autodesk Fusion Simulation Extension empowers your team to analyze part performance, manufacturability, and generative design capabilities.
Generative design outcomes can help you discover weight reduction and performance enhancements. Combine this with simulation study types like structural, thermal, and explicit simulations, as well as injection molding to gain a comprehensive understanding of how your 3D design will perform under real-life conditions before manufacturing.
  • Shorten your product development time - Automate performance and reduce design costs with generative design. Minimize physical prototypes with digital prototypes using simulation tools.
  • Improve your product's reliability - Access advanced simulation study types to validate real-world design performance through side-by-side design comparisons.
  • Expand your design possibilities - Use manufacturing process-aware artificial intelligence to quickly expand design options well beyond human imagination.


Key capabilities
Nonlinear Static Stress
Simulate large deformation, motion, contact, and load change behaviors on nonlinear materials.

 Structural Buckling
Develop and refine designs to prevent structural failure with insights like the critical buckling multiplier.

 Event Simulation
Predict how time-dependent forces influence 3D design performance. 

 Modal Frequencies
Inspect the effects of natural, free vibration on your part or assembly to help you fine-tune your design.
Injection Molding
Learn how part design influences part manufacturability and part quality for plastic injection molded parts.		 Electronics Cooling
Identify risk of electronic component and part failure due to overheating on your printed circuit board (PCB) assemblies.		 Generative Design
Explore multiple outcomes that meet your design specifications while reducing weight and improving performance.		 Thermal Simulation
Trace heat transfer and temperature-induced stresses with thermal steady state and thermal stress simulations.