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Learn how to determine fatigue strength in
materials, calculate fatigue life, and design with it in mind.
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The SolidWorks® Simulation suite provides
the advanced capabilities you need to get to market
faster—designers can catch mistakes sooner, change course
quickly, and create better-performing products at a lower cost.
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Written in collaboration with National
Instruments, this report examines integration of design,
analysis, and physical testing.
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Learn how to run up-front drop tests on
your designs easily and quickly. This report shows how setting
up a drop test is just like setting up any other SolidWorks
Simulation analysis study.
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Design optimization can increase the value
of a product by improving its performance within its operating
environment, and by reducing the cost of producing it by
reducing the amount of material used to make it.
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Any time a component or an assembly is
subjected to a changing or dynamic load, it may react or vibrate
in a way that ranges from merely annoying to critically
dangerous.
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This White Paper discusses how design
verification tools like SolidWorks Simulation can help you solve
problems with Thermal analysis. Thermal analysis can be executed
to find temperature distribution, gradient, and heal flowing in
a mocel, as well as heat exchanged between the model and its
environment.
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This report explains the differences
between linear and nonlinear analysis and how to understand
various types of nonlinear behavior.
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Motion simulation provides complete,
quantitative information about the kinematics - including
position, velocity, and acceleration, and the dynamics -
including joint reactions, inertial forces, and power
requirements, of all the components of a moving mechanism.
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