Solidthinking inspire motion inspire
Introduction to Inspire What is Inspire? solidThinking Inspire enables design engineers, product designers, and architects to create and investigate structurally efficient concepts quickly and easily. Introduction to Manufacture Run Analysis – Cast Run Status Analysis Explorer Result Types Animation Run Analysis – Stamp Run Status Analysis Explorer Result Types Animation Results Slider – Cast & Stamp Show Run History Exercise 14a: Introduction to Casting Exercise 14b: Introduction to Stamping Inspire Motion Overview Workflow Geometry handling Moving and ground parts Rigid Groups Joints Motors Actuators Using Table Data as input Springs/Dampers Gravity Using Inspire Structures Features with motion Analyze motion Animating results Plotting results Running Optimization from motion loads and results Tracers Exporting to MotionView Exercise 13: Introduction to Inspire Motion Lattice Properties Lattice Diameter Result Type Smooth Lattice Lattice Results Exercise 12: Optimizing LatticeĪgenda 15. Exercise 11: Running a Fastener Optimization.Introduction to Gauge Optimization Run Optimization – Gauge Analyzing & Comparing Gauge Results Exercise 10: Running a Gauge Optimization Topography Optimization Shape controls Bead patterns Run Topography Optimization Exercise: Running a Topography Optimization
2.5D sketching ▪ 2.5D sketching ▪ Exercise: 2.5D sketching
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Why PolyNURBS? PolyNURBS Tools How to generate a PolyNURBS object? Modifying Faces Modifying Edges Modifying Vertices How to create new segments? How to split segments? How to split faces? How to merge faces? How to remove existing cage? What is wrapping a PolyNURBS? How to sharpen edges? Exercises: PolyNURBSġ0. Post-Processing Results Analyzing & Comparing Topology Results Exporting Results Exercise: Re-analyze and compare results
#SOLIDTHINKING INSPIRE MOTION INSPIRE PATCH#
Geometry – Create & Simplify ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪Ĭreation Tools Sketching Geometry Sketch Location Patch Tool Modify Toolbar Push/Pull Mirror & Scale Tools Boolean Tool Cut & Simplify Tools Partition Tool Midsurface & Fillets Tools What is Design Space? Exercise: Prepare design space with Simplify and Partitionĭesign Space Shape Controls Displacement Constraints Run Topology Optimization Exercise: Running a Topology Optimization Introduction to Analysis Run Analysis Run History & Run Status Analysis Results Exercise: Running an Analysisĭisplacements Accelerations & Temperature Tools Load Cases Materials Masses Exercise: Model SetupĬonnections Toolbar Fasteners Joints Connectors Contacts Exercise: Creating Connections Introduction to Inspire Mouse Controls Interface Overview Icons Pull Down Menus Home Toolbar Ribbons Display Controls Exercise: Generating your First Design ConceptĬreation Tools Sketching Geometry Sketch Location Patch Tool Modify Toolbar Push/Pull Training Objectives Learn how to use Inspire to generate and analyze design concepts Understand how to incorporate Inspire into traditional design processes to efficiently create optimal designs Inspire enables both simulation analysts and designers to perform what-if studies faster, easier, and above all earlier, encouraging collaboration and reducing product time to market.© 2017 solidThinking, Inc. The industry standard for structural efficiency, topology optimization by Altair® OptiStruct®, for the generative design of practical, viable, and manufacturable geometry.Dynamic motion simulation, including loads extraction, using the reliable multi-body systems analysis of Altair® MotionSolve®.Structural analysis with the speed and accuracy of Altair® SimSolid® - as independently validated by NAFEMS - provides the ability to analyze large assemblies and complex parts.
Inspire's award winning user experience for geometry creation and modification can be learned in just a few hours, and delivers dependable Altair solver power: Altair® Inspire™ Accelerate Simulation-driven DesignĪpplied early in the product development lifecycle, Inspire accelerates the creation, optimization, and study of innovative, structurally efficient parts and assemblies through collaboration.