Ansys Academic Research Mech And Cfd Software , Electrical Items : , Ansys Academic-Research Mech And Cfd Software Tool ( One Task ) Technical Specifications The Software Tool Shall Contain The Following Features 1. Finite Element Analysis ( Fea ) The Structural / Mechanical Finite Element Analysis Software Tool Shall Comply With Following Specifications. Design Tool For Analysis General Capabilities Of Pre-Processing Tools: The Preprocessors ( Geometry Modeling Tool And The Mesh Generator ) Should Have The Following Capabilities A ) Direct Modelling Technology B ) Open Data From All Major Cad Systems C ) Feature Based Modelling Technology D ) Export Data To Neutral File Formats E ) Modify Imported Geometry F ) Defeaturing And Simplification Tools G ) Model Repair H ) Add Parameters For Design Exploration I ) Extract Mid-Surfaces / Shells And Beams J ) Extract Volumes & Create Inner Fluid Domains K ) Extract Outer Air Enclosures L ) Shared Topology For Conformal Meshing M ) Booleans And Slicing N ) Create Weld Bodies O ) Boundary Condition Mapping P ) Scripting Q ) Sketching And Editing Tools R ) 3D Comparison Tools S ) Repair And Edit Faceted Data T ) Reverse Engineering Faceted Data Meshing Capabilities A ) Physics And Solver Based Setting: Mechanical, Cfd, Implicit, Explicit, Electromagnetics. B ) Advanced Sizing Function C ) Smoothening D ) Element Size E ) Assembly Mesh F ) Advanced Settings: Parallel Meshing, Shape Checking, Element Mid-Side Node, Rigid Body Behavior G ) Defeaturing: Pinch Tolerance, Automatic Mesh Based Defeaturing, Statistics Local Mesh Control A ) Sizing: Contact Sizing, Mapped Face Meshing, Refinement, Match Control, Pinch, Inflation, Object Generator B ) Meshing Methods: Tetrahedral, Hex, Sweep, Multizone C ) Mesh Solution Features: Selective Meshing, Section Planes, Virtual Topology Mosaic Mesh Technology A ) Creating A Volume Mesh From An Imported Surface Mesh B ) Creating A Volume Mesh From Imported Cad Geometry C ) Improving Mesh Quality With Auto Node Move D ) Optimal Settings For Transferring Geometry From Cad Tool E ) Converting Hexahedral Mesh To Unstructured Polyhedral Mesh F ) Mastery Of Sizing Functions G ) Wrapping Single Parts H ) Wrapping Dirty, Complex Assemblies Finite Element Modeling And Solver Deck Creation. Geometric Idealization A ) Spring B ) Mass C ) Damper D ) Spar E ) Beam F ) Cable G ) Pipe / Elbow H ) Shell - Thin I ) Layered Shell - Thin ( Composite ) J ) Shell - Thick ( Solid Shell ) K ) Layered Shell - Thick ( Solid Shell ) ( Composite ) L ) 2D Plane / Axisymmetric M ) 3D Solids N ) Layered 3D Solids ( Composite ) O ) Infinite Domain P ) 2.5D Elements Q ) Reinforcement Elements R ) Coupled Field Rom Element Technology S ) Iso-Geometric Analysis ( Iga ) Modeling Capabilities A ) Contact - Linear B ) Contact - Nonlinear C ) Joints D ) Seam Welds E ) Spot Welds F ) Element Birth And Death G ) Gasket Elements H ) Rezoning And Adaptive Remeshing I ) Inverse Analysis Materials A ) Basic Linear Materials ( Linear, Anisotropic, Temperature Dependent ) B ) Basic Nonlinear Materials ( Hyperelastic, Plasticity, Rate Independent, Isotropic, Concrete, Viscoelasticity ) C ) Advanced Nonlinear Materials ( Rate Dependent, Anisotropic, Damage Models, Geomechanics Materials, Multiphysics, Acoustics ) D ) Field Dependent E ) User Defined Materials F ) Fracture Mechanics And Crack Growth G ) Materials Multiscale Homogenization Composite Materials A ) Material Definitions B ) Ply Definitions C ) Interface Layers D ) Advanced Ply Modeling Features E ) Variable Material Data F ) Solid Extrusion G ) Lay-Up Mapping H ) Draping I ) Lay-Up Exchange Interfaces J ) Advanced Failure Criteria Library K ) First-Ply Failure L ) Last-Ply Failure M ) Delamination N ) Sandwich Modeling O ) Automation / Run Scripts P ) Short Fiber Composites Structural Solver Capabilities A ) Linear Static B ) Nonlinear Static C ) Pre-Stress Effects, Linear Perturbation D ) Nonlinear Geometry E ) Buckling - Linear Eigenvalue F ) Buckling - Nonlinear Post Buckling Behavior G ) Buckling - Nonlinear Post Buckling Behavior - Arc Length H ) Steady State Analysis Applied To A Transient Condition I ) Advanced Wave Loading Multi Analysis A ) Submodeling B ) Data Mapping C ) Multiphysics Data Mapping D ) Initial State E ) Advanced Multi-Stage 2-D To 3-D Analysis Vibrations A ) Modal B ) Modal - Pre-Stressed C ) Modal - Damped / Unsymmetric D ) Transient - Mode-Superposition E ) Harmonic - Mode-Superposition F ) Harmonic - Full G ) Spectrum H ) Random Vibration I ) Mistuning J ) Rotordynamics K ) Multi-Stage Cyclic Symmetry Nonlinear Transient Dynamics A ) Rigid Body Mechanisms B ) Rigid Body Dynamics With Cms L Components For Flexible Bodies C ) Full Transient D ) Cms With Substructuring E ) Mixed Rigid - Flexible Systems Explicit Dynamics A ) Fe ( Lagrange ) Solver B ) Euler Solvers C ) Implicit-Explicit Material States D ) Mass Scaling E ) Natural Fragmentation F ) Erosion Based On Multiple Criteria G ) De-Zoning H ) Part Activation And Deactivation ( Multi Stage Analysis ) I ) Explicit Time Integration Durability A ) Stress-Life ( Sn ) B ) Strain-Life ( En ) C ) Safety Factor D ) Vibration Fatigue Wave Hydrodynamics A ) Diffraction And Radiation B ) Frequency & Time Domain Motions Analysis C ) Moorings, Joints & Tethers D ) Load Transfer To Structural Analysis E ) Internal Tanks Thermal A ) Steady State Thermal B ) Transient Thermal C ) Conduction D ) Convection E ) Radiation To Space F ) Radiation - Surface To Surface G ) Phase Change H ) Thermal Analysis Of Layered Shells And Solids Additional Physics A ) 1-D Thermal-Flow B ) 1-D Coupled-Field Circuits C ) 1-D Electromechanical Transducer D ) Mems Rom E ) Piezoelectric F ) Piezoresistive G ) Electromagnetic H ) Electro-Migration I ) Diffusion-Pore-Fluid J ) Structural-Thermal-Electric-Magnetic K ) 1-Way Fluid-Structure Interaction L ) 2-Way Fluid-Structure Interaction M ) Multi-Scale Modeling N ) Implicit Time Integration Optimization A ) Designxplorer Included B ) Parameters C ) Design Point Studies D ) Correlation Analysis E ) Design Of Experiments F ) Sensitivity Analysis G ) Goal Driven Optimization H ) Six Sigma Analysis Miscellaneous And Usability A ) Ansys Spaceclaim B ) Ansys Customization Suite ( Acs ) C ) Support Act Extensions D ) Journaling And Scripting E ) Command Snippet Support F ) Batch Run Capability G ) Read / Write 3Rd Party Matrix Cae Data H ) Cdb And 3Rd Party Fe Model Import I ) Nastran Bulk File Export J ) Global / Selective Mass Scaling K ) Keyword Input L ) Splitting Of Input File Into Subfiles M ) User Subroutines N ) Re-Mapping O ) Transmitting Boundaries P ) Dynamic Storage Allocation Q ) Extensive Output Data Controls ( Ascii / Binary ) R ) Interactive Real-Time Graphics S ) Double Precision 2. Computational Fluid Dynamics ( Cfd ) The Computational Fluid Dynamics ( Cfd ) Software Tool Will Comply To Following Specifications. General Solver Capabilities A ) Comprehensive Inlet And Outlet Conditions B ) Steady-State Flow C ) Transient Flow D ) 2-D And 3-D Flow E ) Time Dependent Boundary Conditions F ) Customizable Materials Library G ) Granta Materials Data For Simulation H ) Fan Model J ) Periodic Domains K ) Flow-Driven Solid Motion ( 6Dof ) L ) Pressure-Based Coupled Solver M ) Density-Based Coupled Solver N ) Dynamic / Moving-Deforming Mesh O ) Overset Mesh P ) Immersed-Solid / Mst Method For Moving Parts Q ) Automatic On-The-Fly Mesh Generation With Dynamic Refinement R ) Dynamic Solution-Adaptive Mesh Refinement S ) Polyhedral Unstructured Solution-Adaptive Mesh Refinement Single Phase, Non-Reacting Flows A ) Incompressible Flow B ) Compressible Flow C ) Porous Media D ) Non-Newtonian Viscosity E ) Turbulence - Isotropic F ) Turbulence - Anisotropic ( Rsm ) G ) Turbulence - Unsteady ( Les / Sas / Des ) H ) Turbulence - Laminar / Turbulent Transition I ) Flow Pathlines ( Massless ) J ) Acoustics ( Source Export ) K ) Acoustics ( Noise Prediction ) Heat Transfer A ) Natural Convection B ) Conduction & Conjugate Heat Transfer C ) Shell Conduction ( Including Multi-Layer Model ) D ) Internal Radiation - Participating Media E ) Internal Radiation - Transparent Media F ) External Radiation G ) Solar Radiation & Load H ) Simplified Heat Exchanger Model I ) Non-Equilibrium Thermal Model J ) Porous Media Particles Flows ( Multiphase ) A ) Coupled Discrete Phase Modeling Including Thin Wall Films B ) Macroscopic Particle Model C ) Inert Particle Tracking ( With Mass ) D ) Liquid Droplet ( Incl. Evaporation ) E ) Combusting Particles F ) Multicomponent Droplets G ) Discrete Element Model ( Dem ) H ) Break-Up And Coalescence I ) Erosion Free Surface Flows ( Multiphase ) A ) Implicit Vof B ) Explicit Vof C ) Coupled Level Set / Vof D ) Complex Multiphase Regime Transitions E ) Vof To Dpm Model F ) Dpm To Vof Model G ) Open Channel Flow And Wave H ) Surface Tension I ) Phase Change J ) Cavitation K ) Cavitation Where Multiple Fluids And Non-Condensing Gases Are Present Dispersed Multiphase Flows ( Multiphase ) A ) Mixture Fraction B ) Eulerian Model Including Thin Wall Films C ) Boiling Model D ) Surface Tension E ) Phase Change F ) Drag And Lift G ) Wall Lubrication H ) Heat And Mass Transfer I ) Population Balance J ) Reactions Between Phases K ) Granular Model For Dense Bed Of Solids L ) Dense Particulate Coupling ( Ddpm ) Reacting Flows A ) Species Transport B ) Non-Premixed Combustion C ) Premixed Combustion D ) Partially Premixed Combustion E ) Composition Pdf Transport F ) Finite Rate Chemistry G ) Pollutants And Soot Modeling H ) Sparse Chemistry Solver With Dynamic Cell Clustering And Dynamic Adaptive Chemistry I ) Ability To Use Model Fuel Library Mechanisms J ) Flame-Speed From Fuel-Component Library K ) Dpik Spark-Ignition Model L ) Flame-Propagation Using Level-Set Method ( G-Equation ) M ) Internal Combustion Engine Specific Solution N ) 0-D / 1-D / 2-D Reactor Models And Reactor Networks O ) Plasma Reactions P ) Comprehensive Surface-Kinetics Q ) Chemical And Phase Equilibrium R ) Flamelet Table Generation S ) Flame Speed And Ignition Table Generation T ) Reaction Sensitivity, Uncertainty And Path Analysis U ) Surrogate Blend Optimizer V ) Mechanism Reduction W ) Detailed Electrochemistry Model For Li-Ion Batteries Turbomachinery A ) Mrf / Frozen-Rotor B ) Sliding-Mesh / Stage C ) Transient Blade Row D ) Pitch Change E ) Time Transformation F ) Fourier Transformation G ) Harmonic Analysis H ) Blade Flutter Analysis I ) Performance Maps In-Flight Icing A ) Simulation Of Standard Droplets, Sld, And Ice Crystals B ) Inclusion Of Vapor / Humidity Effects On Icing C ) Icing Environments Of Appendices C, O ( Sld ) , And D ( Ice Crystals ) D ) Various Pre-Defined Droplet Size Distributions E ) Simulation Of Rime, Glaze, And Mixed Icing F ) Single-And Multi-Shot Icing Simulations With Mesh Deformation For Prediction Of Ice Accretion And Aerodynamic Performance Degradation G ) Single-And Multi-Shot Icing Simulations With Automatic Re-Meshing For Prediction Of Ice Accretion And Aerodynamic Performance Degradation H ) Conjugate Heat Transfer ( Cht ) For Anti-And De-Icing Simulations I ) Icing Of Rotating Components Of All Types: Rotors, Propellers, And Engines ( Fan, Guide Vanes, And Any Number Of Compressor Rows ) J ) Ice Cracking K ) Ice Shedding Optimization A ) Parameters B ) Design Point Studies C ) Correlation Analysis D ) Design Of Experiments E ) Sensitivity Analysis F ) Goal Driven Optimization G ) Six Sigma Analysis H ) Adjoint Solver For Shape Optimization I ) Adjoint Solver For Rotating Reference Frames & Conjugate Heat Transfer J ) Multi-Objective-Constrained Optimization K ) Mesh Morphing ( Rbf Morph ) High Rheology Material A ) Viscoelasticity B ) Specialty Extrusion Models C ) Specialty Blow Molding Models D ) Specialty Fiber Spinning Models Pre And Post Processing A ) Compare Multiple Runs, Datasets, Physics, Graphs In A Single Window B ) Simulation Reports C ) Advanced Data Interpolation Between Dissimilar Meshes D ) Advanced, Automated Data Exchange Multiphysics A ) Drag-N-Drop Multiphysics B ) Direct Coupling Between Physics C ) Collaborative Workflows D ) Fully Managed Co-Simulation E ) Flexible Solver Coupling Options F ) Functional Mock Up Unit ( Fmu ) Coupling G ) Force Induced Motion / Deformation H ) Fluid Thermal Deformation Fluid-Structure Interaction A ) Convection Cooled Electronics B ) Conduction Cooled Electronics C ) Intrinsic Fsi D ) Thermo-Elasticity Electro-Thermal Interaction A ) High Frequency Thermal Management B ) Electromechanical Thermal Management C ) Aero-Vibro Acoustics D ) Acoustics-Structural Other Coupled Interactions A ) Fluid Magnetohydrodynamics B ) Support Act Simulation Apps C ) Mosaic-Enabled Meshing Technology D ) Task-Based Workflow -Watertight Geometries E ) Task-Based Workflow -Fault Tolerant Geometries F ) Directly Enter Expressions G ) Parallel Solving With Ansys Cloud Launched From Desktop H ) Parallel Solving With Ansys Cloud Launched From Vdi 3. Additive Manufacturing Model Preparation A ) Define Build Envelope B ) Multiple Parts C ) Optimize Part Orientation Based Upon Distortion Tendency, Build Time, & Supports D ) Support Region Detection And Manual Modification E ) Create Multiple Support Types In One Region F ) Control Of Support Parameters G ) Multiple Support Types H ) Angled Supports I ) Perforations, Tooth Patterns, Intrusion, Sizing And Distribution Of Support Walls J ) Automatic Support Generation K ) Export Of Stl And Cad Tool Files L ) Export Of Additive Manufacturing Equipment ( Oem ) Build Files M ) Cost Estimation N ) Layer / Scan Vector Visualization Topology And Lattice Optimization A ) Structural Optimization B ) Modal Optimization C ) Thermal Loads D ) Inertial Loads E ) Optimized Design Validation F ) Manufacturing Constraints G ) Stress Constraints H ) Symmetry I ) Lattice Optimization J ) Overhang / Additive Constraints Workbench Additive A ) User-Defined Step Option As 1St Or Last Sequence Step B ) Layered Tetrahedral Meshing C ) Post Build Heat Treatment D ) Import Of Stl Supports E ) Inherent Strain Isotropic And Anisotropic Released F ) Strain Scaling Factor For Thermal And Structural Analyses G ) Stl Files Can Be Exported From Stl Supports H ) Voxel Mesh Generation I ) Wizards To Transfer Results From Additive Print To Workbench Additive J ) Calibration Setup In Am Wizard K ) Am Bond Implementation L ) Layer End Temperature Output M ) Process Simulation For Directed Energy Deposition N ) Direct Energy Deposition - Wizard O ) Direct Energy Deposition - G-Code Clustering P ) Direct Energy Deposition - Manual Clustering Additive Process Simulation A ) Nonlinear And Temperature Dependent Material Properties B ) Uniform Assumed Isotropic Strain C ) Scan Pattern Based Anisotropic Strain D ) Thermal Ratcheting Based Anisotropic Strain E ) Stress-Based Automatically Generated Supports F ) Part Distortion & Residual Stress ( As-Built ) G ) Directional Part And Support Removal H ) Part Distortion And Residual Stress After Baseplate Cut-Offand / Or Support Removal I ) Distortion Compensation J ) Recoater Interference Detection K ) Identification Of High Strain ( Crack ) Locations L ) Input Strain Hardening Factor M ) Import Of Stl Supports N ) Subvoxel Material Density Assignment O ) Layer By Layer Stress, Distortion & Blade Crash Visualizations P ) Build File Readers For Multiple Am Machines Q ) Auto Queue Multiple Successive Simulations R ) Additive Print To Workbench Additive Transfer For Post Processing Additive Morphology A ) Meltpool Dimensions B ) Thermal History C ) % Lack Of Fusion Porosity D ) Ability For Add User-Defined Materials Microstructure Prediction
