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Provided by: R&D Technologies, Inc. Cosmos DesignerProfessionalSolidworks |
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Training
Provided by R&D Technologies, Inc.
Offers comprehensive hands-on training on the applications of CosmosWorks. The class discusses linear stress analysis, gap/contact analysis and best practices.
Covered:
Theory & Background, Static, Buckling, Thermal, Frequency Studies
COSMOSWorks is a powerful, easy-to-use design validation and optimization software fully embedded within SolidWorks mechanical CAD software. There are several COSMOSWorks products to choose from. COSMOSWorks Designer is included with SolidWorks Office Premium.
Covered:
Theory & Background, Static, Buckling, Thermal, Frequency Studies
COSMOSWorks is a powerful, easy-to-use design validation and optimization software fully embedded within SolidWorks mechanical CAD software. There are several COSMOSWorks products to choose from. COSMOSWorks Designer is included with SolidWorks Office Premium.
Related Software Programs or Products: Cosmos Designer, Cosmor Professional, SolidWorks Design Validation
Related Awards, Degrees or Certifications: CSWP Cosmos
Related Jobs or Careers: Cosmos, Design Validation
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Cosmos DesignerProfessional
DESIGNER PORTION:
Lesson 1:
Static Analysis of a Rectangular Plate with a Hole
COSMOSWorks Options
Preprocessing
Meshing
Postprocessing
Multiple Studies
Lesson 2:
Static Analysis of an L-Bracket
Analysis without a Fillet
Mesh Controls
Local Mesh Refinement
Analysis with a Fillet
Lesson 3:
Contact/Gap Analysis of Pliers
Pliers with Global Contact
Applying Materials to Assemblies
Pin Connectors
Pliers with Local Contact
Component Contact Options
Lesson 4:
Shrink Fit Analysis of a Wheel Assembly
Shrink Fit Analysis
Shrink Fit Contact Condition
Plot Results in Polar Coordinate System
Local Contact Conditions
Analysis with Soft Springs
Lesson 5:
Static Analysis of a Cardan Joint
Draft Quality Coarse Mesh Analysis
Bolt Connector
Remote Load
Gap / Clearance Option
High Quality Mesh Analysis
Lesson 6:
Connectors, Special Supports and Contacts
Spring Connectors
Calculate Compressive Spring Stiffness
Analyze a Shock Absorber Assembly
Using Spot Welds
Lesson 7:
Incompatible Meshing
Mixed Meshing
Compatible / Incompatible Meshing Types
Lesson 8:
Shell Analysis of a Pulley
Model Preparation
Shell Mesh using surfaces
Shell Element vs. Solid Element Modeling
Lesson 9:
Mixed Meshing of a Pressure Vessel Assembly
Steel Materials
Bonding Mixed mesh Assemblies
Lesson 10:
Vehicle Suspension Analysis and Using Design Scenarios
Multiple Load Cases
Geometry Modification
Analysis of a Platform
Limitations of Linear Analysis
Lesson 11:
Static Analysis of a Support Bracket
Geometry Preparation
h-Adaptivity Study
p-Adaptivity Study
h vs. p Elements
Lesson 12:
Thermal Stress Analysis of a Bimetal Strip
Deformation of a Bimetal Assembly
Importing Temperatures from COSMOSWorks or FloWorks study
Saving a Model in its Deformed Shape
Lesson 13:
Beam Elements-Static Analysis of a Conveyor Frame
Beam Elements
Beam Joint Types
Beam Joint Locations
Lesson 14:
Large Displacement-Analysis of a Clamp
Small vs. Large Displacement Analysis
Small Displacement: Linear Analysis
Large Displacement: Nonlinear Analysis
Contact solution in Small and Large Displacement Analyses
Permanent Deformation
PROFESSIONAL PORTION
Lesson 1:
Frequency Analysis of a Tuning Fork
Modal analysis Basics
Frequency analysis with supports
Frequency analysis without supports
Lesson 2:
Frequency analysis of a Blower Fan
Frequency Analysis with a Load
Frequency Analysis without a load
Lesson 3:
Frequency Analysis of an Assembly
Pliers with Global Contact
Applying Materials to Assemblies
Pin Connectors
Pliers with Local Contact
Component Contact Options
Lesson 4:
Buckling Analysis of a Cabinet
Buckling analysis basics
Linear vs. non-linear buckling
Calculating Buckling Loads
Lesson 5:
Thermal Analysis of a Microchip Assembly
Thermal Analysis Basics
Mechanism of Heat Transfer
Remote Load
Steady State Thermal Analysis
Transient Thermal Analysis
Transient Thermal Analysis with Time Varying Load
Lesson 6:
Thermal Analysis of a Spot Light Assembly
Steady State analysis
Heat Flux Singularities
Lesson 7:
Thermal Stress Analysis of a Microchip Testing Device
Prescribed Temperature Conditions
Meshing considerations in Thermal Analysis
Thermal Stress Analysis Basics
Lesson 8:
Drop Test of a Camera
Drop Test Parameters
Solutions Parameters
Linear vs. Non-Linear Solution
Lesson 9:
Optimization Analysis of a Press Frame Assembly
Optimization Parameters
Objectives
Constraint Definition Procedures
Lesson 10:
Fatigue Analysis of a Pressure Vessel
Stress Life (S-N) based Fatigue
Fatigue Loading
Lesson 11:
Fatigue Analysis of an Automobile Suspension
Variable Amplitude Fatigue Event
Rainflow Cycle Counting Method
Lesson 1:
Static Analysis of a Rectangular Plate with a Hole
COSMOSWorks Options
Preprocessing
Meshing
Postprocessing
Multiple Studies
Lesson 2:
Static Analysis of an L-Bracket
Analysis without a Fillet
Mesh Controls
Local Mesh Refinement
Analysis with a Fillet
Lesson 3:
Contact/Gap Analysis of Pliers
Pliers with Global Contact
Applying Materials to Assemblies
Pin Connectors
Pliers with Local Contact
Component Contact Options
Lesson 4:
Shrink Fit Analysis of a Wheel Assembly
Shrink Fit Analysis
Shrink Fit Contact Condition
Plot Results in Polar Coordinate System
Local Contact Conditions
Analysis with Soft Springs
Lesson 5:
Static Analysis of a Cardan Joint
Draft Quality Coarse Mesh Analysis
Bolt Connector
Remote Load
Gap / Clearance Option
High Quality Mesh Analysis
Lesson 6:
Connectors, Special Supports and Contacts
Spring Connectors
Calculate Compressive Spring Stiffness
Analyze a Shock Absorber Assembly
Using Spot Welds
Lesson 7:
Incompatible Meshing
Mixed Meshing
Compatible / Incompatible Meshing Types
Lesson 8:
Shell Analysis of a Pulley
Model Preparation
Shell Mesh using surfaces
Shell Element vs. Solid Element Modeling
Lesson 9:
Mixed Meshing of a Pressure Vessel Assembly
Steel Materials
Bonding Mixed mesh Assemblies
Lesson 10:
Vehicle Suspension Analysis and Using Design Scenarios
Multiple Load Cases
Geometry Modification
Analysis of a Platform
Limitations of Linear Analysis
Lesson 11:
Static Analysis of a Support Bracket
Geometry Preparation
h-Adaptivity Study
p-Adaptivity Study
h vs. p Elements
Lesson 12:
Thermal Stress Analysis of a Bimetal Strip
Deformation of a Bimetal Assembly
Importing Temperatures from COSMOSWorks or FloWorks study
Saving a Model in its Deformed Shape
Lesson 13:
Beam Elements-Static Analysis of a Conveyor Frame
Beam Elements
Beam Joint Types
Beam Joint Locations
Lesson 14:
Large Displacement-Analysis of a Clamp
Small vs. Large Displacement Analysis
Small Displacement: Linear Analysis
Large Displacement: Nonlinear Analysis
Contact solution in Small and Large Displacement Analyses
Permanent Deformation
PROFESSIONAL PORTION
Lesson 1:
Frequency Analysis of a Tuning Fork
Modal analysis Basics
Frequency analysis with supports
Frequency analysis without supports
Lesson 2:
Frequency analysis of a Blower Fan
Frequency Analysis with a Load
Frequency Analysis without a load
Lesson 3:
Frequency Analysis of an Assembly
Pliers with Global Contact
Applying Materials to Assemblies
Pin Connectors
Pliers with Local Contact
Component Contact Options
Lesson 4:
Buckling Analysis of a Cabinet
Buckling analysis basics
Linear vs. non-linear buckling
Calculating Buckling Loads
Lesson 5:
Thermal Analysis of a Microchip Assembly
Thermal Analysis Basics
Mechanism of Heat Transfer
Remote Load
Steady State Thermal Analysis
Transient Thermal Analysis
Transient Thermal Analysis with Time Varying Load
Lesson 6:
Thermal Analysis of a Spot Light Assembly
Steady State analysis
Heat Flux Singularities
Lesson 7:
Thermal Stress Analysis of a Microchip Testing Device
Prescribed Temperature Conditions
Meshing considerations in Thermal Analysis
Thermal Stress Analysis Basics
Lesson 8:
Drop Test of a Camera
Drop Test Parameters
Solutions Parameters
Linear vs. Non-Linear Solution
Lesson 9:
Optimization Analysis of a Press Frame Assembly
Optimization Parameters
Objectives
Constraint Definition Procedures
Lesson 10:
Fatigue Analysis of a Pressure Vessel
Stress Life (S-N) based Fatigue
Fatigue Loading
Lesson 11:
Fatigue Analysis of an Automobile Suspension
Variable Amplitude Fatigue Event
Rainflow Cycle Counting Method
About The Training Provider: R&D Technologies, Inc.
R&D Technologies, Inc. - R & D Technologies is a licensed SolidWorks value added reseller providing both support and training in Rhode Island, Massachusetts and Connecticut. SolidWorks is an industry standard in the 3-D solid modeling arena. We provide a variety of training courses in SolidWorks, Cosmos Design Validation and PDMWorks and are now in the process of adding SolidCAM classes to our schedule. We have...
