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ISE provides Geometric Dimensioning and Tolerancing training based on ASME Y14.5- 2009. GD&T is a quality control method for primary-generated three-dimensional solid models that explicitly describes nominal geometry and its allowable variation. It is an international code used by people who design tools and parts, to tell machinists and manufacturers what the proper dimensions of a given part must be. GD&T is used to define the nominal (theoretically perfect) geometry of parts and assemblies, to define the allowable variation in form and possible size of individual features, and to define the allowable variation between features.

Topics include:

• Symbols and Terms
• Limits of Size
• How the Geometric System Works
• Position Verification
• Product Plans and Virtual Condition
• The Datum Reference Frame
• Datum Feature Modifiers
• Forum Tolerances
• Orientation Tolerances
• Profile Tolerances
• Position Tolerances
• Coaxial Tolerances
• Fastener Formulas and Screw Threads
• Boundaries

Prerequisites:
Experience in mechanical design and drawing production is recommended.

ISE provides Geometric Dimensioning and Tolerancing training based on ASME Y14.5- 2009. GD&T is a quality control method for primary-generated three-dimensional solid models that explicitly describes nominal geometry and its allowable variation. It is an international code used by people who design tools and parts, to tell machinists and manufacturers what the proper dimensions of a given part must be. GD&T is used to define the nominal (theoretically perfect) geometry of parts and assemblies, to define the allowable variation in form and possible size of individual features, and to define the allowable variation between features.

Topics include:

• Symbols and Terms
• Limits of Size
• How the Geometric System Works
• Position Verification
• Product Plans and Virtual Condition
• The Datum Reference Frame
• Datum Feature Modifiers
• Forum Tolerances
• Orientation Tolerances
• Profile Tolerances
• Position Tolerances
• Coaxial Tolerances
• Fastener Formulas and Screw Threads
• Boundaries

Prerequisites:
Experience in mechanical design and drawing production is recommended.

As an experienced user in the basics of Creo Parametric, this training guide enables you to become more productive by extending your modeling abilities with advanced functionality and techniques. This extensive hands-on training guide contains numerous labs and exercises to give you practical experience so that you can improve your job performance.

Topics include:

•  Advanced datum features
•  Advanced sweeps
•  Blends and swept blends
•  Designing with rounds
•  Advanced round functionality
•  Drafts
•  Basic surface design
•  Part family tables
•  Advanced feature duplication
•  User-defined features (UDFs)
•  Date sharing
•  Resolving failed features
•  View Manager
•  Automation (appendix)

Prerequisites:
Minimum of 80 hours of Creo Parametric experience is recommended.

Understand the full assembly functionality of the Creo Parametric software while concentrating on techniques that maximize large assembly management capabilities as well as an introduction to Top Down Design. The Creo Parametric 3.0: Advanced Assembly Design and Management is a hands-on student guide with a substantial amount of time dedicated to exercises.

Topics Covered:

• Advanced Component Selection and Placement
• Top Down Design
• Managing External References
• Assembly Management
• Skeleton and Motion Skeleton Models
• Assembly Duplication Tools
• Assembly Family Tables
• Display Styles, Layers and Suppression
• Restructure
• Intelligent Fasteners Lite
• Creating Parts and Features in an Assembly
• Merge and Cut Out, Intersections
• Copy Geometry Features
• Inheritance Features
• Simplified Representations
• Interchange Assemblies

Prerequisites: Creo Parametric assembly experience

This student guide covers the fundamentals of Creo Simulate: Structural and Thermal Analysis. It provides you with the knowledge of effectively using Creo Simulate for the finite element analysis, thereby reducing design time. Many concepts apply both structure and thermal analysis; a portion of this guide is specifically dedicated to thermal analysis. This is an extensive hands-on training guide, in which you have the opportunity to apply your knowledge through real-world scenarios and examples.

Topics Covered:

• FEA Fundamentals: P-elements and analysis convergence methods
• Basic Modeling and Analysis
• Types of Loads and Constraints
• Idealizations: Shells and Beams
• Sensitivity and Optimization Studies
• Assembly Interfaces and Contact Analysis
• Thermal Analysis
• Modal Analysis
• Welds, Springs, and Masses
• Fasteners and Rigid Links
• Buckling Analysis

Prerequisites: Experience in Creo Parametric Required

The Creo Parametric: Behavioral Modeling student guide introduces the analysis tools available in the Behavioral Modeling Extension (BMX) for establishing and analyzing design goals. You will learn how to create analysis features and sensitivity and feasibility studies. Behavioral Modeling provides the ability to automatically change dimensions and parameters to meet specific design goals.

Course topics:

Prerequisites:
Creo Solid Modeling experience. Experience with MS Excel and Creo Mechanism Design is useful, but not required..

Learn the process of designing models with Creo Parametric  from 2D sketching, through to solid part modeling, assembly creation, and drawing production. Gain an understanding of the design philosophy of Creo Parametric 2.0 through this extensive hands-on course with numerous practice exercises. It is expected that all new users of Creo Parametric 2.0 will require this course.

Topics include:

•  Creo Parametric fundamentals and interface
•  Principles behind design intent
•  Manipulating a model
•  Creo Parametric file management
•  Part creation and modification
•  Sketching and creating geometry
•  Sketcher mode functionality (sketching and dimensioning)
•  Datum features
•  Duplication techniques (patterns, mirroring)
•  Creating relations to capture design intent
•  Creo Parametric customization
•  Design documentation and detailing
•  Feature management
•  Sweeps and blends
•  Assembly creation and manipulation
•  Parent/Child relationships in Creo Parametric models
•  Model Analysis
•  Feature failure resolution
•  Effective modeling techniques

Prerequisites:
Experience in mechanical design and drawing production is recommended.

This student guide covers the fundamentals of Mathcad. This is an extensive hands-on training guide, in which you have the opportunity to apply your knowledge through real-world scenarios and examples.

Topics Covered:

• Open and save Mathcad files
• Navigate the Mathcad workspace
• Identify and format math and text regions
• Develop and edit math expressions
• Define, evaluate, and use variables
• Assign an expression retroactively
• Define and evaluate user-defined and built-in functions
• Define, evaluate, and use range variables
• Use units in calculations
• Plot 2-D and 3-D graphs
• Solve for the roots of a function with a single independent variable
• Symbolically solve equations
• Numerically solve a system of linear and nonlinear equations
• Solve unconstrained and constrained optimization problems
• Solve ordinary differential equations
• Create a program within the Mathcad worksheet using Mathcads programming features
• Import and export data
• Smooth, interpolate, and regress data.

Prerequisites: Creo Parametric experience required

This student guide covers the fundamentals of Mathcad. This is an extensive hands-on training guide, in which you have the opportunity to apply your knowledge through real-world scenarios and examples.

Topics Covered:

• Open and save Mathcad files
• Navigate the Mathcad workspace
• Identify and format math and text regions
• Develop and edit math expressions
• Define, evaluate, and use variables
• Assign an expression retroactively
• Define and evaluate user-defined and built-in functions
• Define, evaluate, and use range variables
• Use units in calculations
• Plot 2-D and 3-D graphs
• Solve for the roots of a function with a single independent variable
• Symbolically solve equations
• Numerically solve a system of linear and nonlinear equations
• Solve unconstrained and constrained optimization problems
• Solve ordinary differential equations
• Create a program within the Mathcad worksheet using Mathcads programming features
• Import and export data
• Smooth, interpolate, and regress data.

Prerequisites: Creo Parametric experience required