Objectives of Module 01

Orienting Design Models

Selecting and Manipulating Components

Creating Holes

Creating Rounds and Chamfers

Creating Ribs and Shells

Pro/ENGINEER Wildfire Update Pro/ENGINEER Wildfire Update TrainingTraining

• Opening and Orienting Design Models

• Modifying Design Models• Creating Direct Features• Creating Sketch-based

Features• Creating Datum Features • Editing Geometry • Managing Design Models • Creating and Modifying

Assemblies • Creating and Modifying

Drawings

Fast Track to Pro/ENGINEER WildfireFast Track to Pro/ENGINEER Wildfire

• Creating New Design Models • Editing Design Models • Creating Reference Geometry • Creating Direct Features • Capturing Sketched Design Intent • Creating Sketch-based Features • Duplicating Design Model Features • Working with Design Variations • Assembling and Managing

Components • Creating Mechanism Connections

in Assemblies • Creating Drawings • Resolving Regeneration Failures • Analyzing Design Models • Comprehensive Design Project

Advanced Modeling with Advanced Modeling with Pro/ENGINEER WildfirePro/ENGINEER Wildfire

• Creating Advanced Sketch-based Features • Re-using Model Features • Editing Geometry with Surfaces and Curves • Analyzing and Optimizing Design Models Against Design

Specifications • Creating Animation Sequences • Analyzing and Optimizing Motion in Design Models • Collaborating with Other Designers

Designing Sheetmetal Products with Designing Sheetmetal Products with Pro/ENGINEER WildfirePro/ENGINEER Wildfire

• Sheetmetal Part Construction Philosophy • Sheetmetal Construction Features • Setting up the Sheetmetal Design Environment • Bend Tables, Start Parts, and Templates • Documenting Bend Order Sequences with

Bend Order Tables • Generating Flat State Models for

Manufacturing • Sheetmetal Drawings • Converting Solid Parts to Sheetmetal Parts • Application of User-Defined Features in

Sheetmetal Design • Sheetmetal Information Tools

Advanced Assembly Management with Advanced Assembly Management with Pro/ENGINEER WildfirePro/ENGINEER Wildfire

• Creating Design Frameworks • Communicating Design Information • Analyzing and Modifying Assembly

Structures • Managing Complex Parts • Creating Simplified

Representations • Replacing and Substituting

Components • Modifying Simplified

Representations • Managing Complex Drawings • Advanced Project Lab

Advance Surface Modeling with Advance Surface Modeling with Pro/ENGINEER WildfirePro/ENGINEER Wildfire

• Overview of Surface Modeling Techniques • Planning a Surface Model • Laying the Foundation: Curves and Points • Using References to Create Surface

Models • Creating Parametric and Freeform Surface

Models • Manipulating Surfaces, Quilts, and

Surface Models • Creating Continuous Surface Models • Evaluating Surfaces and Surface Models • Using Surfaces to Redefine Solid Models • Handling Complex Modeling Situations • Thickening Surface Models

Creating Production Drawings with Creating Production Drawings with Pro/ENGINEER WildfirePro/ENGINEER Wildfire

• Creating Views of Parts, Assemblies, and Multiple Models on Drawings

• Creating Dimensions and Notes • Applying Linear and Geometric Tolerances in Drawings • Documenting Family Tables on Drawings

and Creating Parts Catalogs• Adding 2-D Drafting Symbols to Drawings • Creating Drawing Templates and Standards • Creating Drawing Tables and Bills of Material • Controlling Display Options using Layers • Creating and Editing Drawing Formats • Managing Large Drawings

Creating Milling Sequences with Creating Milling Sequences with Pro/ENGINEER WildfirePro/ENGINEER Wildfire

• Overview of the Manufacturing Process • Configuring the Manufacturing

Environment • Setting up Tools • Setting up and Using Manufacturing

Parameters • Creating and Modifying Milling

Sequences • Creating and Modifying Hole-making

Sequences • Using Index Tables and Duplicating NC

Sequences • Correcting NC Sequence Failures • Post-Processing CL Data

Structural and Thermal Simulation with Structural and Thermal Simulation with Pro/ENGINEER WildfirePro/ENGINEER Wildfire

• Simulating Mechanical and Thermal Loads in Machine Parts

• Introduction to the Mechanica Simulation Process • Modeling Geometry, Material Properties, Loads, and

Constraints • Running Static, Modal, and Thermal Analyses • Reviewing and Interpreting Results • Assigning Design Variables • Running Design Sensitivity and Optimization Analyses • Simulating Contact, Buckling, and Pre-Stress Analyses • Best Practices for Simulating Mechanical and Thermal

Loads in Machine Parts

Creating 2-D Schematics with Routed Systems Creating 2-D Schematics with Routed Systems DesignerDesigner

• Overview of the 2-D Schematic Design Process • Setting up the Design • Setting up the Catalog Library • Creating Block Diagrams • Creating Circuit Diagrams • Creating Wiring Diagrams • Creating Process and Instrumentation

Diagrams (P& ID) • Communicating Diagram Information to

Pro/ENGINEER Wildfire • Creating Reports and Other Information

Modeling 3-D Wire Harnesses with Modeling 3-D Wire Harnesses with Pro/ENGINEER WildfirePro/ENGINEER Wildfire

• Overview of the RSD 2-D Schematic Process

• Overview of the 3-D Electrical Cabling Design Process

• Composing Cabling Assemblies • Creating 3-D Harness Designs • Creating Flattened Harnesses for

Manufacturing • Composing Drawings• Creating Harness Drawings

Modeling 3-D Piping Designs with Pro/ENGINEER Modeling 3-D Piping Designs with Pro/ENGINEER WildfireWildfire

• Overview of the RSD 2-D Schematic Process • Overview of the 3-D Piping Design Process • Composing 3-D Piping • Creating Specification Driven Industrial 3-D Piping Designs • Creating Non-Specification Driven Mechanical

3-D Piping Designs • Composing Drawings • Creating Piping Drawings• Generating Isometric Information (ISOGEN)

• Solid Modeling• Feature Based• Parametric• Parent / Child Relationships• Associative• Model Centric

Pro/ENGINEER Wildfire 3.0 Core Concepts

Solid Modeling

Pro/ENGINEER Wildfire 3.0 allows you to easily create 3D solid models, enabling you to visualize parts and assemblies with a realistic appearance. Based on material properties such as density, these models have mass, volume, surface area and other physical properties such as a center ofgravity.

Feature Based

Pro/ENGINEER Wildfire 3.0 models are constructed using a series of features. Each feature builds upon the previous feature, creating the model one feature at a time. Individually each feature can be simple, butcollectively can form complex parts and assemblies.

Parametric

Pro/ENGINEER Wildfire 3.0 models are driven using dimension values. If a dimension of a feature is changed, that solid feature will update. This change will then automatically propagate through the remaining features inthe model, updating the entire part.

Parent/Child Relationships

Parent/Child relationships provide a powerful way to capture your "design intent" into a model. Parent/Child relationships are naturally created between features during the modeling process. When creating a feature, existing features that arereferenced become parents to the new feature. Also, if the parent features are updated, the child features will automatically update accordingly

Associative & Model Centric

If a part model is changed in Pro/E, any assemblies or drawings that reference that model will automatically update. This behavior is known as Associativity and also works in reverse- if a model dimension in a drawing is updated, the part model and the assembly it is used in will update.

Prompt Message Window Command

Description

RightTools

Extrude Tool