Pro/ENGINEER Wildfire 3.0 Curriculum Guide phần 7 ppsx

Surface Modeling with Pro/ENGINEER Wildfire 3.0 Course Code TRN-WBT1832-S Course Length 24 hours Overview In Pro/ENGINEER Wildfire 3.0, you can use surface modeling to create design mod

Surface Modeling with Pro/ENGINEER Wildfire 3.0

Course Code TRN-WBT1832-S

Course Length 24 hours

Overview

In Pro/ENGINEER Wildfire 3.0, you can use surface modeling to create design models with shapes that are too complex for solid features In this course, you learn how to use various techniques to create complex surfaces with tangent and curvature continuities You can then create solids using the surfaces as references You will also learn how to analyze surfaces for quality as well as manipulate surfaces using the various editing tools available in Pro/ENGINEER Wildfire 3.0

After completing this course, you will be well prepared to create complexly shaped design models using surfaces in Pro/ENGINEER Wildfire 3.0

At the end of each day, you use the Pro/FICIENCY skills assessments to reinforce your understanding of the course topics Your instructor utilizes the results from the anonymous skills assessments as the basis for daily review sessions

Prerequisites

• Pro/ENGINEER Wildfire 3.0 Update training

• Introduction to Pro/ENGINEER Wildfire 3.0

Audience

Design engineers, mechanical designers, and industrial designers

Topics

• Creating basic surfaces using techniques such as Extrude, Revolve, Sweeps and Blends

• Understanding the surface modeling workflow

• Creating a network of curves using various techniques such as through points and sketches

• Creating surfaces using a network of curves as boundaries

• Creating surfaces using variable section sweep and swept blend techniques

• Creating surfaces using advanced blend tools such as Section to Surface, Surface to Surface and Tangent to Surface

• Using analysis tools to check for surface quality and potential problems

• Manipulating surfaces using various editing tools such as Extend, Merge, Trim and Offset

• Creating and editing solids using surfaces and quilts

Table of Contents

Module 1 Introduction to Surface Modeling

Module 2 Surface Modeling Workflow

Module 3 Creating Design Frameworks for Surface Models

Module 4 Project I

Module 5 Surface Modeling with Boundaries

Module 6 Surface Modeling with Swept Blends

Module 7 Surface Modeling using Variable Section Sweeps

Module 8 Project II

Module 9 Analyzing Surface Models

Module 10 Manipulating Surfaces

Module 11 Creating Solids using Quilts

Module 12 Project III

Sheetmetal Design using Pro/ENGINEER Wildfire 3.0

Course Code TRN-WBT1848-S

Course Length 16 hours

Overview

Sheetmetal Design using Pro/ENGINEER Wildfire 3.0 is a comprehensive training course that

teaches you how to create sheetmetal parts in Pro/ENGINEER The course builds upon the basic lessons you learned in T1803 - Introduction to Pro/ENGINEER Wildfire 3.0 and serves

as the second stage of learning

In this course, you will learn how to design sheetmetal parts and assemblies, including sheetmetal production drawings All the functions needed to create sheetmetal parts, drawings, and assemblies are covered Upon completion of this course, you will be able to create sheetmetal design models, create the flat state of the model, and document both in production drawings

At the end of each day, you use the Pro/FICIENCY skills assessments to reinforce your understanding of the course topics Your instructor utilizes the results from the anonymous skills assessments as the basis for daily review sessions

Prerequisites

• Successful completion of T1803 - Introduction to Pro/ENGINEER Wildfire 3.0 or

equivalent experience

Audience

This course is intended for design engineers, mechanical designers, and industrial designers People in related roles can also benefit from taking this course

Topics

• 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

Table of Contents

Module 1 Getting Started with Sheetmetal Design

Module 2 Building Sheetmetal Geometry

Module 3 Unbending Sheetmetal Parts

Module 4 Adding Features to Sheetmetal Parts

Module 5 Project Laboratory I

Module 6 Forming Sheetmetal Parts

Module 7 Bending Sheetmetal Parts

Module 8 Documenting and Validating Sheetmetal Design

Module 9 Project Laboratory II

Freeform Surface Modeling using Pro/ENGINEER

Wildfire 3.0

Course Code TRN-WBT1851-S

Course Length 16 Hours

Overview

In Pro/ENGINEER Wildfire 3.0 you can create freeform surface models using the interactive surface design extension (ISDX) modeling environment, often called Freeform Surfacing or Style surfacing The Style tool is a spline-based freeform modeler that enables you to combine the parametric feature-based modeling approach with the unconstrained freeform surface modeling approach This gives you the flexibility to design complex-shaped products in a single modeling environment

In this course, you learn how to use the Style tool to create and manipulate freeform curves, freeform surfaces, freeform surface details, and advanced freeform surface models You also learn how to integrate style features with other parametric features in design models

Pro/FICIENCY assessments will be provided in order for you to assess your understanding of the course materials The assessment results will also identify the class topics that require further review At the end of the class, you will either take an assessment via your PTC University account, or your instructor will provide training on how to do this after the class After completing this course, you will be well prepared to design complex-shaped freeform surface models in Pro/ENGINEER Wildfire 3.0

Prerequisites

• Pro/ENGINEER Wildfire 3.0 Update training

Audience

Design engineers, mechanical designers, industrial designers, and related roles The topics

in this course are also available as Web-based training courses

Topics

• Describing the Style modeling environment

• Creating and editing 2-D, 3-D, and planar style curves

• Analyzing and modifying curve shapes

• Creating style geometry using images, design references, and imported data

• Creating different types of style surfaces such as boundary, loft and blend surfaces

• Creating curves using techniques such as sketching, dropping curves on surfaces, and using the Curve from Surface option

• Manipulating curves and surfaces in complex models

• Creating continuous curves and surfaces

• Integrating freeform style features with other parametric features

• Creating features such as scoops, bulges and recesses using Style

• Overbuilding surfaces using four boundaries

• Creating surfaces using the Create Boundaries technique

Table of Contents

Module 1 Introduction to Freeform Surface Modeling

Module 2 Creating Initial Freeform Geometry

Module 3 Developing Freeform Surface Models

Module 4 Defining Complex Freeform Shapes

Module 5 Creating Smooth Freeform Surface Models

Module 6 Integrating Style Features

Module 7 Creating Detailed and Complex Freeform Models

Module 8 Project

Mechanism Design using Pro/ENGINEER Wildfire 3.0

Course Code TRN-WBT1854-S

Course Length 8 Hours

Overview

This course is designed for experienced users who want to add motion to their products You will focus on learning advanced assembly skills in this comprehensive, hands-on course Topics include creating mechanism connections, configuring the mechanism model, creating

a kinematic analysis, and evaluating results These topics will enable you to simulate the range of motion between components in your moving assemblies, create gear connections that simulate the gear ratios, create cam connections that enable Pro/ENGINEER parts to

“push” other parts they come into contact with, and check for collisions between moving components Furthermore, you learn about how you can use Design Animation to animate your product, how you can use Mechanism Dynamics to simulate reaction forces between components, and how you can use Behavioral Modeling to optimize your mechanism

After completing this course, you will be prepared to work on mechanism designs using Pro/ENGINEER Wildfire Mechanism Design

Pro/FICIENCY assessments will be provided in order for you to assess your understanding of the course materials The assessment results will also identify the class topics that require further review At the end of the class, you will either take an assessment via your PTC University account, or your instructor will provide training on how to do this after the class

Prerequisites

• Introduction to Pro/ENGINEER Wildfire 3.0 or equivalent experience

Audience

This course is intended for product designers People in related roles will also benefit from taking this course

Topics

• Identifying Differences between Mechanism Design Extension and Mechanism Dynamics Option

• Creating Bodies

• Creating Mechanism Connections in Pro/ENGINEER

• Creating Cam-Follower and Gear Pair Connections

• Applying Servo Motors to Assemblies

• Creating Position Analyses

• Creating Kinematic Analyses

• Evaluating Results

• Creating Trace Curves and Motion Envelopes

Table of Contents

Module 1 Introduction to Mechanism Design

Module 2 Creating Mechanism Connections

Module 3 Configuring the Mechanism Model and Analysis

Module 4 Evaluating Results, Animating, and Optimizing the Mechanism

Module 5 Project

Mechanism Simulation using Pro/ENGINEER Wildfire 3.0

Course Code TRN-WBT1855-S

Course Length 8 Hours

Overview

This course is designed for experienced users who want to add motion to their products and analyze dynamic reactions of moving components You will focus on learning advanced modeling and analysis skills in this comprehensive, hands-on course Topics include developing the 3-D model, analyzing the mechanism model, and evaluating results These topics will enable you to measure dynamic reactions of components, measure the force required to keep a mechanism balanced, and determine the resting state of a mechanism After completing this course, you will be prepared to work on mechanism designs using Pro/ENGINEER Wildfire Mechanism Dynamics Option

Prerequisites

• Introduction to Pro/ENGINEER Wildfire 3.0 or equivalent experience

• Mechanism Design using Pro/ENGINEER Wildfire 3.0 or equivalent experience with

creating mechanism joint and cam connections

Audience

This course is intended for product designers People in related roles will also benefit from taking this course

Topics

• Identifying Differences between Mechanism Design Extension and Mechanism Dynamics Option

• Applying Motors, Springs, and Dampers to Assemblies

• Applying Forces, Torques, and Gravity to Assemblies

• Creating Dynamic Analyses

• Creating Force Balance Analyses

• Creating Static Analyses

• Measuring Forces, Velocities, Accelerations, and Other Reactions on Assemblies

• Evaluating Results

Table of Contents

Module 1 Introduction to Mechanism Dynamics

Module 2 Developing the 3-D Model

Module 3 Analyzing the Mechanism Model

Module 4 Evaluating Results

Module 5 Project

Mold Design using Pro/ENGINEER Wildfire 3.0

Course Code TRN-WBT1890-S

Course Length 16 Hours

Overview

Pro/MOLDESIGN provides the tools to create a mold model from start to finish by using the mold design process within Pro/ENGINEER Wildfire 3.0

In this course, you learn how to create, modify, and analyze mold components and assemblies Any changes made to the design model automatically propagate to the mold components and assemblies You learn how to create final extract components that reflect the geometry of the design model, along with shrinkage considerations, adequate drafting, mold features, and cooling systems

You apply the concepts and techniques that you learn in the course to complete a mold design project

There is an optional appendix where you use mold layout to assemble a vendor mold base and create ejector pins

Pro/FICIENCY assessments are provided for you to assess your understanding of the course materials The assessment results also identify the class topics that require further review

At the end of the class, you will either take an assessment via your PTC University account,

or your instructor will provide training on how to do this after the class

After completing the course, you will have a better understanding of the mold design process and how to create molded products by using the mold design process

Prerequisites

• Introduction to Pro/ENGINEER Wildfire 3.0

• Basic understanding of industry standard Mold design terminology and processes

Audience

This course is intended for designers, machinists, and manufacturing engineers The topics

in this course are also available as Web-based training courses

Topics

• Introduction to Mold Design

• Analyzing Design Models

• Creating Mold Models

• Creating Sliders

• Creating Parting Surfaces

• Creating Mold Components

• Creating Mold Features

• Filling and Opening the Mold

• Using Mold Layout