Smart Mechanical Components

What's New

Smart Mechanical Components Basics

Related Guides and Resources

Smart Mechanical Components Access to Content

Customizing Preferences

Offline Mode

User Interface

Action Bar

Component Use Section

Component Definition Section

Geometry Section

View Section

Tools Section

Action Pad

Context Toolbars

Customizing the Context Toolbar

Predefined Queries

Introductory Concepts

About Component Specifications

About Place Components

About Adaptive Components

About Adaptive Systems

About Technological Impacts

Tutorial - Component Placement

Defining a Component from an Assembly

Defining a Cap Screw

Defining Component Specifications

Placing Components

Defining Impacts

Working with Smart Mechanical Components

Adding Content

Managing the Display of Plates

Creating Component Specifications

Defining Component Specifications

Defining Input Patterns

Placing Components

Using V5 Tooling Components

Creating and Using a Component Family

Reconnecting Adaptive Components in the Context

Inserting an Adaptive System

Moving Components

Defining Technological Impacts of a Component on Its Environment

Creating Technological Impacts on Representations

Managing Technological Results to Improve Performances

Deleting Technological Impacts

Cutting Components

Removing Components

Creating Engineering Constraints

Working with Mechanical Interfaces

Creating a Mechanical Interface

Instantiating Mechanical Interface Template

Instantiating Mechanical Interface Template Automatically

Querying a Mechanical Interface

Mechanical Interface Assistant

About the Mechanical Interface Assistant

Analyzing Mechanical Interfaces in an Assembly Context

Working with Functional Surfaces

Creating a Basic Functional Surface

Instantiating a Functional Surface Template

Instantiating a Functional Surface Template Automatically

Creating Geometrical Elements

About Geometry Extraction

About Mirror Features

Creating Points

Creating a Point Using Coordinates

Creating a Point on a Curve

Creating a Point on a Plane

Creating a Point on a Surface

Creating a Point Using the Center of a Circle/Sphere/Ellipse

Creating a Point Tangent on a Curve

Creating a Point Between Two Points

Creating Lines

Creating a Line Between Two Points

Creating a Line Using a Point and a Direction

Creating a Line Normal to a Curve

Creating a Line Tangent to a Curve

Creating a Line Normal to a Surface

Creating a Line at the Bisection of Two Lines

Creating Polylines

Creating Splines

Creating Planes

Creating a Plane Offset From another Plane

Creating a Plane Parallel to a Plane and through a Point

Creating a Plane Normal to another Plane

Creating a Plane Through Three Points

Creating a Plane Through Two Lines

Creating a Plane Through a Point and a Line

Creating a Plane Through a Planar Curve

Creating a Plane Normal to a Curve

Creating a Plane Tangent to a Surface

Creating a Plane Using an Equation

Creating a Mean Plane Through Points

Creating a Plane Between two Planes

Defining an Axis System

Extracting Elements

Joining Curves or Surfaces

Creating Projections

Creating Pads

Creating Basic Draft Features

Creating Edge Fillets

Creating Mirror Features

Creating Symmetries

Reference Information

Smart Mechanical Components and Mold Tooling Design File-based Design Import

Smart Mechanical Components and Mold Tooling Design Database Design Import

Design Range Management

Polyhedral Geometry in Smart Mechanical Components

Administration: Preparing Resources Smart Mechanical Components and Mold Tooling Designfor

Preparation Concepts

About Smart Mechanical Components Default Catalogs

About Components with a Type

About Defining Screws and Nuts

About Structured Components

Defining Components

Editing the Dimension Properties of Components