Parametric Modeling Introduction PDF

Summary

This document provides an introduction to parametric modeling, explaining its core concepts and benefits over traditional 2D design. It also explores different software options commonly used for such tasks.

Full Transcript

Unit – I
IN TR O D U CTIO N
1.1 Parametric Modelling
Parametric is a term used to describe a dimension’s ability to change the shape of model
geometry as soon as the dimension value is modified. It eliminates the need for a design engineer to
constantly redraw a design every time one of the design’s dimensions change. Feature-based is a
term used to describe the various components of a model. For example, a part can consists of various
types of features such as holes, grooves, fillets, and chamfers. A ‘feature’ is the basic unit of a
parametric solid model.

Parametric modelling uses the computer to design objects with real world behaviour.
Parametric models use feature-based, solid and surface modelling design tools to manipulate the
system attributes. One of the most important features of parametric modelling is that attributes that
are interlinked automatically change their features. For example, to modify a 3D solid, the designer
had to change the length, the breadth and the height. However, with parametric modelling, the
designer need only alter one parameter; the other two parameters get adjusted automatically.

There are two popular parametric representation models :
1) Constructive Solid Geometry (CSG) : CSG defines a model in terms of combining basic
(primitive) and generated (using extrusion and sweeping operation) solid shapes. It uses Boolean
operations to construct a model. CSG is a combination of 3D solid primitives (for example a
cylinder, cone, prism, rectangle or sphere) that are then manipulated using simple Boolean
operations.
2) Boundary Representation (BR) : In BR, a solid model is formed by defining the surfaces that
form its spatial boundaries (points, edges, etc.) The object is then made by joining these spatial
points. Many Finite Element Method (FEM) programs use this method, as it allows the interior
meshing of the volume to be more easily controlled.

Advantages of parametric modelling
The following are the benefits of 3D parametric modelling over traditional 2D drawings:
è Capability to produce flexible designs
è 3D solid models offer a vast range of ways to view the model
è Better product visualization, as you can begin with simple objects with minimal details
è Better integration with downstream applications and reduced engineering cycle time
è Existing design data can be reused to create new designs
è Quick design improvement, increasing efficiency

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1.2 Parametric modelling softwares
There are many software choices available in the market today for parametric modelling. A few
of the leading industry softwares are :

1) SOLIDWORKS
SOLIDWORKS is a parametric modelling software owned by Dassault Systemes. It
is more popular with engineers as it can easily create electrical, mechanical and
automotive components.

Key functions and use :
è It comes with numerous tools for planning, fabrication, simulations and validation.
è In addition to parametric modelling, it also combines CADD (Computer-aided design and
drafting), CAM (Computer-aided manufacturing) and CAE (Computer-aided engineering)
systems.
è The model can be used to estimate cost and manufacturability checks.
è With SOLIDWORKS, any advanced designs, from product to mechanical to parametric
architecture, can be efficiently planned and created.

2) CATIA
CATIA (Computer Aided Three-Dimensional Interactive Application) is also owned
by Dassault Systèmes. It is widely used for product design, as parametric modelling
software and also PLM (Product Lifecycle Management) software. Its is effectively
used in the automotive and aeronautics industries.

Key functions and use :
è CATIA combines shape sculpting modelling (control-points manipulation) with parametric
associativity. This enables designers to explore more design ideas and make relevant changes
efficiently.
è CATIA can also create and animate virtual human models for better simulation and validation
of the product according to user requirements and experience. This is an advantage, especially
in the automotive industry where human avatars are needed for ergonomics and safety checks.
è This software allows users to venture into virtual reality.
è The Collaborate Designer feature also enables creating and visualising linear infrastructures,
electrical, piping and mechanical components.

3) Siemens NX (Unigraphics)
NX is an advanced high-end CAD/CAM/CAE software owned by Siemens Digital
Industries Software. Siemens NX software is a flexible and powerful integrated
solution that helps you deliver better products faster and more efficiently. NX
delivers the next generation of design, simulation, and manufacturing solutions that enable companies
to realize the value of the digital twin.

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Key functions and use :
è Supports every aspect of product development, from concept design through engineering and
manufacturing.
è NX gives an integrated toolset that coordinates disciplines, preserves data integrity and design
intent, and streamlines the entire process.
è It is used for design (parametric and direct solid/surface modelling), engineering analysis (static,
dynamic, electro-magnetic, thermal, and fluid dynamics), manufacturing finished design by using
included machining modules.

4) Creo Parametric (Pro-Engineer)
This is a 3D CAD parametric modelling software owned by PTC Inc. (Parametric
Technology Corporation). It provides digital solutions to engineering,
manufacturing and industrial services.

Key functions and use :
è The 3D design in Creo is aided by parametric and freestyle surfacing features as well as CAM
and Generative design. These features allow curves and surface manipulation by transforming,
scaling, stretching, tapering the geometry etc.
è The 3D parts and their assembly are created with precise geometry, regardless of the complexity,
for efficiency, time and cost-effectiveness. These models can then be accessed for both static and
dynamic interference detection.
è As Creo Parametric is heavily focused on mechanical and product design, its design capabilities
also aid in such design projects. Sheet metal design, piping and cabling designs are all feasible
with Creo with its modelling and analysis capabilities.

5) Fusion 360
Fusion 360 is an Autodesk cloud-based 3D modelling software that integrates
CAD, CAM and PCB (Printed circuit board) features for product design and
manufacturing.

Key functions and use :
è As a 3D modelling software, it comprehensively includes both parametric and non-parametric,
or direct, mesh and surface modelling tools. Therefore the user can choose what to work on
based on the need and the skill of the user.
è As it is also cloud-based, Fusion 360 allows a design team to centralise all activities and
communicate effectively in real-time.
è The software also includes electronics and PCB design tools for powerful product modelling.

6) Autodesk Inventor
Inventor is used as a parametric modelling and CAD software mainly for
mechanical designs. It has an intuitive user interface and is capable of direct,
free-form and rules-based design, in addition to parametric modelling.
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Key functions and use :
è Inventor tests the combination of the design by accessing the fit and function and identifying
interference patterns before rendering, documentation and planning for manufacturing processes
can begin.
è Components can be easily placed and assembled with a list of commands available.
è It also supports inserting third party design components and models directly into the assembly.

1.3 Starting SOLIDWORKS application
The SOLIDWORKS software can be started by
è Clicking in Windows Start Menu

è Double clicking icon on the Desktop
The SOLIDWORKS Welcome dialog box is displayed by default. To open the Welcome
dialog box, you can click Welcome SOLIDWORKS from the Standard toolbar.

è Home Tab : You can open new and existing documents, view recent documents and folders,
and access SOLIDWORKS resources.
è Recent Tab : You can view a list of recent documents and folders.

è Learn Tab : It gives access for instructional resources to help you learn more about the
SOLIDWORKS software.
è Alerts Tab : It provides important SOLIDWORKS news.

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Select an option from Home Tab to open a new or existing document:

Option Description

Part Opens a new document to create a Part

Assembly Opens a new document to create an Assembly

Drawing Opens a new document to create engineering drawing.
Opens the New SOLIDWORKS Document dialog box, where you can open a
Advanced
new document based on an alternate template.

Open Specifies an existing document to open.

After selecting an option, the SOLIDWORKS Graphics window is displayed.

1.4 Solidworks User Interface
The figure shows the main elements in SOLIDWORKS user interface. It includes the following :

1) Menu Bar
The menu bar contains the SOLIDWORKS menus, a set of Quick Access tools, the
SOLIDWORKS Search, and the Help options.

2) Toolbars
Toolbars are available for most SOLIDWORKS tools. Named toolbars assist you in performing
specific design tasks. To display SOLIDWORKS toolbars:
Click Tools > Customize. On the Toolbars tab, select the toolbars to display.

3) Context Toolbars
When you select items in the graphics area or Feature Manager design tree, context toolbars
appear and provide access to frequently performed actions for that context.

4) Flyout Tool Buttons
Similar commands are grouped into flyout buttons on toolbars and the Command Manager.
For example, variations of the rectangle are grouped together in a button with a flyout control.

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SOLIDWORKS User Interface
5) Command Manager
The Command Manager is a context-sensitive toolbar that dynamically updates based on the
toolbar you want to access. By default, it has toolbars embedded in it based on the document type.
When you click a tab below the Command Manager, it updates to show that toolbar. For example, if
you click the Sketches tab, the Sketch toolbar appears.

6) Manager Pane
The left panel of the SOLIDWORKS window manages part and assembly designs, drawing
sheets, properties, configurations, and third-party applications. The Command Manager provides
access to the SOLIDWORKS tools.
7) Feature Manager Design Tree
è Names of features display from top to bottom in the
order created in the Feature Manager design tree,
unless you reorder them. Features can be considered
as components of parts.
è The Feature Manager design tree in assemblies
displays components (parts or subassemblies and their
features), a Mates folder, and assembly features.
è The Feature Manager design tree in drawings contains
an icon for each sheet. Under each sheet are icons for
the sheet format and each view. Under each view are
the parts and assemblies that belong to the view.

8) Feature Manager Design Tree Filter
It helps to search for specific features of parts and components of assemblies.

9) Property Manager

Most sketch, feature, and drawing tools in SOLIDWORKS
open a Property Manager in the left panel. The Property Manager
displays the properties of the entity or feature so you specify the
properties without a dialog box covering the graphics area.

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10) Configuration Manager

The Configuration Manager is a means to create,
select, and view multiple configurations of parts and
assemblies.

11) DimXpert Manager
The DimXpert Manager lists the tolerance features
defined by DimXpert for parts. It also displays DimXpert
tools that you use to insert dimensions and tolerances into
parts. You can import these dimensions and tolerances into
drawings.

12) Search
You can use SOLIDWORKS Search to find information in documentation and forums. You
can also find files and models, and find and run a SOLIDWORKS command with just a few keystrokes.

13) Graphics Area
The graphics area displays and lets you manipulate parts, assemblies, and drawings.

14) Reference Triad
A triad appears in part and assembly documents to help orient you when viewing models. You
can also use it to change the view orientation. You can hide the triad but you cannot use it as an
inference point.

15) Triad
The triad facilitates manipulating various objects such as 3D sketch entities, parts, certain
features, and components in assemblies.

16) Origin
The model origin represents the (0,0,0) coordinate of the model. When a sketch is active, a
sketch origin represents the (0,0,0) coordinate of the sketch.

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17) Heads-up View Toolbar
It is a transparent toolbar in each viewport provides all the common tools required for
manipulating the view. It includes the following :

Icon Description Icon Description
View Orientation Hide/Show Items

Previous View View Planes

Redraw View Live Section Planes

Zoom to Fit View Axes

Zoom to Sheet View Temporary Axes

Zoom to Area View Origins

Zoom In/Out View Coordinate Systems

Zoom to Selection View Datum Reference Frame

View Orientation View Curves

Rotate View View Sketches

Roll View View Grid

Turn Camera View 3D Sketch Plane

3D Drawing View View Sketch Dimensions

Pan View All Annotations

Display Style View Dimension Names

Wireframe View Points

Hidden Lines Visible View Routing Points

Hidden Lines Removed View Parting Lines

Shaded with Edges View Lights

Shaded View Cameras

Draft Quality HLR/HLV View Decals

Perspective View Sketch Relations

Shadows in Shaded Mode Change Display States

Section View View Simulation Symbols

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 Icon Description Icon Description
Camera View View Weld Beads

Curvature Add Walk-through

Zebra Stripes Ambient Occlusion

Body Compare Take Snapshot

Surface Curvature Combs Filter Modified Components

Draft Analysis View Center of Mass

Undercut Analysis View Top Level Annotations

Parting Line Analysis View Component Annotations

RealView Graphics Hide/Show Primary Planes

Apply Scene Cartoon

Edit Appearance Simulation Display

Copy Appearance View Bounding Box

Paste Appearance View Component Envelopes

Edit Sketch or Curve Color View Top Level Envelopes

The View Orientation flyout tool bar can be accessed by pressing SPACEBAR.

It consists of the following :

Icon Description Icon Description
Front Normal To

Back Single View

Left Two View - Horizontal

Right Two View - Vertical

Top Four View

Bottom Link Views

Isometric View Selector

Trimetric New View

Dimetric

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18) Task Pane
The Task Pane provides access to SOLIDWORKS resources, libraries of reusable design
elements, views to drag onto drawing sheets, and other useful items and information. Right-click when
the pointer changes to to accept the preview, or click to return to the preview without accepting
the values.

19) Confirmation Corner

Confirmation Corner is used to accept features. You can Click the
OK or Cancel icons that appear in the Confirmation Corner of the
SOLIDWORKS graphics area.

Click the Exit Sketch icon in the Confirmation Corner to finish the
sketch or click the Cancel Sketch icon to discard changes to the sketch.

20) Status Bar
The status bar at the bottom of the SOLIDWORKS window provides information related to the
function that you are performing.
To display or hide the status bar : Click View > User Interface > Status Bar.

Information provided in the status bar :
è A brief description as you move the pointer over a tool or click a menu item.
è A rebuild icon , if you change a sketch or part that requires the rebuild of the part.
è Sketch status and pointer coordinates, when you are working in a sketch.
è Common measurements for selected entities, such as the length of an edge.
è A message to indicate that you are editing a part while in an assembly.
è An icon for accessing the Reload dialog box when you use collaboration options.
è Unit System , which shows the unit system for the active document in the status
bar and lets you change or customize the unit system.
è An icon to display or hide the Tags box, used to add keywords to features and parts to
aid in searching.

1.5 SOLIDWORKS Options
To open the SOLIDWORKS Options dialog box:
è Click Options (Standard toolbar) or Tools > Options.
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The following tabs are available:

System The system options are stored in the registry and are not part of the documents.
Options Therefore, these changes affect all documents, current and future.
Document The document properties apply only to the current document, and the Document
Properties Properties tab is available only when a document is open. New documents get their
document settings (such as Units, Image Quality, and so on) from the document
properties of the template used to create the document. Use the Document Properties
tab when you set up document templates.

The options listed on each tab are displayed in tree format on the left side of the dialog box. As
you click an item in the tree, the options for the item appear on the right side of the dialog box. The
title bar displays the title of the tab and the title of the options page.

1.5.1 System options
The system options include the following :
è System Options - General è File Locations Options
è MBD (Model Based Definitions )Options è FeatureManager Options
è Drawings Options è Spin Box Increments Options
è System Colors Options è View Options
è Sketch Options è Backup/Recover Options
è Display Options è Touch Options
è Selection Options è Hole Wizard/Toolbox Options
è Performance Options è File Explorer Options
è Settings with OpenGL è Search Options
è Assemblies Options è Collaboration Options
è External References Options è Messages/Errors/Warnings
è Default Templates Options è Synchronize Settings

1.5.2 Document Properties
The document properties that are available on the left side of the Document Properties tab
depend on the type of document that is open. Some document properties are relevant to all document
types (parts, assemblies, and drawings). It includes the properties for the following:

Option Description
Drafting Standard Set the overall detailing drafting standard, and rename, copy, delete, export,
or load saved custom drafting standards
Annotations pages Fonts, attachments, leading and trailing zeros, and so on

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 Option Description
Dimensions pages Text alignment, fonts, leaders, arrow styles and so on
Centerlines / Fonts, slot options, and so on
Center Marks
DimXpert Dimensioning schemes and options for chamfers, slots, and fillets for use with
the DimXpert tool
Tables pages Various controls for tables
View Labels pages Label content and format for detail, section, and auxiliary view labels
Virtual Sharps Virtual sharp display styles
Detailing Display filter, text scale, and so on
Grid/Snap Grid display, spacing, and so on
Units Specify how units are displayed
Line Font Style and weight of lines for various kinds of edges in drawing documents
Line Style Create, save, load, or delete line styles
Line Thickness Set line weights that work best with your printer or plotter
Image Quality HLR/HLV resolution

Document Properties - Units
Unit system : Sets the document-level units and precision to a standard system or lets you
modify units.

Standard systems are :
è M K S (meter, kilogram, second)
è CGS (centimeter, gram, second)
è MMGS (millimeter, gram, second)
è IPS (inch, pound, second)

Click Custom to modify units in the table.

è You can change the unit system without opening Document Properties - Units. In the status
bar, click Unit System, then click a unit system.

Basic Units: Displays document-level dimension units.

Units Decimals
Determined by your Unit Based on selection, displays from two to eight decimal places.
system selection. None displays no decimal places.

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1.6 Selection of entities
You can use the Select tool (Quick Access toolbar) to Exit a command and return to
select mode, which is useful when in sketches and with the viewing tools.
The Select flyout menu consists of the following:

Option Description
Select Selects entities that you click in the graphics area or the FeatureManager
design tree.
Magnified Displays the magnifying glass so that you can inspect a model and make
Selection selections without changing the overall view.
Box Selection Selects all entities around which you drag a selection box using the pointer.
When you select from left to right, all items within the box are selected.
When you select from right to left, items that are crossed by the box
boundaries are also selected.
Lasso Selection Selects all entities around which you draw a free hand loop.
You can lasso select items without closing the lasso loop.
For clockwise lasso selection, the lasso selects only items contained in the lasso
loop. For counter clockwise lasso selection, the lasso selects sketch entities in
the lasso loop and items that cross the lasso.
Select over Lets you select by dragging a box or lasso over a model without starting the
Geometry drag from an empty space in the graphics area.
Select All Selects all shown components and highlights them in the FeatureManager
design tree.

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 Unit – II
SKETCHING
2.1 Introduction
When you open a new part document, first you create a sketch. The sketch is the basis for a
3D model. You can create a sketch on any of the default planes (Front Plane, Top Plane, and
Right Plane), a created plane or face of a part.

General procedure :
1) Click Sketch on the Sketch toolbar, or click Insert > Sketch.
2) Click a sketch entity tool (line, rectangle, and so on) on the Sketch toolbar.
3) Select one of the three planes (Front, Top, and Right) displayed or face of a part.

Default Sketch Planes

4) Create a sketch with the sketch entity tool.
5) Dimension the sketch entities.
6) Click Exit Sketch on the Sketch toolbar. Also Click Exit Sketch or Cancel in
the Confirmation Corner.

2.2 Sketch Modes
è There are two modes for sketching in 2D: click-drag or click-click.
è If you click the first point and drag, you are in click-drag mode.
è If you click the first point and release the pointer, you are in click-click mode.
è Double-click or press Esc to terminate the chain of entities.

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