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Mechanical Designing and Engineering

Five Benefits of a Career in Mechanical Designing and Engineering

A successful job description for mechanical designing engineers should include education level, years of experience, technical skills, personality traits, and professional certifications. The content should be concise and include six to eight bullet points. Post the job description on 20+ job boards. Then, begin interviewing candidates. Make sure to ask about the type of work they have done, and what they value most about their employers. If you are seeking a new job, a well-written job description can increase your chances of being hired.

One benefit of CAE programs is that they allow teams to iterate the design process to meet specific constraints and goals. Hundreds of designs can be evaluated without creating physical prototypes. In addition, CAE analysis programs can model complicated physical phenomena, including viscoelasticity, complex contact between mating parts, and non-Newtonian flows. This makes it possible for mechanical engineers to test different designs before choosing one that suits the application. These capabilities make the software an ideal tool for mechanical engineers.

Often referred to as drafters, mechanical designers create technical drawings based on an engineer’s plans. A mechanical designer must be skilled in computer-aided design (CAD) software to create a high-quality drawing based on an engineer’s plans. These professionals must have strong computer skills and be meticulous in their work. They also need to have a strong understanding of physics and math. Ultimately, the job description will be a representation of the mechanical designer’s abilities.

Experienced designers can estimate deflection and strength within a reasonable range. They can identify places with changes in area or sharp internal features. They can also calculate stresses and improve their values with appropriate correction factors. The application of mechanical designing and engineering can be a rewarding career choice. So, what are the benefits of becoming a mechanical designer? Consider these five benefits. Then, make an informed decision. You’ll never regret it.

A postgraduate degree in mechanical engineering gives students the opportunity to explore the entire designing area. Through this program, students will be able to understand what type of mechanics are best for a given system and how they can be applied in specific industrial applications. The opportunities for post-graduate mechanical engineers are virtually unlimited! The field of mechanical engineering has grown exponentially and is set to grow even faster. With this in mind, CVTC offers a Mechanical Design program that will prepare you for the workplace.

For entry-level mechanical engineers, there’s no license required to work in this field. However, it may be beneficial to take voluntary certification from the American Drafting Design Association. These certifications can help you gain an edge over other candidates in the job market. But most entry-level mechanical engineers aren’t licensed. While some pursue a Professional Engineering license after graduation, this option is not necessary. If you’re passionate about the field, you can take the Professional Engineering (PE) exam and become a licensed engineer.

As a mechanical design engineer, you’ll use engineering principles and mathematics to create and modify mechanical devices. You’ll also develop strategies for improving current models and test prototypes to ensure their functionality. You’ll work closely with fabrication teams when manufacturing a product, and you’ll collaborate with other engineers on technical research. To succeed in the field, you’ll also need to have a strong understanding of mathematics. You will also have to have the technical skills necessary to understand the various aspects of a mechanical design engineer’s job.

Tips and Tricks on How to Prepare Mechanical Designing

There are various tips and tricks on how to prepare for your Mechanical design presentation. You can start by learning how to relax. The more relaxed you are, the more effective you will be at presenting your mechanical design. Gauge your audience’s expertise level and tailor your presentation to them. If you don’t have much experience in presenting mechanical designs, then don’t worry; you can always practice until you are comfortable with it.

Simulation tools help engineers predict how things will behave before they build them. This saves a lot of time and money and helps them deliver their products faster to market. You should also show interest in learning how to use CAD tools to make your designs. Knowledge of CAD tools will help you in your initial professional journey. Besides, simulation tools help you to design your mechanical systems accurately. During your professional career, you will have to use these tools quite often.

To become a mechanical design engineer, you must possess the following skills. You should know how to design systems and analyze products from a design engineer’s perspective. Try to ask yourself why it is designed this way. Is there a better way? And if so, how would it look? You need to have the knowledge to understand how mechanical systems work and how they fit into their environment. You can develop these skills by watching YouTube videos or taking specialized courses.

For further opportunities, you can become a senior mechanical designer, design engineer, or mechanical engineer. The education requirements for these positions are usually similar. Typically, you need to earn a bachelor’s degree in mechanical engineering or its equivalent. Those working in research or other fields will need a doctorate degree. In addition to the education, you can also get certification from various professional organizations. To be a mechanical designer, you must have enough experience, and knowledge to become an expert in your field.

In order to become an expert mechanical designer, you need to know a great deal about various technical concepts and software. SolidWorks design training is a good way to get started in a CAD technician position. It is important to be familiar with the various CAD software that is used to develop sketches, record data, and calculate. Solidworks design software is also useful for creating the 3D computer-aided design, including CAD and solid modeling.


1. Introduction To AutoCAD
2. What Is AutoCAD
3. Install AutoCAD
4. Advantages Of AutoCAD
5. Uses Of AutoCAD
6. AutoCAD Commands

7. AutoCAD For Students
8. AutoCAD Architecture
9. AutoCAD Function Keys
10. Layout In AutoCAD
11. AutoCAD Units


  •  AutoCAD Tools
  •  Toolbars In AutoCAD
  •  Extrude In AutoCAD
  •  Units In Autocad
  •  Lines In AutoCAD
  •  Construction Line In AutoCAD
  •  Template In AutoCAD
  •  AutoCAD Plugins
  •  Insert Image In AutoCAD
  •  AutoCAD PressPull
  •  AutoCAD 3D Commands
  • Text Command In AutoCAD
  •  Layer Command In AutoCAD
  •  AutoCAD 3D Rotate
  •  Spline In AutoCAD
  •  Muebles AutoCAD
  •  Hatch AutoCAD
  •  SketchUp AutoCAD
  •  AutoCAD Fillet
  • Sweep In AutoCAD
  •  Viewport AutoCAD
  •  Revolve In AutoCAD
  • Thick Lines In AutoCAD
  • Offset In AutoCAD
  •  Loft In AutoCAD
  •  AutoCAD Stretch
  •  Polyline In AutoCAD
  •  Polar Array In AutoCAD
  • Block In AutoCAD

Interview Questions

  •  AutoCAD Interview Questions
  •  AutoCAD Alternatives

Session 1

Introduction to CAD, CAE, PDM
Features of SolidWorks,
Various products available in SolidWorks for Product Design,
Simulation, Communication
SolidWorks Graphical User Interface – Feature manager design
tree, Callouts, Handles, Confirmation corner, mouse buttons,
keyboard shortcuts, Command Manager,
Hardware and Software requirements, SolidWorks Task Scheduler,
SolidWorks Rx.

Session 2


Sketch Entities – Inference line, Centerline line, Line, Circle, Arc,
Ellipse, Rectangle, Slots, Polygon, Parabola, Ellipse, Partial Ellipse,
Spline, Spline tools, Spline on surface, Equation driven curve, Points,
Text, Construction geometry, Snap, grid,

Session 3

Sketch Tools – Fillet, Chamfer, Offset, Convert entities, Intersection
curve, Face curve, Trim, Extend, Split, Jog Line, Construction
Geometry, Mirror, Dynamic Mirror, Move, Copy, Rotate, Scale,
Stretch, Sketch pattern , Polygon,Make path, Close Sketch To Model,
Sketch picture, Check Sketch for Feature, Area hatch/Fill

Blocks – Make block, Edit block, Insert block, Add/Remove Entities,
Rebuild, Save, Explode
Relations – Adding Sketch Relation, Automatic relations,
Dimensioning – Smart, Horizontal, Vertical, Ordinate, Horizontal
ordinate, Vertical ordinate, Align ordinate, Fully define sketch. Sketch
Diagnosis, SketchXpert, 3D Sketching, Rapid Sketch

Session 4


Part Modeling Tools
Creating reference planes
Creating Extrude features – Direction1, Direction2, From option,
Thin feature, Applying draft, Selecting contours
Creating Revolve features – Selecting Axis, Thin features, Selecting
Creating Swept features-Selecting, Profile and Path,
Orientation/twist type, Path Alignment, Guide Curves, Start/End
tangency, Thin feature

Session 5

Creating Loft features – Selecting Profiles, Guide curves, Start/End
Constraints, Centerline parameters, Sketch tools, Close loft.
Selecting geometries – Selection Manager, Multiple Body concepts
Creating Reference – points, axis, coordinates

Session 6

Creating curves –
Split curve, Project curve, Composite curve, Curve through points,
Helix and Spiral
Creating Fillet features
Inserting Hole types

Session 7

Creating Chamfer
Creating Shell
Creating Rib
Creating Pattern – Linear pattern, Circular pattern, Sketch driven
pattern, Curve driven pattern, Table driven pattern, Fill pattern, mirror
Advanced Modeling Tools- Dome, Free form, Shape feature,
Deform, indent, Flex

Session 8

Inserting Fastening features- Mounting boss, snap hook, Snap hook

groove, Vent

Environment & Utilities – Working with views and manipulating
views, Trouble shooting
Inserting Library feature, Adding Configuration, Inserting Design
table, System options, Measuring Geometries, Calculating Mass
Properties, Feature Statistics, Working With Equations

Session 9


Assembly Modeling Tools
Introduction to Assembly Modeling & Approaches – Top down
and Bottom up approach
Applying Standard Mates- Coincident, Parallel, Perpendicular,
Tangent, Concentric, Lock, Distance, Angle.

Session 10

Applying Advanced Mates – Symmetric, Width, Path Mate,
Linear/Linear Coupler, Limit Mate.
Applying Mechanical Mates – Cam, Hinge, Gear, Rack Pinion,
Screw, Universal Joint.
Applying Smart mates
Applying Mate reference

Session 11

Manipulating Components – Replacing Components, Rotating
Components, Move Components, Collision Detection, Physical
Dynamics, Dynamic Clearance, Detecting Interference
Creating Pattern – Assembly Pattern, Mirror
Creating Explode Views
Top Down Design – Layout Sketch, Work Part In the Context of an
Smart Components, Smart Fasteners, Physical Simulation

Session 12


Surface Modeling tools
Creating Extrude, Revolve, Swept, loft, Boundary surface.
Inserting Planar Surface, Offset Surface, Radiate Surface.
Extending a surface, Surface fill, Ruled Surface, Trimming Surface,

Mid surface, Replace Face, Delete face, Untrim surface, Knit surface,
Thickening a Surface, Move Face

Session 13


Generating Drawing Views
Introduction To Angle Of Projection
Generating Views – Generating Model View, Projected Views,
Inserting Standard 3 View
View creation relative to model, Inserting predefined views, empty
views, Auxiliary Views, Detailed Views, Crop view, Broken –Out
Section, Broken Views, Section View, Aligned Section View,
Alternate Position View, Working assembly specific view, Drawing
properties, Manipulating views

Session 14

Creating Dimensions – Smart, Horizontal, Vertical, Baseline,
Ordinate, Horizontal Ordinate, Vertical Ordinate, Chamfer, Attach
Dimensions, Align Collinear/Radial, Align Parallel/Concentric,
Model Dimensions, Auto dimension, DimXpert, Annotations, Spell

Session 15

Inserting Annotations – Datum Features, Geometric Tolerance,
Surface Finish, Jog Leaders, Hole Callout, Datum Target, Dowel Pins,
Area Hatch, Cosmetic Thread, Balloon, Centre Mark, Centre
Lines, Layers, Working With Tables, Bill Of Materials, Hole Table,
Sheets And Templates, Sheet Format.

Session 16


Sheet Metal Design
Concepts in Sheet metal design bend allowance bend deduction,
Inserting Base Flange, Sheet Metal Tab, Edge Flange, Miter Flange,
Hem, Jog.
Creating Break Corner/Corner Trim, Closed Corners, Rip.

Inserting Sketched Bend, Fold/Unfold, Forming Tools.
Inserting Cross Break, Welded Corner.
Adding Corner Trim, Lofted Trim
Conversion Of Solid Body To Sheet Metal.
Working with import data – Importing In SolidWorks, Editing
Imported Features, Feature Recognition, 2d To 3d Conversion

Session 17


Product Data Management
Introduction to PDM, LAN, WAN, Server, client, user, administrator,
advantages of using PDM vault admin. How to log in to PDM Vault
Admin? About vault settings, Creating new group, user and accessing
rights, PDM data storage, setting up revision schemes


Session 18

Creating new project, Check In/Check Out of a new document,
viewing the configurations, How to Check In associated files, viewing
document information, Check In documents to vault from local disk,
adding notes to the document. How to change document to other
group? Archive/Restore a document, Delete/Rollback a document.

Session 19

Attaching non SolidWorks document, How to switch vault to other
user? How to customize display of a Vault? How to do bulk Check
In? How to make a project archive? How to copy a project? How to
assign lifecycle status to a component? How to add property to a
document? How to add standard libraries to a vault? About global

Session 20

Introduction to PhotoWorks, How to render model in PhotoWorks
Studio? How to render specified area? How to save image to a
specified file? How to edit scenery? How to apply background and
base? Scene editor, How to apply material and decal? How to set
camera and lights? Render options

Session 21


Weldment Design
Introduction to Weldment, 3D sketch, How to create user defined
profile for structural member? How to insert structural member? How
to apply gusset and fillet bead? How to insert end cap? Extruded
Boss/Base, Trim/Extend, mirror, placing holes, using different
structural members, Weldment cut list

Session 22

Introducion of Mold, type of mold design, how to used draft analysis,
undercut analysis, parting line analysis, parting line, shut off, parting
surface, tool split, core.

Session 23


Session 24


Session 25

Stress or static analysis calculates the displacements, strains, and stresses in a part
based on material, fixtures, and loads. A material fails when the stress reaches a
certain level. Different materials fail at different stress levels. SimulationXpress
uses linear static analysis, based on the Finite Element Method, to calculate
stresses. Linear static analysis makes several assumptions to calculate stresses in
the part.



  • Revit interface

  • Interface workflow



  • Architecture tools

  • Wall including properties

  • Doors including properties


Windows including properties

  • Components with properties


Roof Ceiling Floor


  • Curtain system

    Curtain grid



  • Railing




  • Model text

    Model line

    Model group


    Room separater

    Tag room


    Tag area


By face










    Link CAD








  • VIEW




  • Manage











Final Project