Auto CAD

Overview

AutoCAD is a commercialsoftware application for 2D and 3Dcomputer-aided design (CAD) and drafting — available since 1982 as a desktop application and since 2010 as a mobile web- and cloud-based app marketed as AutoCAD 360.
Developed and marketed by Autodesk, Inc.,[1] AutoCAD was first released in December 1982, running on microcomputers with internal graphics controllers.[2] Prior to the introduction of AutoCAD, most commercial CAD programs ran on mainframe computers or minicomputers, with each CAD operator (user) working at a separate graphics terminal.[3]
AutoCAD is used across a wide range of industries, by architects, project managers, engineers, graphic designers, and other professionals. It is supported by 750 training centers worldwide as of 1994.[1]
As Autodesk’s flagship product, by March 1986 AutoCAD had become the most ubiquitous CAD program worldwide.

Key Features

100% Placement Assistant.   

Auto desk Certified Trainer.

Courses& Certificate Are Globally  
Recognized & Accredited.

Get Certificate From Autodesk.

Get Microsoft Certificate.     

Get Certificate From Adobe.

Why Should You Learn :

AutoCAD training  is  the  perfect  way  to  gain  the  skills needed to create and edit a variety of drafting and modeling concepts for architecture, engineering, design and more. AutoCAD is relatively easy to use software but is hard to master.  Therefore,  autocad tutorial is recommended for Architects,  Mechanical Engineers,  Electrical  Engineers,  Civil  Engineers,  Building  & Construction,  Interior  Designers, Landscape  Architects,  naval  and  aeronautical  engineers,  piping  and  cabling  professional   and students.  Anyone  who  requires  producing  accurate  plans  and  sections  of  a  design  for  their profession, use AutoCAD to produce designs effeciently. With the perfect AutoCAD training, users can reap the following advantages of AUTOCAD:  Speed: Post AutoCAD training, individuals realize the speed at which this software produces designs  as  compared to hand drafting.  Drafting speed reduces  as  actions  like  common building components that  appear several  times can be inserted, moved and copied easily, thus saving the time on re-drawing them repeatedly. Collaboration: As AutoCAD training is popular among architects as well as civil engineers and builders, electrical engineers etc. Therefore the same design plan can be used to include.

not only the architectural design but also the electrical system, plumbing system, ventilation system and air  conditioning systems.  Thus  there  is  a synthesis  among different  groups working together and this reduces the chances of error on part of any individual teams. Industry  standard:  AutoCAD’s  drawing  formats  (.dwg  and  .dxf)  are  now  the  industry standards for the exchange of electronic drawings,  between professionals and regulatory bodies. Job Skill: Autocad training can be used as an advantage while looking for a job. You can develop your own CAD portfolio, which can be shared with your potential employer. These designs will be a reflection of your technical abilities and can impress employers. Moreover, AutoCAD certification can be mentioned in resume and is considered as an extra vocational skill.

Outcome

  • 1.Create, annotate, edit and plot drawings using basic AutoCAD commands and features.
  • 2.Apply basic AutoCAD skills to intermediate AutoCAD course and other design and drafting courses.
  • Design students must be able to visualize and graphically reproduce complex layouts to succeed in subsequent drafting and design courses. 
  • Designers need to be able to communicate with each other, and with manufacturing and construction personnel using graphical representations of physical objects.
  • AutoCAD design software is widely used in the Architectural Design and Drafting professions.
  • Many Architectural Design and Drafting graduates enter the workplace by performing computerized graphics manipulations.

 

Auto CAD Syllabus

Session1

Engineering Drawings

  • Projections(First & Third angle)
  • Views(Orthographic, Isometric & Perspective)

Introduction to AutoCAD

  • History
  • Exploring GUI
  • Workspaces

Co-ordinate systems

Introductionto

Orthographic Views

  • Drawing settings–Units, Limits.
  • DrawingsimplesketchesusingLine,Circle,Arc,Ellipse,Polygon,Rectangle, Dynamic Input.
  • Editingcommands–Erase,Oops,Undo,Redo,Move,Copy,Rotate,Array,Mirror,Align.

Session2

File Management- New, Qnew, Open, Save, Saveas, Close, Exit, Quit.

 Mini Project 1–Orthographic  Views.

 Editing commands–Fillet, Chamfer, Scale, Stretch, Offset, Break, Drawing settings.

Trim, Extend

 Isometric View

  • Isoplane

 MiniProject 2–Isometric Views.

Session3

Join, Solid, Donut, Fill, Fillmode Creating Detail Drawing-Revcloud Perspective Views

  • One, Two and Three points Perspectiveviews

 MiniProject 3–2PointPerspectiveView

  • Object Selection Methods
  • Select, Qselect

 Annotations-Text,Style,Ddedit,Mtext,Scaletext,Spell,Table,Tabledit.

 ObjectProperties-Color,Linetype,Ltscale,Lineweight,Properties,Matchproop.

DisplayControl-Zoom,Pan,Steeringwheels(2D),View,Regen,Dsviewer,Viewres.

Session4

Layer Management

  • Adding /Removing Layers
  • Layer Status
  • New Property Filter
  • New Group Filter
  • Layer Status Manager
  • Plot Control

Hatchingutilities –  Bhatch, hatch, hatchedit Grip Editing.

Inquiry commands-Id, Dist, List, Radius, Angle, Area, Volume Lengthen.

Advanceddrawingobjects&theirediting-Pline,Pedit,Spline,Splinedit.

Session5

Dimension – Linear, Aligned, Radius, Diameter, Center Mark, Angle, Arclength,Continuous,Baseline,Tolerance,DimensionSpace,DimensionBreak,Inspection, Joggedradius,Ordinatedimensions, Leader, Qleader.

Session6

Mleader,Multileaderstyle,Addleader,AlignLeaderlines,CollectLeader
Dimedit,dimtedit,DimensionAssociative,Reassociate
DimensionStyle
Constructionlines-Xline,Ray
Project 1

Session7

(4hrstheory only)
Agenericv is ualization of Project Management
How does knowledge of  Project Management affects you ?

Session8

(4hrstheory only)
Some Keya spects that need clarity
Common Sense Project Management.

Session9

Filter, group, Cal, Block, Wblock, Insert, Dynamicblock.

Session 10

Parametric Drawings

  • Geometric Constraints
  • Dimensional Constraints

Dynamic Block with Parametric constraints.

Session 11

Defining & Editing attributes – Attdef, Attedit, Eattedit, Attdisp, Attdia, Attext, Eattext,Actionrecorder

Mini Project 4– Creating BOM / Joiner Details.

Session 12

Divide, Measure, Mslide, Vslide, Script, Slide Library
OLEconcepts – Olelinks, Olescale, Insert obj Hyperlink
Copy, Copybase, Copylink, Pasteclip, Pastespecial, Pasteblock, Pasteoriginal
Externalreferences – Xref, Xbind, Circular Xref, Refedit.
MiniProject 5 – Develop a project with Xref.

Session 13

Underlay
Design Center, Tool Palettes, Etransmit, Xplode
Introductiontoplotting, Pagesetup, Plot Styles, Plot.

Session 14

Publish
2D and3DDWF Mark upManager Publish toWeb
MiniProject 7 – Create acustomized Title Block using Attribute sands to reitasa Template
Layout Management, Floating View ports
 Project 2–Complete a Project with Orthographic Views, BOM and arrange the mina Layout asperscale–Take the Printout.

Session 15

Parametric Drawings

  • Geometric Constraints
  • Dimensional Constraints

Dynamic Block with Parametric constraints.

 

Need of 3rddimension

The conventions of AutoCAD Co-ordinatesystemsin3D Types of 3DModels

Surface Modeling

  • Rulesurf, Tabsurf, Revsurf, Edgesurf.

Hide, Shade, Shademode

 Surface Modeling

  • 3Dface,Edge,Pface,3dPoly,3dMesh,Planesurf,Vpoint,Ddvpoint,Plan,View

Cubic, Vports.

MiniProject 9–Surface Model

Session 16

Solid Primitives

  •  Box,Wedge,Cylinder,Cone,Sphere,Torus,Pyramid

Region Extrude Revolve Union .

Session 17

Intersect

Interfere Poly solid Sweep Helix

Loft Press / Pull UCS, UCS

icon yncamic UCS UCSman

MiniProject 10 – Solid Model

Session 18

MeshPrimitives

Working with Gizmos

  •  Move,Rotate,Scale

Sub – object Filters

Smooth Object

Refine Mesh, Facetres Add / Remove Crease Split Mesh Face Extrude Face.

Session 19

Fillet
Chamfer
3DArray Mirror3D Rotate3D
3Drotate
3Dalign Slice Section
SectionPlane
Livesection
Sectionplanejog

Solidedit
MasspropSolviewSoldrawSolprofFlatshot
3Dorbit
3Dcorbit
3Dforbit Dview Camera
3Dwalk
3Dfly
3ddistance
MiniProject 12–Create a3dassemblyandgenerate various views
3dswivel

Session 20

Using 3D Image Types
Render Setting spa lette Under standing lighting principles Using lightsin Rendering Point light
Spotlight Distant lightLightlist Render
Rpref
Geographic locationSunpropertiesMaterials
Renerenvironment
BackgroundDialogbox
Image
Imageattach ImageadjustImageclipImageframeImagequalityTransparency Draworder

Export/Import

Project 3–

  • CompleteanAssemblydrawing
  • AssignMaterials,Lights
  • Generate RenderedimagesforPresentation
  • Create variousviewsusingFlatshotforProductiondrawing
  • AligntheviewsinLayout