5. History of AutoCAD
AutoCAD was derived from a program begun in 1977 and
released in 1979 called Interact CAD, also referred to in
early Autodesk documents as MicroCAD, which was written
prior to Autodesk's (then Marinchip Software Partners)
formation by Autodesk cofounder Michael Riddle.
The company was founded in 1982 by John Walker, a
coauthor of the first versions of AutoCAD, the company's
flagship computer-aided design (CAD) software.
The first version by the Autodesk Company was
demonstrated at the 1982 Comdex and released that
December.
The 2019 release marked the 33rd major release for the
AutoCAD for Windows.
5
7. AutoCAD
What is AutoCAD?
AutoCAD is a commercial software
application for 2D and 3D computer-
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.
7
13. AutoCAD
AutoCAD Applications :-
1) As an architectural
planning tool
2) As an engineering
drafting tool
3) As a graphic design tool
4) AutoCAD in 3D Printing
5) AutoCAD in the fashion
industry
6) AutoCAD as industrial
design tool
13
14. AutoCAD
Careers Related to Civil Engineers :-
Architects. Architects plan and design houses, factories, office
buildings, and other structures.
Civil Engineering Technicians. ...
Construction Managers. ...
Environmental Engineers. ...
Landscape Architects. ...
Surveyors. ...
Urban and Regional Planners.
14
15. The AutoCAD Advantage
SolidWorks / Solid Edge / Inventor Compatibility
Industry Standard Translators
Reduced Training Time/Cost
Rapid Product Advancements
15
18. BIM
What is BIM?
Building Information Modelling is digital
representation of physical and functional
characteristics of a facility creating a
shared knowledge resource for
information about it forming a reliable
basis for decisions during its life cycle,
from earliest conception to demolition.
Building Information Modelling
Building Information Model
Building Information Management
18
21. BIM
Building Information Modelling
– A Process (not software) – A New Way of Doing Things
– Not CAD (2D line-based drafting / no inherent intelligence)
– Production of Reliable & Coordinated Documentation
– “Data-Rich” Virtual 3D Model of a Project – the “i” in BIM
– Recording all Vital Design Information in a Single Database
– Used by all Stakeholders throughout the Projects Lifecycle
21
24. Revit
What is Revit?
Autodesk Revit is building information
modeling software for architects, landscape
architects, structural engineers, MEP engineers,
designers and contractors. The original software
was developed by Charles River Software,
founded in 1997, renamed Revit Technology
Corporation in 2000, and acquired by Autodesk in
2002.
24
25. Revit Architecture
What is Revit Architecture?
Autodesk Revit® Architecture
is a robust architectural design
and documentation software
application created by
Autodesk for architects and
building professionals.
The tools and features that
make up Revit® Architecture
are specifically designed to
support Building Information
Modeling (BIM) workflows.
25
26. Revit Architecture
There are many categories of
objects ('families' in Revit
terminology), which divide into
three groups:
System Families, such as walls,
floors, roofs and ceilings which
are built inside a project
Loadable Families /
Components, which are built
with primitives (extrusions,
sweeps, etc.) separately from
the project and loaded into a
project for use
In-Place Families, which are built
in-situ within a project with the
same toolset as loadable
components.
26
57. Revit Architecture
This program is designed for-
Architecture students
Engineering students
Construction professionals in Architecture
Construction consultants
57
59. CONTENTS
• INTRODUCTION TO STAAD.Pro
• HISTORY OF STAAD.Pro
• STRUCTURE
• TYPES OF STRUCTURE
• STAAD WINDOW
• TOOLS USED
• VARIOUS TYPES OF CURSORS
• PAGE CONTROL IN VARIOUS MODES
• MODEL GENERATION
• WIZARD
• ASSIGNING PROPERTY
• SUPPORTS
• ASSIGNING LOADS
• ANALYSIS
• DESIGN
• ADVANTAGES OF STAAD.Pro
• CONCLUSION
59
60. INTRODUCTION
• STAAD.Pro is a structural analysis design program software.
• It includes a state of the art user interface, visualization tools
and international design codes.
• It is used for 3D model generation, analysis and multi-material
design.
• The commercial version of STAAD.Pro supports several steel
concrete and timber design codes.
• It is one of the software applications created to help structural
engineers to automate their tasks and to remove the tedious
and long procedures of the manual methods.
60
61. HISTORY OF STAAD.Pro
• STAAD.Pro was originally developed in 1997 by Research Engineers
International in Yorba Linda, CA.
• In late 2005, Research Engineer International was bought
by Bentley Systems.
61
62. STRUCTURE
• A STRUCTURE can be defined as an assemblage of elements.
STAAD is capable of analyzing and designing structures consisting of
both frame, and Finite elements. Almost any type of structure can
be analyzed by STAAD.
Frame elements – Beam elements – 2 nodes
Finite elements – 1.) Plate – 3 or 4 nodes
2.) Solid – 4 to 8 nodes
• In case of STAAD
Node becomes Joint it has a number and xyz coordinates
Beam becomes Member it has a number and nodes at its ends
Plate becomes Element it has a number and node at its corners
62
63. TYPES OF STRUCTURE
• A TRUSS structure consists of truss members which can have only
axial member forces and no bending in the members
• A PLANE structure is bound by a global X-Y coordinate system with
loads in the same plane
• A SPACE structure, which is a three dimensional framed structure
with loads applied in any plane, is the most general.
• A FLOOR structure is a two or three dimensional structure having
no
horizontal (global X or Z) movement of the structure [FX, FZ & MY are
restrained at every joint]. The floor framing (in global X-Z plane) of a
building is an ideal example of a FLOOR structure. Columns can also
be modelled with the floor in a FLOOR structure as long as the
structure has no horizontal loading. If there is any horizontal load, it
must be analyzed as a SPACE structure.
63
67. Page Control in Various Modes
In Modelling In Post Processing
67
68. Procedure Model Generation and
Analysis
Input Geometry-Nodes,
Beams, Column etc
Input Properties Input Specs, Constant,
Support
Input Loading System
Specify Analysis Type Run Analysis
View and Verify Result
Design
Verify
68
69. MODEL GENERATION
• There are basically 3 methods of generating a model
1. Snap node method
2. Coordinate method
3. Copy paste method
• Out of these three methods most commonly used is copy
paste method
• By using these three methods a structure of any geometry
can be created
• STAAD.Pro also contains a command wizard which is its
library of structures such as frames , trusses are present
which can be merged with the STAAD.Pro model
69
76. DESIGN
• After analysis a structure has to be designed to carry loads
acting on it considering a certain factor of safety .
• In India structures are designed by using various Indian codes
for both concrete and steel structures.
• The design in STAAD.Pro supports over 70 international codes
and over 20 U.S. codes in 7 languages.
• After designing the structure it is again analyzed and results of
analysis for each beam and column is shown in the output file
76
83. ADVANTAGES OF STAAD.Pro
Following are the advantages of STAAD.Pro
1. Covers all aspects of structural engineering
2. Broad spectra of design codes
3. International codes
4. Quality assurance
5. Reports and documentation
83