Role of cadcam in designing, developing and

IJRET: International Journal of Research in Engineering and Technology eISSN: 2319-1163 | pISSN: 2321-7308
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Volume: 03 Issue: 06 | Jun-2014, Available @ http://www.ijret.org 146
ROLE OF CAD/CAM IN DESIGNING, DEVELOPING AND
MANUFACTURING OF NEW PRODUCTS
Pawan Sharma1
, Khagendra Pathak2
, B. K. Sharma3
1
Department of Mechanical Engineering, VIT (East), Jaipur, India
2
Department of Mechanical Engineering, MAIET, Jaipur, India
3
Department of Mechanical Engineering, VIT (East), Jaipur, India
Abstract
Smart CAD/CAM technologies for superior product modeling in the intelligence of designing complete product variants become
more and more pertinent in future. Many design techniques to help interdisciplinary design actions in different engineering
domains in addition to consequent processes have to be developed. A necessary job to achieve this aim is to permanently
investigate the present state of the art, emerging trends, new approaches, in addition to industrial problems and requirements
about the entire CAD/CAM area. With the aim of direct future research and development activities as close as possible to the
continuously rising requirements of a worldwide market we carried out a wide-ranging national study in cooperation with one of
the Germans leading CAD/CAM magazines.
In this way, it became possible to reach a representative amount of users, to obtain their experience based assessments on today’s
most important aspects of CAD/CAM technology. The results of this examination are summarized in this paper to give system
developers, engineers, and researchers an overview of the present condition as well as to serve as a direction for decision makers
in the Design and Development areas.
Keywords: CAD/CAM; CIM; CAPP; Product development; Design and Manufacture.
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1. INTRODUCTION
In a globally competitive environment, time compression
strategies in product development are of critically
importance. Certain products have long development cycle
times. Examples are aircraft and automobiles. In some of the
products like computers, technological obsolescence puts a
constraint on the product development time.
As soon as a new microprocessor is released in the market,
the manufacturers of the computers via with each other to
market computers based on the new processor. Frequent
releases of newer and newer microprocessors have
consistently narrowed down the product life cycle of
computers.
The pursuit of excellence in performance has resulted in
new technologies being developed in entertainment
electronics. The life cycle of entertainment electronic
products is thus reduced, thereby necessitating new products
being delivered to the market at reduced intervals.
The time compression in product development has also
necessitated:
 Avoidance of design errors, rework of components
and tooling,
 Better data management,
 Improved supply chain management,
 Attaining higher and higher levels of performance,
 Providing quality levels superior to what is offered
by competitors,
 Above all supplying the product at the lowest
possible cost.
2. STAGES IN PRODUCT DEVELOPMENT
The need to be right first time every time has changed the
approach to design. The initial phase of design consists of
conceptual design, design analysis and performance
simulation. The phase is highly iterative as shown in fig. 1.
The techniques like concurrent engineering, failure mode
and effect analysis etc., are used to ensure a reliable and
quality design at this stage. This is followed by detailed
design, tool design, prototype manufacture and evaluation
and documentation. (Fig. 2)
The next phase of product development involved second
phase of engineering where the design may be further
refined. Here focus is on manufacturing planning, data
management, supply chain management and manufacture.

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Fig. 1: Product Development Scenario
Fig. 2: Prototyping Stage of Product Development
3. PRODUCT DEVELOPMENT AND
MANUFACTURE
CAD/CAM as an enabling technology for product
development and manufacture Developments in computers
and software relating to CAD/CAM have made CAD/CAM
an indispensable enabling technology for time compression
in product development. This is made possible by an
integrated approach to carry out different activities in
product development through seamless data transfer. (Fig. 3)
CAD/CAM technologies help to simulate and the
manufacturing methodologies in the following ways:
3.1 Assemble Analysis
With the help of today’s CAD/CAM technology, design
team can work in a top down and bottom up manner to
create a complete electronic product mock up. Once an
assembly is completed, solids based kinematic analysis can
be used to simulate complex motions of mechanisms as well
to carry out tolerance analysis.
3.2 CAD/CAM in Aid to Manufacture through
Better Tool Design and Optimize Manufacturing
Processes
Manufacturing simulation uses a set of powerful CAD/Cam
tools which seek to create virtual manufacturing
environment. Many uncertainties which may result in time
delay, rework or production of defective parts can be
eliminated through simulation or manufacturing, whether it
is CNC machining, plastic injection moulding, casting,
forging or welding.
3.3 Rapid Prototyping
Rapid Prototyping technology is being more widely
employed to verify and improve designs, rapid tooling as
well as initial prototypes.
Fig. 3: CAD/CAM Database
3.4 Agile Manufacturing
Agile Manufacturing is oriented in the direction of high mix/
low volume, flexibility and adding velocity in the
production process. It applies to environments somewhere
configurable, customized, or dedicated orders, suggest a
competitive improvement. Consequently, that
manufacturing has been one of most important strategies of
new enterprises. In the atmosphere of the market ongoing to
vary the quality, speed, quick responds, at very low cost by
improving its agility of the manufacturing firm. A task of
several highly developed technologies in Agile
Manufacturing atmosphere has been examined through a
few researchers. A number of them comprise computer-
aided design, CIM, computer-aided manufacturing, IT,
computer-aided process planning (CAPP). A small number
of papers coverage the researchers investigative the
integration of such highly developed technologies in Agile
Manufacturing environment.
3.5 Agile Manufacturing Conception and Enabling
Technologies
Even though there are many definitions of Agile
Manufacturing brought out as a result of the researchers, the
most familiar definition is, Agile Manufacturing is the
ability of a manufacturing association to manufacture a
range of products contained by a short period of time also in
a cost effectiveness approach. Agile Manufacturing is an
idea to standardize general manufacturing data, CAD/ CAM
structure, research data, and join together them into a
network. a standardized research data base and a general
manufacturing data base are very critical for agility and can

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considerably decrease planning period and the product
design period.
3.6 Characteristics of Agile Manufacturing
There are many characteristics of agile manufacturing such
as show in following:
 Rapid new product development,
 Short lead times, cycle times,
 Use of superior CAD/CAM,
 Modular design and technology,
 highly flexible machines and equipment,
 Short and fast order processing,
 Fast supplier deliveries,
 Very Short time to market,
 Short guide times and short cycle times,
 Highly flexible and responsive processes,
 Modular assembly,
 Use of Solids model.
3.7 Mold Industry
In recent machinery manufacturing industry, mold industry
has developed into the beginning industry for national
financial system. Several innovative product development
and production relies deeply on mold manufacturing
expertise, especially in the light industry, automotive
industry, and aerospace and electronics industries. The
capability of mold manufacturing and stage of consequent
technique has turn out to be a significant pointer of a
nation’s level of mechanical manufacturing technique. It
straight affects several sectors of the nation’s economy.
Mold CAM/ CAD is developed from the origin brought
concerning by the self-governing development of mold
CAM and mold CAD. It is a novel jump in the wide-ranging
application of mold manufacturing and computer
technology.
The fast development of CAD/CAM technology and the
further development of software and hardware level
provided well-built technical support for mold industry and
brought a jump on the quality of production level, endeavor
product design and manufacturing. It has become the best
option for a modern enterprise networking, integration and
information.
3.8 Mold CAD/CAM Design Flow
By means of the rapid development of manufacturing
technology and computer technology there are growing
concerns on how to shorten machining production period
and mold design time and to enhance manufacturing quality.
Mold technology is also migrating regularly from manual
design, relying on manual knowledge and ordinary machine
processing skill to mold computer-aided design, aided
engineering and aided manufacturing technology. The US
has pioneered implementing computer technology on mold
industry, realizing mold CAD/CAE/CAM incorporated
system and achieving purposes of enhancing mold
manufacture quality, boosting production period and design
effectiveness.
4. CONCLUSIONS
This paper concluded the results of a study relating to
advanced CAD/CAM technologies in respect to product
development and manufacture. This paper presented the
present methodologies are being used and the future
oriented methodologies will be preferred. CAD/CAM users
as well as designers have been asked to rate several smart
CAD/CAM technologies in respect to product development
and manufacture. Furthermore, problems in reverence to the
consciousness of product variant design have been
discussed. The Constant development of product design and
manufacturing increasingly inflict impacts upon smart
CAD/CAM technologies, proposing greater requirements
for the research on and growth of CAD/CAM.
REFERENCES
[1] Paul S. Goodman, Terri L. Griffith, “A process
approach to the implementation of new technology”,
Journal of Engineering and Technology
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[2] Suk-Hwan Suh, Sung-Kee Noh, Yong-Jong Choi, “A
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integration”, Computers & Industrial Engineering,
Volume 28, Issue 1, January 1995, Pages 133-146.
[3] Bjørn Moseng, Bjarte Haaøy, “Nes Integration of
CAD/CAM as seen from the production planners’
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Issue 4, December 1984, Pages 341-350.
[4] Guido Gürtler, “CAD Standard parts file - A DIN
project in the standards committee on tabular layouts
for article characteristics”, Computer Standards &
Interfaces, Volume 6, Issue 4, 1987, Pages 473-481.
[5] Jakob Vlietstra, “Integration aspects in CAD and
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[6] D.A. Linkens, “CAD for control systems-a review of
PC software”, Computer-Aided Design, Volume 20,
Issue 9, November 1988, Pages 564-565.
[7] Yoshihiro Ochiai, Tsuyoshi Sekiya, “Generation of
free-form surface in CAD for dies”, Advances in
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[8] Lex Lennings, “CAD/CAM integration in practice:
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Computers in Industry, Volume 18, Issue 2, 1992,
Pages 127-134.
[9] Ziga Turk, “Object-oriented modelling and integrated
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[10] Emad S. Abouel Nasr, Ali K. Kamrani, “A new
methodology for extracting manufacturing features
from CAD system”, Computers & Industrial
Engineering, Volume 51, Issue 3, November 2006,
Pages 389-415.

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BIOGRAPHIE:
Pawan Sharma has completed his B.Tech
(2011) in Mechanical Engineering &
M.Tech (2014) in Machine Design from
RTU, Kota, India. He has published 28
research papers in the refereed International
journals and conferences. His area of
research includes CAD/CAM, FEA/FEM, Composite
Materials, CFD and Vibration Analysis.

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