7 computer application in industry ahmedawad
DESCRIPTION
Computer Application in IndustryTRANSCRIPT
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CAD/CAMPrepared by:
Ahmed Hassan
Mahmoud Salah
Hussein Khaled
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Computer Aided Design (CAD)
• Use of computer systems to assist in creation,
modification, analysis and optimization of a design.
• Computer assistance while a designer converts his
or her ideas and knowledge into a mathematical and
graphical model represented in a computer.
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Definition of CAD depend on its constitute
Computer graphics
geometric modeling
Design tools
(analysis, codes, etc.)
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Definition of CAD depend on implementation
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Computer Aided Manufacturing
(CAM)Use of computers systems to plan, manage and
control the operations of a manufacturing plant
1. Computer monitoring and control
2. Manufacturing support applications
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Definition of CAM depend on its constitute
Networking
CADManufacturing
tools
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Definition of CAM depend on implementation
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Difference Between CAD and CAM• CAD just turns out the designs of things.
• CAM is the actual machines which cut and bend
metal, shape plastics, spray paint, etch surfaces
etc.
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Computer Integrated
Manufacturing (CIM)Computer Integrated Manufacturing (CIM) is
considered a natural evolution of the technology of
CAD/CAM which by itself evolved by the integration
of CAD and CAM.
CIM - A process of integration of CAD, CAM and
business aspects of a factory. It attempts complete
automation with all processes functioning under
computer control.
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Objectives of CIM1. Production improvement
2. Cost reduction
3. Fulfillment of delivery dates
4. Quality improvement
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Operating system• An Operating System is
basically a set of
programs that provide
control of the CPU
(Central Processor Unit)
and its resources.
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Operating system• Important functions of an operating system:
a) Transferring data between computer and various
peripheral devices for input and output.
b) Managing computer files and programs through
processor management.
c) Loading computer programs into memory and
controlling program execution.
d) Security.
e) Human Interface.
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Operating system• Three major types:
a) ROM monitor.
b) Operating environment.
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Geometric modeling
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Definition• Computer representation of the geometry of a
component using software is called a geometric
model.
• Geometric modeling is done in three principal ways.
They are:
i. Wire frame modeling.
ii. Surface modeling.
iii. Solid modeling.
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Wire frame modeling
• In wire frame modeling the object is represented by
its edges.
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Surface modeling
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Surface modeling• Apart from standard surface types available for
surface modeling (box, pyramid, wedge, dome,
sphere, cone, torus, dish and mesh) techniques are
available for interactive modeling and editing of
curved surface geometry.
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Solid modeling• The representation of solid models uses the
fundamental idea that a physical object divides the
3-D Euclidean space into two regions, one exterior
and one interior, separated by the boundary of the
solid.
• There are many common representations in solid
modeling.
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Solid modeling• Spatial Enumeration:
• hical adaptation
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Solid modeling• Boundary Representation:
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Solid modeling• Constructive Solid Geometry (CSG):
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Importance• Geometric modeling used for quick and reliable
design analysis.
• provide important data such as volume, mass, mass
properties and center of gravity.
• The designer can also export models created to
other applications for finite element analysis (FEA)
• rapid prototyping and other special engineering
applications.
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Engineering analysis
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Introduction
• For any engineering design, some type of analysis is
required. The analysis may involve stress- strain
calculations heat transfer calculations, the use of
differential equations to describe the dynamic
behavior of the system being designed. The
computer can be used to aid in this analysis work.
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Limitations• Traditional approach to design analysis involves the
application of classical or analytical techniques. This
approach has the following limitations:
i. Stresses and strains are obtained only at macro
level.
ii. information will not be available on critically
stressed parts of the components.
iii. simplifications and assumptions to design
complex components and systems
iv. Manual design is time consuming and prone to
errors.
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FEA
• FEA is a convenient tool to analyze simple as well as
complex structures.
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Types of analysis• structural analysis (static and dynamic analysis).
• thermal analysis.
• fluid flow analysis.
• field analysis (electrical, magnetic, electromagnetic
and electrostatic).
• manufacturing simulation and optimization.
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General steps• select the element type and discretize the
component
• derive the element stiffness matrix
• assemble global stiffness matrix
[F] = [k]{d}
• solve to obtain nodal displacements
• solve for element strains and stresses
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Design Review and Evaluation
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General steps(i) Dimensioning and tolerance routines
(ii) Interference checking..
(iii) Kinematics
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Automated Drafting
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Definition• Automated drafting capabilities in CAD systems
facilitate presentation, which is the final stage of the
design process. CAD data, stored in computer
memory, can be sent to a pen plotter or other hard-
copy device
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Command, Menu And Icon Driven
Software
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3D printing
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3D printing• Is a process of making three dimensional solid
objects from a digital model. 3D printing is achieved
using additive processes, where an object is
created by laying down successive layers of
material.
• 3D printing is usually performed by a materials
printer using digital technology.
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Principles3D Designs
• The use of additive manufacturing takes virtual designs from computer aided design (CAD) or animation modeling software, transforms them into thin, virtual, horizontal cross-sections and then creates successive layers until the model is complete. It is a WYSIWYG process where the virtual model and the physical model are almost identical.
• The standard data interface between CAD software and the machines is the STL file format. An STL file approximates the shape of a part or assembly using triangular facets. Smaller facets produce a higher quality surface. VRML (or WRL) files are often used as input for 3D printing technologies that are able to print in full color.
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PrinciplesPrinting
• To perform a print the machine reads in the design
and lays down successive layers of liquid, powder,
or sheet material, and in this way builds up the
model from a series of cross sections. These layers,
which correspond to the virtual cross section from
the CAD model, are joined together or fused
automatically to create the final shape. The primary
advantage of additive fabrication is its ability to
create almost any shape or geometric feature.
• Typical layer thickness is around
100 micrometers (0.1 mm),
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Applications• Rapid prototyping
• Rapid manufacturing
• hobbyist uses
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Video 2 (Sensormate)
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Database• In essence, the successful implementation of CIM
lies in the efficient way relevant data is shared
among the different segments of CIM.
• The information required for manufacturing is
complex covering a wide range of disciplines and
serving a multitude of inter-related yet vastly differing needs.
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Database• The CIM database comprises basically four classes
of data:
a) Product Data.
b) Manufacturing Data.
c) Operational Data.
d) Resource Data.
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Database
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Database• Definition of database:
A collection of data in a single location designed to
be used by different programmers for a variety of
applications.
A collection of logically related data stored
together in a set of files intended to serve one or
more applications in an optimal fashion.
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Database• Classifications of Data:
a) Physical Data.
b) Logical Data.
c) Data Independence.
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Database• Objectives of database:
a) Reduce or eliminate redundant data.
b) Integrate existing data.
c) Provide security.
d) Share data among users.
e) Incorporate changes quickly and efficiently.
f) Exercise effective control over data.
g) Simplify the method of using data.
h) Reduce the cost of storage and retrieval of data.
i) Improve accuracy and integrity of data.
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Database• Features of database management system:
a) Organize a database.
b) Add new data to the database.
c) Sort the data in some meaningful order.
d) Print the data into formatted reports.
e) Edit the data.
f) Delete the data.
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Database• Database models:
a) Hierarchal database.
b) Network database.
c) Relational database management system.
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Process planning• Process planning is concerned with determining the
sequence of individual manufacturing operations needed to produce a given part or product.
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Process planning• The resulting operation sequence is documented
on a form typically referred to as operation sheet.
• The operation sheet is a listing of the production
operations and associated machine tools for a work part or assembly.
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Process planning• The process planning activity can be divided into several
steps:
a) Selection of processes and tools.
b) Selection of machine tools/Manufacturing equipment.
c) Sequencing the operations.
d) Grouping of operations.
e) Selection of work piece holding devices and datum surfaces (set ups).
f) Selection of inspection instruments.
g) Determination of production tolerances.
h) Determination of the proper cutting conditions.
i) Determination of the cutting times and non-machining times (setting time, inspection time) for each operation.j) Editing the process sheets.
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Process planning• Advantages of process planning software:
a) Reduces the skill required for a planner.
b) Reduces the process planning time.
c) Reduces the process planning and manufacturing
costs.
d) Creates more consistent plans.
e) Produces more accurate plans.
f) Increases productivity.
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Process planning• Operations of a typical computer aided process
planning software:
a) Process planning.
b) Creating a new plan.
c) Retrieval of plan.
d) Summary information.
e) Report generation.
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Process planning• Disadvantages of CAD based process planning:
a) The inability to represent special manufacturing
techniques like coatings and surface treatment.
b) Lack of data interchange between some drafting
representations.
c) In the case of precision components, the process
design can be extremely complex.
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CNC System and Machines
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CNC MachineThe Important Mechanical Parts of CNC Machine
• 1‐Machine structure
• 2‐Guide ways
• 3‐Linear motion transmission elements
• 4‐Torque transmission units
• 5‐Spindle and Spindle bearings
• 6‐Tool mechanisms
• 7‐Chip removal mechanisms
• 8‐Guards
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1‐Machine structure
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2‐Guide ways
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3‐Linear motion transmission elements
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4‐Torque transmission units
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5‐Spindle and Spindle bearings
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6‐Tool mechanisms
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7‐Chip removal mechanisms
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8‐Guards
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CNC SystemAn operational numerical control system consists of the
following three basic components:
1. Program
2. Controller unit
3. Machine tool or other controlled process.
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Controller unit
• It consists of the electronically elements which are
required to read and interpret the program of
instructions and converted it to the required
actions.
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Controller unit• It included the following items:‐
1‐Tape reader
2‐Data buffer
3‐Signal output channels to the machine tool servomotors
and other machine controls come from controller unit.
4‐Feedback channels from the machine tool to the
controller to make certain that the instructions have been properly executed by the machine.
5‐The sequence controls to coordinate the overall
operation over all machine elements.
6‐The control panel by which the operator runs the NC
system. It also contain data displays
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How Numerical Control Operates Machine Tools?The following steps summarize how NC works:
• Numerical data feed into the system by punched tape, floppy disk, magnetic tape, or directly from a computer
• A translating unit reads the data and changes it into an electrical form that the machine tool can understand
• A memory system stores the data until it is needed
• Servo units (transducers) on the machine tool convert the data into actual machine movements
• A gauging device measures the machine movements to determine if the servo units have driven the correct commands
• A feedback unit feeds information back from the gage device for comparison so that the machine moves to the correct location
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PROGRAMMING FEATURES
Some standard programming features include:
• Absolute/Incremental programming
• Decimal point programming
• Diameter/Radius Programming
• Linear, circular and helical interpolation
• Multiple part program storage
• Sequence number search
• Feed/min or feed/rev Programming
• Dwell programming (In block containing dwell
code)
• Position preset.
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CodesPreparatory codes and miscellaneous codes:A typical line of a CNC program (called block) is given below:
N 0040 G01 X100.05 Y180.95 F15 S450 M08 $
This type of formatting the program is referred to as word address format. Other commonly used word addresses are :• T for tool• V for cutting speed• A for angle, etc. G-codes or G functions are mainly NC functions. These are also called preparatory functions.Some of these have been assigned standard functions and others are left to be defined by the CNC system manufacturers.
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Some Preparatory Codes(G codes)
Interpolation Function
• Positioning (Rapid
Movement) (G00)
• Linear interpolation
(G01)
• Circular interpolation
(G02, G03)
Inch-metric conversion
(G20, G21)
Canned cycles:
• Outer diameter cutting
cycle (G90)
• Thread cutting cycle (G92)
Feed functions:
• Feed per minute (G98)
• Feed per revolution (G99)
• Dwell (G04)
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Miscellaneous Codes (M Codes)
• M02 End of program
• M03 Spindle CW
• M04 Spindle CCW
• M08 Coolant on
• M09 Coolant off
• M06 Tool change
• M30 End of program and rewind
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Effect of CAD/CAM on CNC
• The integration of CAD and CAM has resulted in a
paradigm shift in the methodology of NC
programming. Today it is possible not only to
generate CNC program required to manufacture a
component directly from the CAD model but also
design and model the fixturing set up, design the
blank, process plan, select optimum process
parameters, and simulate the machining operations
on the CAD/CAM workstations to ensure that the
program is capable of producing acceptable
components.
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CAD/CAM to CNC program
• The block diagram shown illustrates the steps
involved in creating a NC program using a CAM
software package. The starting point of CAM is the
CAD file.
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Video 2 (Mazak)
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Robots• Definition of a robot:
A device that performs functions ordinarily ascribed
to human beings, or operates with what appears to
be almost human intelligence.
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Robots• Elements of a robot system:
a) Components of the robot manipulator.
b) Control system.
c) Computer system.
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Robots• Objectives of using robots:
a) Capabilities superior to human beings.
b) Better to perform single and repetitive tasks.
c) Perform tasks that are difficult and hazardous.
d) No limitations and negative attributes as humans.
e) Lower costs through efficiency and consistency.
f) Flexible since they can be reconfigured and
reprogrammed.
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Robots• Classification based on mechanical configuration:
a) Rectangular Co-ordinate Robots.
b) Cylindrical Co-ordinate Robots.
C) Spherical Co-ordinate Robots
d) Revolute Co-ordinate Robots.
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Robots• Classification according to freedom of motion:
a) Roll.
b) Pitch.
c) Yaw.
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Robots• Classification according to drive systems:
a) Pneumatic.
b) Hydraulic.
c) Electric.
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Robots• Classification according to control systems:
a) Robot control through non servo operation.
b) Servo controlled robots.
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Robots• Programming methods:
a) Guiding.
b) Teach pendant.
c) Off-line programming.
d) On-line programming.
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Robots• Robot programming activities:
a) Modeling the workspace.
b) Path generation.
c) Sensing.
d) Programming support.
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Robots• Robot modes of operation:
a) Pick and place.
b) Point to point.
c) Continuous path.
d) Controlled path.
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Robots• Applications:
a) Material handling.
b) Machine tending.
c) Welding.
d) Surface coating.
e) Machining.
f) Assembly.
g) Inspection.
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Robots
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Shop floor data collection systems
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• Monitoring the progress of the jobs is an integrated
part of CIM.
• Collection of machine data statistics, estimation of
the non-production times and machine utilization,
tracking of flow of materials, determination of job
completion times and realization of schedules, etc.
are necessary to evaluate the efficiency of the
functioning of the system.
• This requires automatic or direct data collection
from the shop floor.
• The techniques and technologies by which the
status of production is collected are called shop
floor data collection.
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SHOP DATA REQUIREMENTS
• PEOPLE - AVAILABILITY
a: Workstations
b: Idle
c: Absent
• MACHINES - STATUS
a: Idle
b: Setup
c: Production
d: Delay
• PARTS/RAW MATERIALS
LOCATION
a: Raw Stores
b: Transit
c: On-machine
d: Waiting
e: Finished stores
f: Assembly
g: Missing
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TYPES OF DATA COLLECTION SYSTEMS
• ON-LINE DATA COLLECTION SYSTEMS
• OFF-LINE DATA COLLECTION SYSTEMS
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Manual Data Input Techniques
• CENTRALIZED TERMINAL
• SATELLITE TERMINALS
• WORK CENTRE TERMINALS
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AUTOMATIC DATA COLLECTION SYSTEM
The advantages of the automatic data collection
methods are:
• The accuracy of data collected increases
• The time required by the workers to make the data
entry can be reduced.
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Computer aided quality control
The quality control (QC) function has traditionally
been performed using manual inspection methods
and statistical sampling procedures.
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A wide range of computer-based instrumentation is
being used for quality control. In particular the
increased sophistication of sensors and transducers is
making it easier to carry out pre-process, in-process,
and post-process inspection. Inspection and testing
are meant to reduce wastage and make maximum
use of resources.
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At present, inspection with the use of computers has
acquired a status of its own known as COMPUTER
AIDED INSPECTION (CAI) and is an integral part of
Computer Integrated Manufacturing.
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important benefits of CAQC.i. With Computer aided inspection and computer
aided testing inspection and testing will typically be
done on a 100% basis rather by the sampling
procedures normally used in traditional QC.
ii. Inspection is integrated into the manufacturing
process. This will help to reduce the lead-time to
complete the parts.
iii. The use of non-contact sensors
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CIM hardware and CIM software
CIM Hardware comprises the
following:• CNC machines
• robotic work cells
• tool handling devices
• storage devices
• Sensors, controllers
• shop floor data collection devices
• inspection machines etc.
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• Management Information System
• Sales
• Marketing
• Finance
• Modeling and Design
• Analysis
• Simulation
• Communications
• Production Control
• Inventory Control
• Materials Handling
• Process Planning
• Quality Management
CIM software comprises computer programs to carry out some functions
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• Software packages used for conceptual design like
Alias and for geometric modeling like solid
modeling (Solid Works, CATIA, Pro/Engineer etc.).
• Application software which includes the programs
for design analysis, simulation, tool design, process
planning, CNC programming, computer inspection
etc.
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NATURE AND ROLE OF THE
ELEMENTS OF CIM SYSTEM
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CIM models• Manufacturing management today has to face
several challenges, in order to be competitive in the
world market:
a) Introduction to changes in specifications.
b) Capacity management.
c) Tracking.
d) Balance between make to order and make to stock.
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CIM models• Siemens model:
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CIM models• The manufacturing industries have to deal with a
number of challenging issues to day:
a) Raising customer expectations.
b) Globalization.
c) Developments in technology.
d) Access to information.
e) Environmental concerns.
f) Intense competition.
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Product development through CIM
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Product development through CIM
• CIM helps to reduce the product development cycle
time.
• Product Development have two approaches:
sequential and concurrent Engineering
approaches
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Sequential Approach• It includes product design, development of
manufacturing process and supporting quality and
testing activities, all carried out one after another.
• This situation assumes that there is no interaction
among the major departments involved in product
manufacturing during the initial development
process.
• Often the need for engineering changes is
discovered during planning or manufacturing or
assembly.
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Sequential Approach• This will lead to conflicts, each department sticking
to their own decisions and may often require
intervention of senior management to resolve
conflicts or differences in opinion.
• Design changes will involve both material and time
wastages.
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Concurrent Engineering Approach
• Concurrent engineering is a methodology of restructuring the product development activity in a manufacturing organization using a cross functional team approach
• It is a technique adopted to improve the efficiency of product design and reduce the product development cycle time.
• Concurrent Engineering brings together a wide spectrum of people from several functional areas in the design and manufacture of a product. Representatives from R & D, engineering, manufacturing, materials management, quality assurance, marketing etc. to develop the product as a team.
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Concurrent Engineering Approach
• The teamwork also brings additional advantages ;
the co-operation between various specialists
ensures quick optimization of design and early
detection of possible faults in product and
production planning.
• This additionally leads to reduction in lead time
which reduces cost of production and guarantees
better quality
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Comparison between both approaches
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REDUCTION IN THE NUMBER OF
DESIGN CHANGES
CE
Sequential
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COST OF CHANGES IN DESIGN
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HOLISTIC APPROACH TO
PRODUCT DEVELOPMENTConcurrent engineering approach introduces a new
philosophy in product development:
• No longer is product development considered the
exclusive activity of the design department.
• Participation of planning, manufacturing,… etc.
personnel in the development process enables the
cross functional team to view the development as a
total responsibility and this results in better
communication among the various departments.
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ROBUST PRODUCTS• Concurrent approach to product design results in
products with fewer errors and therefore avoids the
loss of goodwill of the customers due to poorly
engineered products.
• The entire product development team looks at
each and every aspect of products for example:
cost, specifications, aesthetics, ergonomics,
performance and maintainability.
• The resulting product will naturally satisfy the
customer.
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REDUCTION IN LEAD TIME FOR
PRODUCT DEVELOPMENT• Time compression in product development is an
important issue today.
• Concurrent engineering reduces the product
development time significantly as the preparatory
work in all functions can take place concurrently
with design.
• Elimination of the errors in design appreciably
reduces the possibility of time overrun, enabling the
development schedule to be maintained.
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Simulation• Simulation in manufacturing refers to a broad
collection of computer based applications to
imitate the behavior of manufacturing systems.
• A system is a facility or a process either
• actual or planned such as factory with workers,
machine tools, materials handling devices, storage devices etc.
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Simulation• Factory simulation involves creating a virtual
factory.
• Instead of simulating a process or a work center the
entire factory is simulated to have a clear
understanding of the working of the plant as a whole.
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Simulation• In addition to usual applications like system design
and performance estimation, simulation can also
be used for scheduling.
• The simulation software in this case gathers the
required data from manufacturing execution
system and generates multiple schedules from which optimum could be selected.
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Simulation• Classified into three types:
a) Static or dynamic simulation.
b) Continuous or discrete.
c) Deterministic or stochastic.
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Simulation• Techniques of simulation:
a) Simulation using general purpose languages.
b) Simulation using simulation languages.
c) High level simulators.
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Simulation• Simulation process for manufacturing system
analysis:
a) Model design.
b) Model development.
c) Model deployment.
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Simulation• Simulation software packages:
a) Analytica.
b) Crystal ball.
c) Extended OR.
d) GPSS.
e) Pro model.
f) SIGMA.
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CAD/CAM• CAD/CAM - Key to improve manufacturing productivity
and the best approach for meeting the critical design requirements.
• CAD/CAM software provides engineers with the tools needed to perform their technical jobs efficiently and free them from the tedious and time-consuming tasks that require little or no technical expertise.
• CAD/CAM software speeds the design process, therefore increasing productivity, innovation and creativity of designers.
• CAD/CAM is the only mean to meet the new technological design and production requirements of increased accuracy and uniformity
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Advantages • Software Flexibility
• Design Flexibility
• Automatic Specification Checking
• Design Time
• Design Variations
• Precision and Repeatability
• Marketing and Sales
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Disadvantage• Processing Power Limitations and Cost
• Software Complexity
• It is easy to lose data if files are not regularly
‘backed up’. Disadvantages of Using CAD/CAM
• There is a lack of opportunity to experiment with
real materials and 3D forms.
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Aerospace & DefenseAerospace and defense components demand quality
of the very highest standard, and are frequently
made from a solid block of a tough material such as
titanium.
Because long and complex operations are common,
the added value within the components can be
considerable, making errors in machining very costly
indeed.
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For aerospace components these factors are
particularly important, as tool failure can seriously
damage the part, while excessive machining forces
can be deleterious to the material structure, which
may affect the performance of the finished part.
Safety is a key issue in the aerospace and defense
industries, so traceability of batches and material is
very important, as is a record of quality assurance
activities such as calibration, inspection and design
change.
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Medical & DentalCAD/CAM Dentistry (Computer-Aided Design and
Computer-Aided Manufacturing in Dentistry) is an
advanced area of dentistry that uses computer
technology to help design and manufacture different
types of dental restorations.
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