reverse engineering & its application
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Reverse Engineering & Its Application
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Reverse Engineering• Systematic evaluation of a product with the purpose of replication.
Design of a new part
Copy of an existing part
Recovery of a damaged or broken part
• An important step in the product development cycle.
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Importance• We cannot start from the very beginning to develop a new product
every time.
• We need to optimize the resources available in our hands and reduce
the production time keeping in view the customers’ requirements.
• For such cases, RE is an efficient approach to significantly reduce the
product development cycle.
For example: Impeller Pump Design
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Suppose there is a impellor pump which had an original pumping
capacity of 20000 cubic feet of water per minute; now, after a year of
use, the pump manufacturing company finds that it is pumping 19000
cubic feet per minute. They need to figure out what happened to that
extra 1 thousand cubic feet in performance. The pump manufacturer
scans the year-old impeller into the CAD system. Once those
measurements are captured, engineers can compare the
measurements taken from the actual impeller against the original, as-
designed part. This helps determine exactly how and where the part
has degraded. With that information in hand, engineers can redesign
the impeller to avoid future loss in pumping capability.
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Advantages
• RE typically starts with measuring an
existing object, so that a solid model can be
deduced in order to make use of the
advantages of CAD/CAM/CAE technologies.
• CAD models are used for manufacturing or
rapid prototyping applications.
• Hence we can work on a product without
having prior knowledge of the technology
involved.
Cost saving for developing
new products.
Lesser maintenance costs
Quality improvement
Competitive advantages
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RE Process
I. Digitization of the object/
Data Capturing (using
CMM, scanners etc.)
II. Processing of measured
data
III. Creation of CAD model
IV. Prototype
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Rapid Prototyping in combination with RE
• A group of techniques to quickly fabricate a scale
model of a physical part or assembly using 3D CAD
data
• Integration of reverse engineering and rapid
prototyping is being used for getting product to the
market quickly by resolving a long-standing conflict
between design and manufacturing
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CAD model generation using laser scanner: (a) wooden pattern, (b) cloud of points, and (c) 3D CAD model
a b c
Fabricated RP Model
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Areas of Application
Design of a new component
Reproduction of an existing component
Improving quality & efficiency of existing parts
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Manufacturing Engineering
• To create a 3D virtual model of an existing physical
part for use in 3D CAD, CAM, CAE or other software
• To make a digital 3D record of own products
• To assess competitors' products
• To analyze the working of a product
• To identify potential patent infringement etc.
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Software Engineering
• To extract design & implementation information
• To detect and neutralize viruses and malware
• To determine chemical composition
• To substitute or improve recipes to stimulate or improve the
products performance
Chemical Engineering
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Film-Entertainment Industry
• Animated objects are imparted motion using the
reverse engineered human skeletons
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Medical Field
• Applications in orthopedic, dental & reconstructive surgery
• Imaging, modeling and replication (as a physical model) of a patient's
bone structure
• Models can be viewed & physically handled before surgery, benefiting
in evaluation of the procedure & implant fit in difficult cases
• Less risk to the patient and reduced cost through saving in theatre
time
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Medical Field Applications
Hip Replacement
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A Case Study
Adapted from “Reverse engineering in the design of turbine blades-a case study in applying the MAMDP” by Liang-Chia Chen, Grier C.I. Lin
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• The large amount of surface data generated from the fast 3D
digitizers is not easily modeled by current CAD/CAM systems.
Inadequate data reduction methods are not only time
consuming, but lose surface characteristic points.
• Consequently, the reconstructed surfaces could lose their true
shape in the design cycle. The time required for reprocessing
in this case would be unacceptable to the manufacturing
industry and thereby be unusable for further steps.
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• The study describes how the developed reverse
engineering approach MAMDP was successfully
applied to design of turbine blades and the
existing problems encountered in reverse
engineering processes were overcome.
• MAMDP stands for Modified Adaptive Model-
based Digitizing Process
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A 3D initial triangular patch of a subdivided surface patch generated by IVSTP
The surface triangular patch of a subdivided surface patch of the turbine
The surface model of a subdivided surface patch of the turbine blade (before surface trimming)
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The surface model of the measured turbine blades.
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Generation of initial surface triangular patches of turbine blades
• A charge-coupled device (CCD) camera is used
to rapidly detect the object's position and
measure its surface boundary coordinates, to
establish exploration paths for further
automatic surface digitization of a touch
probe.
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• Free-form surface subdivided into an adequate number of
individual surface patches
• 3D stereo detection method is applied to automatically
detect 3D surface boundaries
• Initial triangular patch by applying Triangulation process
• A 3D initial triangular surface patch can be rapidly
generated & used for probe exploration paths in the
following MAMDP
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Automatic surface digitization & surface modeling by using the MAMDP
• The surface model is used to calculate the new
exploration points at the approximate
midpoints between the vertices of the initial
triangular patch.
• CMM then automatically digitizes these
exploration targets
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• Adaptive approach evaluates the digitizing accuracy by
calculating the deviations between the target points and
the digitized points
• New exploration targets will be generated at the estimated
midpoints between vertices of those triangular patches
where deviations are higher than the user-specified
tolerance
• This iterative digitizing loop will continue until all new
digitized deviations are within the specified tolerance
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• Totally 786 surface characteristic points were automatically
digitized by a touch-triggered probe in CMM. The time spent
for this job was 45 min. The digitizing accuracy can be
controlled within 0.25 mm and the maximum fitted error in
the resulting surface model is reduced to 0.030 mm using a
least-squares fitting method.
• To generate a complete CAD surface model of turbine blades,
the individual surface models generated from the MAMDP
have to be merged, according to their geometric relationship.
(Using CAD/CAM package ANVIL5000)
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Future Scope & Possibilities
With the advent of RE & RP, we can hope to see
commercial and domestic use of these technologies
to manufacture desired products at home and offices
which will be revolutionary in coming time.
Possibilities of use of this technology is only restricted
by boundaries of human thinking.
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• 3D laser scanners as robot eye for scanning objects specially in
space missions.
• Scanning technology can be integrated with mobile
phones/cameras and can be used for 3D printing at domestic level.
• Tissue engineering applications where organs and body parts are
built using inkjet techniques. Layers of living cells are deposited
onto a gel medium or sugar matrix and slowly built up to form
three dimensional structures including vascular systems.
• Availability of 3D printers at every home as is now of the normal
printers.
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Around the World…
• 'Wiki Weapon Project' Aims To Create A Gun Anyone Can 3D-
Print At Home.
• The open source Fab@Home project has developed printers
for general use which can use anything squirtable through a
nozzle, from chocolate to silicon sealant and chemical
reactants.
• Some companies offer an on-line 3D printing service open
both to consumers and to industry.
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RE of trans tunnel by Macomb College Students
Video
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References• Eyup Bagci, Reverse engineering applications for recovery of broken or worn parts
and re-manufacturing: Three case studies, Advances in Engineering Software 40 (2009) 407–418
• Yu Zhang, Research into the engineering application of reverse engineering technology, Journal of Materials Processing Technology 139 (2003) 472–475
• Liang-Chia Chen, Grier C.I. Lin, Reverse engineering in the design of turbine blades}a case study in applying the MAMDP, Robotics and Computer Integrated Manufacturing 16 (2000) 161-167
• http://en.wikipedia.org/wiki/Reverse_engineering• http://www.asme.org/kb/news---articles/articles/computational-methods---
modeling/the-rise-of-reverse-engineering• R. Schenker, Novel combination of RE & RP in medicine, South African Journal of
Science, 95, August 1999• 'Wiki Weapon Project' Aims To Create A Gun Anyone Can 3D-Print At Home-
http://www.forbes.com/sites/andygreenberg/2012/08/23/wiki-weapon-project-aims-to-create-a-gun-anyone-can-3d-print-at-home/
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Thank You!