Title: Reverse Engineering, Ethics, and other issues in Design
1Reverse Engineering, Ethics, and other issues in
Design
- Necessary qualities for successful
- completion of project
- Curiosity, eagerness to take things apart,
willingness to learn from mistakes, interest to
work in a team - Thinking is not an option
2Objective
-
- Dissecting a product
- Understanding how it functions
- Learn basic principles
- Designing/building a new product
- Communicating (oral/written)
3Issues involved
- Cost effective
- Ergonomical
- Aesthetically pleasing/Visually appealing
- Problem with GM and Ford even
though quality is good - Safe (toys, automotive crash,nuclear power
plants subjected to
earthquake or missiles) - Environment friendly (quiet, use recyclable
materials, less consumption of energy,
Biodegradable) - Testing Warranty issues (7 year/100k
miles) - Recent GM Promotions
- Cater to an existing market or create new
market - Ethical issues
4- Last lecture involved Electro-magnetic shock
design to show an interesting project involving
energy recovery. Also various vibration and
acoustic issues were addressed. - Now let us consider some common household items,
dissect them and then try to design a similar
product.
5Study a familiar product
- Vacuum cleaner (or power drill or lawn mower)
-
- Following steps are involved to study the
product - Disassembling the product
- Identifying each component
- Understanding their purpose
- Obtaining information about each component
6 Why hands-on experience
- I hear, I forget
- I see, I remember
- I do, I understand
7Do not forget Safety Rules
- Wear safety glasses
- Do not work alone
- Do not hurry
- Do not work when tired or under the influence
- Use common sense
- Think before you act
- Prevent accidents
8Working in a Team
- By now, you are working in a team (smooth or
rough?) - Working properly in a team is essential to
the success of the project -
- Next few slides are presented to help
functioning properly in a team - If you cant operate as a team player, no
matter how valuable youve been, you really do
not belong at GE - John Welch
- past CEO, GE
- .
9Potential Problems
- Since this may be the first course in your
engineering curriculum, be aware of the potential
problems of working a group and try to avoid them
10(No Transcript)
11(No Transcript)
12(No Transcript)
13(No Transcript)
14(No Transcript)
15(No Transcript)
16(No Transcript)
17(No Transcript)
18Reverse Engineering
- Reverse Engineering is a very common practice
- in industry to understand the product of
competitors - Reverse engineering may also be used for other
- reasons such as reverse engineering of
legacy - parts for an Army project (Mechanical
- Engineering Design, pp 12-15, 2004)
19Back to Dissection
- Now that you have some guidelines for working in
a group successfully, proceed with dissection of
a vacuum cleaner
20Initial Observation
- Let us explore how a vacuum cleaner works
- First identify the vacuum cleaner type,
manufacturer, model, and performance
specifications - Read the instruction manual
- Plug the vacuum cleaner and run it
- Listen to the sound
- Feel how it runs
- Record your observations
21Dissection
- Wear safety glasses
- Unplug the vacuum cleaner
- Disassemble it as far as possible
- Put all parts in a bin (with label of your group)
- Note each part and their purpose (e.g. belt and
pulley mechanism, types of bearings/bushings,
motor, etc.) - Are there any other alternatives of these
components? -
22Reassemble
- Now reassemble your vacuum cleaner
- Suggest any design changes to make reassemble
easier - Once all parts are assembled, plug it in and run
it (make sure you have your safety glasses) - If it does not sound or feel like before or smoke
comes out, unplug immediately and run (try to fix
the problem later !)
23Big Picture
- Understand how different issues are addressed
- Conversion of energy (120V power supply to motor
providing torque - Conversion of motion (Belt and pulley
system) - Safety issues (Child proof)
- Environmental issues (quiet but not too
quiet, hepa filter) - Ergonomic (Carry up the stair, notice the cg
location at the stair grip)
- Material choice (Plastic cover, metal
rod for the roller axle) - Cost (50 to 800!)
- Market (household, commercial)
24Sample project
- Build a mini vacuum cleaner, which can suck a
paperclip - with constraint of material cost no more than 50
- including the motor
25Some Equations
- Even a small or toy vacuum cleaner operating
principle involves some equations - Conversion of electrical power (watts volt
ampere) to mechanical energy - Mechanical power force velocity
- Power imparted to impeller torque angular
velocity - In case of pump (vacuum cleaner)
- required power mass flow rate change in
pressure - Now change of duct size and many other factors
would - govern the required pressure increase by the
impeller.
26Commercial ones
27(No Transcript)
28(No Transcript)
29I want to conclude this part of the lecture with
a note that just designing and manufacturing a
part or a component is not enough. Ultimately
you have to interact with other people whether it
is personnel within your own company or outside
your company. You may work for a company or
agency which either sells a product or buys a
product You need to be aware of a very
important issue ETHICS(seems to be the primary
issue in Illinois gubernatorial election)
30- NSPE Code of Ethics for Engineers
- PreambleEngineering is an important and learned
profession. As members of this profession,
engineers are expected to exhibit the highest
standards of honesty and integrity. Engineering
has a direct and vital impact on the quality of
life for all people. Accordingly, the services
provided by engineers require honesty,
impartiality, fairness, and equity, and must be
dedicated to the protection of the public health,
safety, and welfare. Engineers must perform under
a standard of professional behavior that requires
adherence to the highest principles of ethical
conduct.
31- Fundamental Canons
- Engineers, in the fulfillment of their
professional duties, shall - 1. Hold paramount the safety, health and welfare
of the public. - 2. Perform services only in areas of their
competence. - 3. Issue public statements only in an objective
and truthful manner. - 4. Act for each employer or client as faithful
agents or trustees. - 5. Avoid deceptive acts.
- 6. Conduct themselves honorably, responsibly,
ethically, and lawfully so as to enhance the
honor, reputation, and usefulness of the
profession.
32Case Studies on Ethics
- Personal Value Conflict (helmet design) - Is
possible abuse an issue? -
- Corporate Conflict (1987 Chrysler odometer case,
selling of previously tested cars as new) Is
good intention enough? - Boeing defense contract - Hiring a DOD person
(resignation of top executives, cancellation of
contract, possible loss of jobs if contract goes
overseas) - Pressure from own supervisor (compromise
results) - Conflict of interest (relatives, friends)
- Gifts from suppliers
33Case Studies in Safety/Liability
- Motorcycle gas tank explosion
- Lawn Mower
- DC10 accident in 1989
- Helium tank
- Vat
34Ethics/Vibrations/Sports
- Vibration studies is a big part in Sports e.g.
golf, tennis, baseball etc (e.g. new golf clubs
are designed to hit the ball further). - Unlike golf, major league baseball doe not permit
changing the traditional wooden bat. However,
that does not stop players from trying illegally
changing the bats say by corking.
35Modes of Vibrations of Baseball bat
- Bending Modes and sweet spot
- First Bending Mode
- Second Bending Mode
- Hoop Modes are important
- for hollow aluminum or composite
- bats because of the trampoline effect
-
36- Research shows crime does not pay
- http//www.kettering.edu/drussell/bats-new/corked
bat.html -
- Corked bats do not change the distance traveled
by the ball - Momentum of bat hitting the ball is about the
same (more velocity but less mass) - Let us consider vibration of aluminum and
wooden - baseball bats
- http//www.kettering.edu/drussell/Demos/batvibes.
html - How about other sports? Golf, Tennis, Football,
Yacht, etc)
37Acknowledgement
- MEEP (The manufacturing engineering education
partnership), J. Lamancusa et. al, PSU, 2004. - Society of Professional Engineers
- State of Illinois Ethics Examination
- D. Russell, Kettering University
- Office of Associate Dean, CEET