Chapter 1 6 step design process

ME3101 / ME3102
Mechanical Systems Design
Chapter 1:
6 Step Design Process

The 6 Step Design Process
• Step 1: Identification of
customer needs and product
requirements

• Step 2: Concept Generation

• Step 3: Concept Selection

• Step 4: Concept Testing and
Every industrial product Final Specifications
design project goes through a
standard process of • Step 5: Raw Material
Acquisition for Prototyping
development, beginning with
identification of needs and the • Step 6: Prototype
final production of a product Development

The First Step

Identification of
customer needs and
product requirements

#1 Identification of customer needs
and product requirements
• What industry is the company involved in?
• What is the aim of the company?
• The 1st step of the • What does the company hope to achieve
project would begin with the launch of the product?
• What are the current capabilities of the
with the company?
identification of the • Are they able to satisfy the full
developmental budget requirement should
customer needs. The the project be deemed feasible?

team might need to
seek to understand
profile of the
industrial sponsor to
begin off.

• The product designed in question
have to be relevant to the sponsor
company involved.

• Is the company a retail based
company where end user opinions
are extremely important?

• Or are they in the tech industry
where usability and functionality is
priority?

• Next, we move on to the product itself,

• Does the product have to include aesthetic or
ergonomic designs?

• Also, the aims of the company and the objective
of the product have to be clearly defined.

• Is the product meant to achieve any performance
benchmarks, and what are the most important
characteristics of the product to the company?

• Once these have been clearly defined, the team
would have to start drawing the boundaries on the
project. Is there a budget that the team have to
adhere to? Some sponsor companies can provide
additional funds/facilities to aid the team in their
developmental plan or manufacturing processes.
The team might want to consult the industry contact
for more additional information.

• Once these have been clearly
defined, the team would have
to start drawing the boundaries
on the project.

• Is there a budget that the team
have to adhere to?

(Hint!)
Some sponsor companies can
provide additional
funds/facilities to aid the team
in their developmental plan or
manufacturing processes. The
team might want to consult the
industry contact for more
additional information.

#2 Concept Generation

The second step of the developmental
process is the generation of concepts, or
also widely known as the brainstorming
stage. At this stage, the team would
brainstorm for different ideas. Each
member of the team would bring a
different proposal to the table for robust
discussion within the team to encourage
the generation of creative/innovative
design. Many successful products in
today’s world are born only after being
filtered down from a very long list of
possibilities.


The team might seek for inspiration 1. Clarification of problem?
through these methods 
2. External/Internal search for
existing solutions

3. Interview of end users

4. Consultation of experts

The first thing that the team
might want to answer when
generating ideas is what is the
purpose the product is
supposed to serve? Is it meant
to achieve a certain function?

Or is your product meant to
improve the performance
level of a existing product?
Once the problem has been
defined clearly, the team can
move on to the search for
ideas.

For inspiration, the team can
perform a search externally and
internally.

For example, the team can develop
ideas based on personal
experiences and that of relatives
and friends.

An external search can be done on
the internet or an industry research
on existing solutions to the defined
problems and should these solutions
be unable to provide a satisfactory
answer, the team would either seek
to pursue a completely new design or
an improvement on the existing
model.

At the end of the day, the team should not forget that the product is meant
for usage by the end-users. For example, developing new tools have to take
into consideration factors such as the education level of the users. Does it
require extensive training before safe use? Is the tool bulky and
inconvenient to use? What are the environmental factors in the field where
the tool is deployed?

Lastly, to ensure relevance of the
product, experts can be consulted for
interviews.

An interview can be conducted offline
or online with the prevalence of
modern communication tools.

The team can consider an email
interview with relevant experts, or
should they deem it necessary, a face
to face interview could be arranged.

The team can consult their project
supervisor for contact references
should they be unable to find a
suitable expert.

#3 Concept Selection

The concept generation phase of the project will wind up with the
team having dozens of possible ideas on the table.

#3 Concept Selection

Once the team has filtered
down the large list of
possibilities to a select few, for
example 3 possible ideas,

The team can move on to a very
detailed and precise analysis of
these ideas, which is one of the
most critical phase of the
project.

#4 Concept Testing and Final
Specifications

At the 4th step of the
developmental
process, the team
would decide on the
final specifications of
the product.

At this phase, the team Specifications
would further flesh out the
3 ideas that are selected.

The physical dimensions
of the different components
and its overall geometric
layout would be decided
upon.

It would also be a plus
should the team be able to
generate a 3D Computer
Aided Design (CAD)
model of the proposed
design using the available
modelling softwares at the
E2 computer labs.

Specifications
Physical prototype models
would be generally be created in
an industrial setting, as physical
models makes it easier for
designers to communicate their
concepts.

For the purpose of this design
project however, it would be
realistic for the team to only
focus on the development of a
single working prototype, which
would then be presented to the
industry sponsor at the end of
the module.

It is suggested that the team further scrutinize Specifications
the capabilities of each of the 3 selected
models, with help of the 3D models:

•Which would best satisfy the design
requirements?

•Do the different components come together?

•Which design features lesser components?
(This would be further discussed in a later
topic, Design for Manufacturing/Assembly)

•At the end of this phase, the team would then
move on to further develop the prototype of
the product.

#5 Raw Material Acquisition for
Prototyping
For the purpose of the project, every team is allocated a sum of money for
purchase of materials required to develop a working model of their
product. It is expected that the teams keep within the allocated
budget.

Prototyping
The material acquisition process would be done through a
centralized system . More information can be found on the
module website.

Do perform a check on whether the company is registered
through GEBIZ.

If they are not…
Unregistered vendors can be registered. Refer to the module
website for more information

Prototyping
At this stage of the developmental process, the team would go
through the process of sourcing for the most affordable
vendor for their raw materials.

Should the team decide that the list of registered vendors be
unable to satisfy their selection criteria, the team might seek
to source for alternative vendors externally.

Some external search suggestions are listed on the module
website.

#6 Prototype Development
At the final stage of the design
project, the team would engage in the
physical development of the
prototype model.

As the amount of raw materials
available to each team is limited, it is
encouraged that the team consult
with their existing 3D CAD models to
confirm the physical dimensions
demanded.

Should the team feel that they need
further advice on the manufacturing
processes, they can opt to consult
the experienced lab technicians
within the school.

A list of available manufacturing
labs within NUS is provided on
the site for the student’s reference.

Some teams might
however, encounter a situation
where the facilities required are not
available within the school itself.

The team can either consult their
industry sponsor if they are able
to support these operations.

They can also discuss with their
project supervisors the feasibility of
outsourcing the required
manufacturing operations.

Teams are advised to
develop a schedule to
adhere to during this phase
of the project, and to start
as soon as possible due to
the limited capacity of
manufacturing labs.

Some manufacturing labs
can only allow a maximum
of 15 personnels at any
point of time to ensure
safety of the operators and
users in the labs.


Safety procedures are to be strictly
followed and students are expected
to attend a compulsory safety
briefing prior to their participation
in any manufacturing activities.

Please be advised that students are
discouraged to perform any
experimental /manufacturing
activities outside of the school
compound for their own safety, and
that such activities are to be strictly
performed under supervision of an
experienced lab technician to
safeguard the well being of students.

Chapter 1 6 step design process

Chapter 1 6 step design process

More Related Content

What's hot (20)

Viewers also liked (20)

Similar to Chapter 1 6 step design process (20)

More from dantares (6)

Recently uploaded (20)

Chapter 1 6 step design process