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Depending on the type of product and the material for which your product is designed, there are specific prototyping methods best suited for a particular process. In this section we will try and cover the most common methods of prototype using the latest technologies available.
Plastic Prototype Part
For Plastic injection molded parts, the most common high
tech method of prototype is the Rapid Prototype process. Rather than try and
explain the details of the process, let us simply say the process is like building
up the part in layer's which deposits material only in that layers slice from
roughly 0.005" thick to 0.015" thick per layer. This process requires a Solid Model file in order to export to
STL file format for growing of
your parts. We can create a solid model part file, then create the appropriate
file for growing of your finished part.
Metal Cast Prototype Part
The process for metal prototype parts are similar in
some ways to plastic parts, except these are created from a rubber mold which
is made from the prototype part as outlined above. The difference is once the
part is "grown" from the STL model file, that part is then cast in a rubber
mold which is then used to pour a 80% aluminum composite material into it. The
resulting poured part does not have the same strength properties as a machined
or Die-Cast prototype part, but it is an excellent alternative to a plastic
rapid prototype part when higher temperatures are required.
This process requires
a Solid Model file in order to export to an STL file format for growing of your
parts. We can create a solid model part file, then create the appropriate
file for growing of your finished part.
At this stage of the process, typically what is being prototyped
is only the form and fit of the product, not necessarily the function with strength
testing. If form, fit and function testing are required, then you would need
to prototype the part in its final specified material, whether it be plastic,
Cast Aluminum, Zinc or sheet metal.
Prototype Tooling
Another method for prototyping your product is to have
a prototype tool made. This will allow you to test the product in its final
environment, taking in all the considerations of form, fit and functionality.
This is usually a more expensive route to take, however, it is also highly dependent
on the configuration of your part. As a general rule, the more complex the part
is, the more the tool will cost to produce the part. In comparison, the Rapid
Prototype Process does not care about the complexity, only the time it take
for the machine to run your part which is determined by the typical wall thickness
and the overall dimensions.
Sheet Metal
Original Concepts Design, Inc. is experienced in, and have
the 3D parametrically linked software, to design your sheet metal project providing
complete final product drawings with bends and stamping cutouts, as well as
unbent in the flat as stamped mode prior to the bends. This makes the stamping
house's job easier and provides for minimal interpretation errors. Original
Concepts Design, Inc., provides "Top-down" assembly design. We create the first
component starting in the assembly environment and use all relative geometry
to define the subsequent components. This gives us the confidence your parts
will fit together without incident.
Please send us your feedback if you find this site could better serve your needs.
We will hold all information in the strictest confidence. We maintain very high ethical standards and enforce non-disclosure policies to all employees and personnel. Our business is Product Design, Mold Design, 3-D Solids Modeling, Flow Analysis, Industrial Design and Reverse Engineering. We do everything within our control not to discuss or mention your project to those not directly involved in the development process.