Industries

Our Molded prototypes are mainly used for testing and verification or pi-lot run production of the precision structure parts used in automotive, aerospace, communication, and medical industries. 

Automotive, Aerospace, Communications and Medical industries

Some precision interior structural parts needs to work under the strict environmental conditions, and needs to be resistant to high temperature, cold, durability and high strength to ensure good quality and safety, Such as connectors, fasteners, the parts inside engine, gear box and automatic transmission.

It is necessary to verify and test every index of new developed project before mass production. The injection molded prototypes can meet the requirements of such inspection and testing very well.




 

Aerospace, Communications and Medical Equipment

Apply to test and verify all indexes at the new item development stage.

-Test and verify the performance of injection materials.

To select proper plastic materials used in mass production, Our customers will do the injection test using different plastic materials. We make the prototype mold for our customers to do the test.

-To verify the structural design, such as the strength, the resin liquidity, the injection stability, and the feasibility of mass production.

Because the quality level of our molded prototypes is the same as mass production, And we made them under the same conditions of the mass production, Our molded prototypes can be used to do the injection simulation to find out those problems may happen in mass production.







 



  

The quality of Our molded prototypes is the same as mass production,

Accurate verification becomes possible!

The precision of our molded prototypes is fully comparable to the one made from production mold. Meanwhile, our molded prototypes are made under the same conditions of mass production, All the inspection items can be tested by using our molded prototypes.

The inspection items that can be tested include but not limited to the following:

1. Test and verify the rationality of structural design

2. Test and verify the strength of parts

3. Verify the rationality of mold design

4, Verify the performance of plastic materials

5. Test and verify the stability of mass production 

6. Other tests and certifications required before mass production