PRODUCT DEVELOPMENT
CEMCO R&D conducts extensive research to produce efficient
products and systems that meet or exceed industry standards and
specifications. We use our expertise and state-of-the-art technology
to understand the characteristics and behavior of materials and
finished products under simulated conditions.
Our accredited laboratory is equipped with various facilities that
enable us to conduct experimental studies in physical and mechanical
testing.
We employ the latest in CAD-CAE technology for conception and analyses
of products. We take pride in the comprehensive and rigorous processes
used during all product development phases.
CEMCO R&D Product Development Method
CEMCO R&D implements the following methodologies when developing
our innovative products:
- Conduct product feasibility study
- Develop product models and study the model’s behavior
using computer-aided environments
- Analyze how the product fits with other structural and framing
elements
- Create a prototype and perform prototype testing
- Develop a comprehensive test matrix and conduct final product
end to end testing
- Analyze test results and compare to and correlate with simulation
- Develop design guidelines and tables, as well as provide detailed
structural evaluation
- Obtain patents, if necessary
Since CEMCO R&D believes that good ideas are worth pursuing , we also assist clients with developing and creating innovative products.
Complete our online customer service request form and one of our staff will contact you as soon as possible.
CEMCO R&D Laboratory Services
The CEMCO R&D testing laboratory is equipped with several load frames and data acquisition systems that facilitate and enhance our testing capabilities. Our laboratory provides quality and timely services to our clients.
Samples of the types of mechanical tests we conduct in our laboratory
include the following:
- Tensile tests for characterization of material properties
- Full scale, flexural, shear and web crippling tests for information
about load capacity and the behavior of structural members
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