Loading

Reverse Engineering

Description: 

3D scanning: This common and effective technology allows you to capture a component’s shape, size and surface features in digital form. From there, you can use software to proceed the data into a computer-aided design (CAD) model to machine the component accurately and precisely.

Measurement tools: Measurement tools such as coordinate measuring machines (CMMs) assist in verifying and validating reverse-engineered products. They check the dimensions and identify errors or defects, allowing you to improve the design. These measurement systems are also useful for characterizing the products you want to reverse engineer, capturing product definition to enable redesign.

CAD modeling: This process involves creating or modifying a 3D representation of an object. It allows you to design, simulate and test a reverse-engineered product to optimize its form, fit and function.

Disassembly: In this technique, you dismantle a component to understand how it works and how to re-engineer it to meet OEM specifications.

Reverse-engineering software: Hardware tools are only part of the overall reverse-engineering process. Purpose-built software helps you import, convert and analyze scan data to represent each component accurately.

Testing and prototyping: Turning a digital model into a physical product and testing that product helps verify design assumptions, identify issues and make necessary improvements.

Project: 

Cord Coating Machine

Uses: 

Legacy parts replacement
Service or repair
Failure Analysis
Parts Improvement
Diagnostics and problem solving

Application:

Power Transmission Belts, Air Springs, Tyres, Timing Belts

Advantages:

Output higher by 50%
Reduced Machine price
Flexibility in design
Scope for continuous improvement

Archives

Categories

We understand the importance of approaching each work integrally and believe in the power of simple.

Melbourne, Australia
(Sat - Thursday)
(10am - 05 pm)
Contact us