Simulation and Optimization

During the discovery phase, we meet with our customer to discuss their product in detail. The discussion includes product design, intent, target market identification and any other information relevant to the designing and development of their concept.

We use information provided by our customers to ensure that we use all available resources to understand design feasibility and manufacturability. We gather all empirical data about similar designs to help us learn from existing designs and optimize the product’s design and reliability.

After gathering all available information, we conduct brainstorming sessions with our customers to discuss what we learned and what can be improved.

We first develop a digital prototype, which is reviewed by our customer and then optimized. We then create a physical model of our digital design for testing and design validation. Physical prototypes are then created using the method which is best aligned with the design. Physical prototypes can be generated using the latest technology such as additive manufacturing and traditional (definition of CNC), also known as CNC.

Types of Design Optimization Services


Ergonomic Optimization


Manufacturing Design Optimization

WB Engineering uses various methods of mechanical simulation such as stress analysis, dynamic simulation and fatigue analysis. These simulations allow our engineers to predict performance, optimize designs and understand a product’s behavior before manufacturing, reducing cost and time.

Our engineers have the skills to test and understand how complex product designs and assemblies will perform in the real world. Simulation testing allows for product testing across many environments and situations.

Simulations will test your product for design weaknesses or flaws that could limit the life and usability of the product. With the results of simulation testing, WB Engineering can help you create the best design possible.

Types of Simulation Product Services


Stress Analysis


Dynamic Simulation


Fatigue Analysis

Simulation and Optimization