Design for reliability

Our Design for Reliability (DfR) process identifies the set of design actions necessary to mitigate the risks identified during the design risk assessment process. We employ methods such as stress analysis, physics of failure (PoF), and time-to-failure prediction to ensure the product's strength capacity is sufficient to resist environmental stresses and deliver the expected reliability during field operations. 

To identify failure modes and their equivalent design controls, we develop FMEA. Additionally, we utilize numerical methods such as Finite Element Analysis (FEA) and Statistical Simulations to ensure the durability of deployed products. Matlab is our software choice for statistical analysis and Abaqus is our choice for FEA.

Decisions made during early design phases significantly impact product reliability. To maximize product reliability and minimize costly delays, we offer rapid, high-quality verification solutions, leveraging our extensive library of proven setups. If a custom solution is needed, we'll create a tailored verification setup for your specific application. We also develop comprehensive test plans to validate identified failure modes through rigorous product stress testing, giving you confidence in your product's performance.