Polybond's design capabilities are rooted in precision engineering and a deep understanding of material behavior. Using advanced FEA tools like Hypermesh and Abaqus, we simulate real-world conditions to optimize part performance and durability.
By leveraging non-linear analysis, we identify critical stress and elongation zones to enhance reliability under demanding loads. Our expertise in hyper-elastic material modeling, including Mooney-Rivlin and Ogden models, allows us to create designs tailored to specific applications. This integrated approach ensures that every component we produce meets the highest standards of quality and durability.
PRODUCT DESIGN
Polybond employs advanced durability prediction techniques to ensure the long-term performance of its rubber components. By leveraging non-linear simulations using Abaqus, we can precisely identify maximum elongation zones and evaluate how parts perform under durability loads. This analysis enables us to anticipate potential stress points and optimize designs before production, ensuring that every component meets the highest standards of reliability and longevity in demanding applications.
Durability Prediction
Conical Durability
Polybond's expertise in rubber part design is complemented by the use of advanced Finite Element Analysis (FEA) tools like Hypermesh and Abaqus. During the design phase, we simulate real-world conditions to evaluate factors such as strain, stress, and material behavior under various loads. Our hyper-elastic material modeling, including Mooney-Rivlin and Ogden models, allows us to accurately predict how rubber components will perform in challenging environments. This detailed approach ensures that each part is engineered to meet stringent performance requirements, delivering exceptional quality and reliability for our customers.
Rubber Part Design and FEA
Axial Durability (Strain plot)
Axial Durability
