Mevopur™ formulations for PCR well plates prevent 'cross-talk' and minimize phosphorescence with optimally dispersed TiO2, while balancing melt flow and physical properties, and ensuring quality through ISO 13485:2016 certification.

Mevopur™ formulations for PCR well plates prevent 'cross-talk' and minimize phosphorescence with optimally dispersed TiO2, while balancing melt flow and physical properties, and ensuring quality through ISO 13485:2016 certification.

Rigid vinyl: Resilience™ HC formulations provide field-tested, exceptional, chemical resistance across a range of disinfectant chemistries, combined with excellent melt flow, flame and UV resistance and attractive appearance. 

Mevopur™ formulations for PCR well plates prevent 'cross-talk' and minimize phosphorescence with optimally dispersed TiO2, while balancing melt flow and physical properties, and ensuring quality through ISO 13485:2016 certification.

Mevopur™ formulations for PCR well plates prevent 'cross-talk' and minimize phosphorescence with optimally dispersed TiO2, while balancing melt flow and physical properties, and ensuring quality through ISO 13485:2016 certification.

Complēt MT proved material performance success through extensive Mold Flow and FEA simulations to prove concept without prototyping and minimize development costs

Trilliant™ HC Conductive Formulation offered consistent electrical conductivity and provided high flow grade to conductive pipette tips

Complēt MT proved material performance success through extensive Mold Flow and FEA simulations to prove concept without prototyping and minimize development costs

Reinforced polymer materials are increasingly being used for structural applications because they allow manufacturers to replace traditional metal components with lighter-weight plastics. However, transitioning from metal to plastic requires thorough technical analysis and preparation. By factoring in static and dynamic data, the CAE simulations can identify where an injection molded plastic part may crack or break when exposed to real-world conditions such as physical loading force, sudden impact (crash simulation), or environmental factors like temperature and humidity.  

Reinforced polymer materials are increasingly being used for structural applications because they allow manufacturers to replace traditional metal components with lighter-weight plastics. However, transitioning from metal to plastic requires thorough technical analysis and preparation. By factoring in static and dynamic data, the CAE simulations can identify where an injection molded plastic part may crack or break when exposed to real-world conditions such as physical loading force, sudden impact (crash simulation), or environmental factors like temperature and humidity.