As low pressure molding (LPM) continues to gain adoption across automotive, medical, industrial, consumer, and outdoor electronics applications, LPMS USA is emphasizing the critical role material selection plays in ensuring long-term product reliability and performance.
While discussions surrounding low pressure molding often focus on equipment capabilities and tooling design, industry experts increasingly recognize that material selection is often the deciding factor in whether an application succeeds in the field.
“Low pressure molding materials do much more than encapsulate electronics,” said Brian Betti, President of LPMS USA. “The material itself determines how well an assembly withstands moisture, chemicals, vibration, temperature fluctuations, UV exposure, and countless other environmental challenges. Choosing the right material for the application is one of the most important decisions manufacturers can make.”
As electronics become smaller, more sophisticated, and increasingly exposed to harsh operating environments, material performance requirements continue to evolve. Automotive sensors must withstand heat, solvents, and vibration. Medical devices often require biocompatibility considerations and long-term durability. Outdoor electronics may face years of exposure to UV radiation, humidity, salt fog, and temperature cycling. Wearable technologies must balance flexibility, comfort, waterproofing, and reliability.
According to LPMS, successful material selection requires evaluating a wide range of factors, including adhesion to substrates, waterproofing requirements, environmental exposure, processing temperatures, mechanical flexibility, chemical resistance, UV stability, color requirements, and long-term performance expectations.
The company notes that adhesion remains one of the most commonly misunderstood aspects of low pressure molding. While manufacturers often focus on selecting the appropriate material chemistry, substrate compatibility and surface preparation can significantly influence bonding performance. Clean surfaces free from oils, contaminants, and residues help establish the foundation for reliable adhesion and long-term environmental sealing.
Material selection also impacts manufacturing efficiency. Different formulations can influence cycle times, flow characteristics, processing temperatures, mold filling behavior, and overall production consistency. Selecting a material optimized for both performance and manufacturability can help improve product quality while reducing production challenges.
Beyond traditional performance requirements, manufacturers are increasingly seeking materials that support sustainability initiatives, lightweighting efforts, color customization, UV stability, and specialized functionality. Advanced low pressure molding materials are now available with enhanced additives, pigments, anti-static properties, laser-marking capabilities, photoluminescent effects, and other application-specific enhancements.
LPMS USA supports customers through the complete low pressure molding process, including material evaluation, application testing, tooling design, equipment integration, and production implementation. By approaching low pressure molding as a complete system rather than a standalone material or machine decision, manufacturers can optimize performance, reliability, and long-term success.
“Every application is different,” added Betti. “The best material for a medical wearable may be entirely different from the best solution for an automotive sensor or an underwater electronic assembly. That’s why understanding the application requirements upfront is so important.”
As low pressure molding technology continues to expand into new markets and applications, LPMS USA believes that material expertise will remain one of the most important differentiators between successful implementations and costly field failures.
For more information about low pressure molding materials and application development, visit www.lpms-usa.com/overmolding-material.
