Thermal Interface Guide for Popular Solutions Managing heat in compact embedded systems starts with choosing the right thermal interface material (TIM) . Below is a curated list of the most widely used solutions and the recommended thermal conduc...
What Is Thermal Impedance? Understanding Real-World Thermal Resistance Under ASTM D5470 When evaluating thermal interface materials (TIMs), most people focus on one number: thermal conductivity (W/m·K) . But there's another, equally important metric that reflects real-world performance a...
What Is Thermal Conductivity? Understanding ASTM D5470 in Thermal Interface Materials Whether you're designing advanced electronics, power modules, EV battery packs, or embedded AI systems, thermal interface materials (TIMs) play a critical role in keeping your components cool, efficie...
Understanding Shore Hardness: What ASTM D2240 Really Measures in Soft Materials In the world of soft materials — from silicone pads to elastomeric gels and adhesives — one of the most commonly referenced mechanical properties is Shore hardness . You’ll often see it listed as “Sho...
How Much Thermal Conductivity Do You Need for the NVIDIA Jetson Orin? When integrating the NVIDIA Jetson Orin into your product design — whether for AI vision, robotics, edge computing, or autonomous systems — one challenge becomes immediately clear: managing heat . The...
Thermal Interface Materials Explained: Carbon, Silicone, Gel, Pad & Glue — What’s the Difference? In the world of modern electronics, thermal management is not just a performance factor — it’s a critical design consideration. Whether you're building EV battery packs, high-performance servers, cons...
Silicone vs. Silicone Thermal Pads vs. Silicone-Free Pads: What’s the Difference and Which Should You Choose? In the realm of electronic devices, effective thermal management is crucial to ensure optimal performance and longevity. Thermal interface materials (TIMs) play a pivotal role in facilitating heat tr...