9.82 W/mK! High Thermal Conductivity Phase Change Materials Empower Chip Cooling

9.82 W/mK! High Thermal Conductivity Phase Change Materials Empower Chip Cooling

Source | Journal of Energy Storage Link | https://doi.org/10.1016/j.est.2025.117895 01 Background Introduction The thermal conductivity (λ) of composite phase change materials determines their response rate to external heat, which is crucial for chip thermal management. Traditional methods, such as incorporating thermal fillers into phase change materials, have had limited success in improving λ, significantly restricting … Read more

PCB-Level Thermal Design (Part 1)

PCB-Level Thermal Design (Part 1)

PCB-Level Thermal Design (Part 1) All electronic products contain semiconductor devices, capacitors, and other components that are susceptible to thermal acceleration failure mechanisms. Thermal design is crucial for improving the reliability of any design. However, thermal design can be very challenging due to the complex geometries involved in fluid dynamics mathematical analysis. Below, we will … Read more

Understanding Thermal Conductivity in Metal 3D Printing: Common Materials, Powder Bed, and Gases

Understanding Thermal Conductivity in Metal 3D Printing: Common Materials, Powder Bed, and Gases

1. Thermal Conductivity of Common Materials Material Category Grade Thermal Conductivity (W/m·K) Titanium Alloys TA1 6-10 TC4 6-10 TA15 6-10 Iron-based Alloys 18Ni300 10-15 420 16-20 304L/304 16-20 316L 16-20 17-4PH 10-15 High-Temperature Alloys GH3536 6-15 GH4169 6-15 GH3625 6-15 Aluminum Alloys A1Si10Mg 110-130 6061 150-200 Pure Metals Pure Ni 90-100 Pure Cu 400 2. … Read more

In-Depth Analysis of the Top Ten PCB Ceramic Manufacturers in China: Technological Breakthroughs and Market Landscape Evolution

In-Depth Analysis of the Top Ten PCB Ceramic Manufacturers in China: Technological Breakthroughs and Market Landscape Evolution

Ceramic materials play an irreplaceable role in the field of printed circuit boards (PCBs), becoming the ideal substrate for high-frequency and high-power electronic applications due to their excellent thermal conductivity, electrical insulation, and mechanical stability. With the continuous improvement of performance requirements for electronic devices in high-end industries such as 5G communication, new energy vehicles, … Read more