Data Center Cooling, Server Thermal Management, TCO, PUE, High-Density Computing
In a data center, every watt saved in cooling is a watt added to compute. While infrastructure (chillers, CRACs) gets […]
DIY PC Build, Heatsink Installation, Thermal Paste Application, CPU Cooling, How-To Guide
Applying thermal paste might seem simple, but doing it wrong can raise CPU temperatures by 10-20°C. Forget the myths and
Thermal Materials for 5G Antennas: Cooling the mmWave Frontline
5G’s promise of speed and capacity comes from high-frequency mmWave bands and dense antenna arrays (Massive MIMO). This creates a
The Critical Role of Thermal Interface Materials in Electric Vehicle Battery Longevity
An electric vehicle’s performance and lifespan are governed by the temperature of its battery pack. Keeping thousands of lithium-ion cells
LED Thermal Management, Lighting Design, Heat Sinking, Thermal Adhesive, Thermal Pads
LEDs are efficient, but the energy they don’t turn into light becomes heat at the tiny semiconductor junction. If this
How to Choose the Best Thermal Paste for Your CPU in 2024
Choosing the right thermal paste is a small but critical step in any PC build or CPU cooler upgrade. With
The Ultimate Guide to Choosing the Best Thermal Pad for Your GPU
Upgrading your GPU’s thermal interface is one of the most effective ways to reduce temperatures, noise, and thermal throttling. However,
How to Fix an Overheating Laptop: Replacing Thermal Paste and Pads
Is your laptop fan constantly roaring, or does it throttle under load? Over time, the stock thermal paste dries out
Thermal Putty vs. Pad: When to Use Each for Electronics
Faced with an uneven surface or components of different heights? Both thermal putty and gap pads are designed to conform,
Beyond Phonons: Harnessing Exotic Quasiparticles for Ballistic Heat Transport in Advanced TIMs
In the quantum world, heat is not carried solely by atomic vibrations (phonons). It can also be transported by collective excitations
From First Principles: Using Computational BTE Solvers to Design Next-Generation TIMs from the Atom Up
The traditional trial-and-error method of developing Thermal Interface Materials (TIMs) is slow and costly. The future lies in predictive computational design.
Programming Matter: Using DNA Origami to Assemble Perfect Nanoscale Thermal Pathways
The quest for the perfect Thermal Interface Material (TIM) is a quest for perfect filler dispersion and connection. Today’s composites