Researchers at University of Illinois Urbana-Champaign have developed a new cooling technology that could make data centers far more energy efficient. The team designed advanced copper “cold plates” ...

Spanish researchers have demonstrated a scalable manufacturing process for carbon nanotube (CNT) fibers with electrical ...

Breakthrough cooling design: University of Illinois researchers created optimized copper cold plates that dramatically improve heat transfer and reduce pumping power. Massive energy savings: The ...

Discover how Addireen Now copper 3D printing service simplifies metal additive manufacturing for engineers and designers.

Breakthrough cooling tech: Engineers created 3D-printed pure copper cold plates with optimized fins that outperform current air and liquid cooling systems. Massive energy savings: Switching from air ...

Publishing in the Cell Press journal Cell Reports Physical Science, the researchers used a mathematical algorithm and an ...

Researchers develop a computer-chip-cooling technology by combining topology optimization with electrochemical additive ...

Data centers require massive amounts of energy for cooling, but these copper cooling plates are optimally designed to reduce ...

In ECAM, the plating electrode is an array of millions of individual pixels, each a few micrometers in size. The machine ...

The process – long dominated by industrial platforms – builds parts by spreading thin layers of metal powder and selectively melting them with a laser, repeating ...

A research team from Skoltech (part of the VEB.RF group) and other scientific organizations in Russia and India has conducted a systematic study of the laser powder bed fusion (PBF-LB) process for ...