1. Introduction to PAO Synthetic Base OilsPoly Alpha Olefin (PAO) synthetic base oils — including PAO4, PAO6, and PAO8 — are advanced hydrocarbon fluids produced through α-decene oligomerization and hydrogenation.With excellent low-temperature fluidity, high viscosity index, and outstanding thermal

Innovating Thermal Management with ZMPC Immersion Cooling Technology As global demand for high-efficiency thermal management systems continues to rise, immersion cooling technology has become the preferred choice for both energy storage systems (ESS) and data center infrastructure. ZMPC has developed two next-generation cooling fluids — Immersion Cooling Fluid for Energy Storage Systems and Immersion Dielectric Cooling Fluid for Data Centers — designed to deliver exceptional heat transfer efficiency, dielectric insulation, and long-term operational safety under the most demanding conditions.

In today’s high-precision, high-throughput manufacturing environment, the choice of cleaning agent is as critical as the choice of the cleaning machine. If you manufacture parts cleaning machines or operate component cleaning lines (fasteners, automotive engine & transmission parts, precision optics, surface treatment), you need a chemical partner who understands both the machine and the process. At [Your Company], we deliver industrial parts cleaning chemicals designed to enhance your machine’s performance, meet cleanliness standards, and support your downstream surface processing. Contact us today to discuss how we can work together.

Immersion cooling fluids are transforming data center thermal management. By using non-conductive dielectric liquids instead of air, they deliver efficient, silent, and eco-friendly heat control for servers, AI computing, and high-density workloads. This article explains fluid types, dielectric principles, and heat exchange pathways — and why leading companies are turning to immersion cooling for sustainable performance.

Immersion cooling is redefining energy storage safety and efficiency. By using non-conductive dielectric fluids, battery systems achieve stable temperatures, eliminate fire risk, and extend operational life. This article explains how immersion cooling fluids work, their benefits, and why they are essential for the future of sustainable energy storage.

From 2021 to 2030, global production of lithiumion batteries is projected to increase fivefold, reaching 5,500 GWh, with electric vehicle batteries accounting for nearly 80% of all lithium-ion battery production.This rapid growth presents opportunities and challenges across the entire supply chain,