Aluminum hydroxide (ATH) is an essential halogen-free flame retardant for new energy applications like lithium batteries and charging systems. It effectively suppresses fires while meeting environmental standards. Through material innovation, ATH enhances safety in battery components and high-voltage cables, supporting sustainable energy development.
This article explains how solid-state transformers (SST) and aluminum hydroxide (ATH) flame-retardant cables work together to build next-generation data centers. SST enhances energy efficiency and enables new power distribution architectures through high-efficiency power conversion and intelligent management. ATH serves as a core flame-retardant in cables, effectively suppressing fires through physicochemical mechanisms to ensure the safety of personnel and equipment. By addressing "efficient conversion" and "safety protection" respectively, these two technologies jointly establish an efficient, reliable, and sustainable physical foundation for data centers.
Aluminum hydroxide is often used as a filler in PVC (polyvinyl chloride) compounds to improve their mechanical properties
Aluminum Hydroxide serves as a robust flame retardant, effectively curbing the spread of flames and reducing the risk of fire-related accidents in car flooring.
In the realm of fire safety, aluminum hydroxide emerges as a remarkable ally, possessing the ability to thwart flames and prevent their rapid spread.
Aluminum hydroxide flame retardant is a compound known for its exceptional flame retardant capabilities.
Flame retardants play a crucial role in reducing the risk of fire-related hazards in various industries, including automotive.
Aluminum hydroxide flame retardant has revolutionized fire safety protocols across industries.
