Apr 24, 2026

Energy Storage Safety Standards Continue To Upgrade – SinoLaser’s Sheet Metal Expertise Supports High-Quality Industry Development

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Recently, the energy storage industry has seen a series of intensive upgrades to safety standards. Effective from April 1, 2026, the new national standard GB/T 51048-2025 "Design Standard for Electrochemical Energy Storage Power Stations" has been implemented, widely regarded as the "strictest design code to date." At the same time, the group standard "Safety Requirements and Installation Acceptance Specifications for Cabinet-Type Lithium Iron Phosphate Battery Energy Storage Systems" has also been released, imposing stricter requirements on battery cabinet fire separation distances, fire protection facilities, and electrical safety. On the international front, UL 9540A Edition 6 was published in March 2026, elevating safety validation from cell and module levels to full cabinet and full system real‑fire scenarios. The rollout of these standards marks the global energy storage industry's accelerated move toward a new phase where safety and quality go hand in hand.

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As a professional enterprise with over a decade of experience in precision sheet metal fabrication, SinoLaser Technology Co., Ltd. (website: www.jdcmetal.com) always places product quality first. The company's product portfolio includes multiple series of energy storage enclosures such as Weatherproof Battery Enclosure, Lithium Battery Cabinet, and Battery Storage Cabinet. In terms of manufacturing processes, the company is equipped with world‑class laser cutting, CNC bending, and precision welding equipment, enabling it to provide customized sheet metal solutions tailored to different application scenarios. In response to the new standards' strict requirements on battery cabinet fire separation distances and structural integrity, SinoLaser continuously optimizes its cabinet structural design, using high‑strength steel with bending reinforcements to ensure stability under extreme conditions. Meanwhile, the company employs continuous welds combined with leak detection processes to guarantee cabinet sealing. In material selection, the company preferentially uses corrosion‑resistant materials such as galvanized steel, aluminum alloy, or stainless steel, achieving enclosure protection ratings of IP55 or higher to adapt to complex outdoor environments. These precise and reliable sheet metal manufacturing processes provide a solid structural foundation for the safe operation of energy storage systems.

As global energy storage installed capacity continues to expand, safety has become a core focus throughout the entire energy storage industry chain. SinoLaser will continue to closely follow the evolution of industry standards, leveraging its precision sheet metal processing capabilities to provide safer and more reliable enclosure protection solutions for energy storage systems.

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