With the growing global demand for clean energy, hydrogen energy has emerged as a promising carrier for energy transition. However, the storage and transportation of hydrogen face technical challenges such as high pressure and corrosion. Silicone resin, with its excellent high-pressure resistance and corrosion resistance, provides an innovative solution for hydrogen energy storage and transportation.
Pain Points in Hydrogen Storage and Transportation
Hydrogen storage and transportation require high-pressure or low-temperature environments, imposing stringent demands on material performance. Traditional metal materials are prone to hydrogen embrittlement under high pressure, leading to material failure. At low temperatures, materials lose toughness, increasing safety risks. Additionally, the corrosive nature of hydrogen limits the lifespan of storage and transportation equipment.
Advantages of Silicone Resin
Silicone resin offers the following features, making it an ideal material for hydrogen storage and transportation:
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High-Pressure Resistance: Its stable molecular structure can withstand high-pressure environments, preventing hydrogen embrittlement.
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Corrosion Resistance: It exhibits excellent resistance to hydrogen and other corrosive media, extending the lifespan of equipment.
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