Excellent radio wave permeability, design, and chemical resistance! It is widely used in antenna covers and chemical plants.
"GFRP" stands for Glass Fiber Reinforced Plastics, which is a composite material made of glass fibers as reinforcement and thermosetting resin as the matrix. The main characteristics of GFRP include: ■ Excellent radio wave permeability ■ High design flexibility ■ Superior electrical properties ■ Excellent corrosion resistance It is possible to commercialize exterior parts with excellent design at a low initial cost. *For more details, please refer to the PDF document or feel free to contact us.
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**Features of GFRP** ■ Excellent radio wave permeability It is widely used for antenna covers and radar domes in communication systems. ■ High design flexibility Exterior parts with excellent design can be manufactured with low initial costs. ■ Superior electrical properties It is difficult for electricity to flow, and there is no generation of induced currents, making it widely used in insulation fields such as circuit boards, transformer insulating components, and protective covers for power cables. ■ Excellent corrosion resistance GFRP has excellent chemical resistance and corrosion resistance, and is used in chemical plants, among other applications. *For more details, please refer to the PDF document or feel free to contact us.*
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For more details, please refer to the PDF document or feel free to contact us.
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Our company specializes in the design, molding, processing, and sale of composite materials, primarily carbon and glass fiber reinforced plastics. Our corporate policy is to remain a company that can continuously make new proposals using the latest information and technology, ensuring that our customers become repeat clients by maintaining cost, quality, and delivery time. We have a proven track record in product molding and processing across various fields, including LCD and semiconductor manufacturing equipment, industrial robots, medical devices, civil engineering, construction, sports, hobbies and aerospace. We employ hand lay-up molding, autoclave molding (Unit 1: φ1100×2600, Unit 2: φ2000×5000), infusion molding, and press molding. FRP requires very complex design processes, from molding methods to fiber types and lamination structures, to achieve the final product. Based on customer information, we realize optimal designs and processes.