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Ultrafine Bubble Light Reflective Sheet 'MCPET / MCPOLYCA'
Solving various issues of LED light sources! Next-generation reflector suitable for indirect lighting!
"MCPET / MCPOLYCA" is an ultra-fine foamed resin sheet that contains bubbles with a diameter of 10μm or less. With its fine bubble structure, it boasts one of the highest reflectivity levels in the world, and its high rigidity allows for secondary processing such as self-supporting bending and molding. Applications: It is used in a wide range of fields, including reflectors for LED and fluorescent lighting fixtures (office/store lighting, signage, plant factories, LCD displays, automotive interiors), and recently, there has been an increasing demand for indirect lighting applications. [Features for Indirect Lighting Applications] - Improved light quality (reduction of glare) - Enhanced light extraction efficiency by increasing the transmittance of the diffusion plate - Reduction of LED light sources - Thinning of fixtures *For more details, please refer to the materials. Feel free to contact us with any inquiries.
basic information
**Features of Each Product** ◎ 'MCPET' - Ultra-fine foamed PET (Polyethylene Terephthalate) sheet - A variety of lineups including high reflectivity products and thin products ◎ 'MCPOLYCA' - Sheet made from ultra-fine foamed polycarbonate resin - Excellent optical properties and improved heat resistance - High design flexibility during molding and shape stability at high temperatures *For more details, please refer to the materials. Feel free to contact us with any inquiries.*
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The fusion of antenna sensors and lighting is realized by low-dielectric fine foamed resin materials.
- In the era of high-speed communication and IoT, a large number of antenna devices and sensors are introduced, which can impair the urban landscape. - By utilizing ultra-fine foamed resin (MCP) with excellent radio wave permeability, light reflectivity, and light diffusion as a reflective plate for lighting, and placing a wireless substrate behind it, we can develop lighting that integrates antennas and sensors, thereby improving the urban landscape. 【Features of Ultra-Fine Foamed Resin Material (MCP)】 1. By foaming low dielectric resin materials, the material's relative permittivity (Dk) and dielectric loss tangent (Df) decrease, leading to further improvement in radio wave permeability. In particular, our proprietary ultra-fine foamed resin (MCP) can form bubbles in the micron size range, achieving good radio wave permeability even for high-frequency waves. 2. Foaming reduces the material density, resulting in lightweight materials. 3. In foamed resin materials, light is reflected at the interface between the resin and the bubbles. Especially with our proprietary ultra-fine foamed resin (MCP), by making the bubble diameter fine, light reflection is repeated near the material surface, suppressing light transmission into the material and demonstrating excellent light reflectivity. It shows high reflectivity not only in the visible light range but also in the infrared range. 4. Ultra-fine foamed resin (MCP) has excellent processability, allowing for molding and cutting from sheet shapes.
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Low dielectric fine foamed resin material suitable for radomes for 5G communication devices.
In 5G/6G, the introduction of a large number of communication devices that handle high-frequency radio waves will lead to issues such as securing installation locations for communication devices, increased power consumption, and increased heat generation from antenna substrates. By utilizing our unique ultra-fine foamed resin material (MCP), we can expect an extension of the installation intervals for communication devices, improved flexibility in installation locations due to weight reduction, reduced power consumption, and enhanced freedom in thermal design of the equipment. 【Features of Ultra-Fine Foamed Resin (MCP)】 1. By foaming a low-dielectric resin material, the material's relative permittivity Dk and dielectric loss tangent Df decrease, leading to further improvement in radio wave transmission. In particular, our unique ultra-fine foamed resin (MCP) can form bubbles in the micrometer size range, providing good radio wave transmission even for high-frequency radio waves. 2. Foaming reduces the material density, resulting in a lightweight material. 3. In foamed resin materials, light is reflected at the interface between the resin and the bubbles. Particularly with our unique ultra-fine foamed resin (MCP), by making the bubble diameter fine, light reflection is repeated near the material surface, suppressing light transmission into the material and demonstrating excellent light reflectivity. It shows high reflectivity not only in the visible light range but also in the infrared range, making it less susceptible to the effects of radiative heat, and thus it is expected to have an effect as a heat-insulating panel.
