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7N high-purity copper powder represents the pinnacle of metal powder technology. Available in spherical, flaky, and dendritic morphologies, it offers a particle size range of 500 nm to 50 μm with customizable apparent density. Advanced manufacturing techniques ensure exceptional purity and batch-to-batch consistency, making it ideal for high-end industrial applications and cutting-edge scientific research.
Basic parameters:
| Purity: | Cu=99.99999+% |
| Total impurities: | ≤0.1 ppm |
| Appearance color: | Red |
| Particle Size Distribution: | 500 nm - 50 μm |
| Bulk Density: | Customizable to client requirements |
| Physical Morphology: | Spherical, Flaky, Dendriti |
Application Fields: | Aerospace, Quantum Computing & Advanced Chips, Nuclear Industry |
Product application industry:
Aerospace:
7N high-purity copper powder, with its exceptional purity, prevents the formation of brittle phases from impurities such as phosphorus, sulfur, and oxygen at high temperatures. This characteristic directly enhances the blade's high-temperature deformation resistance, fatigue strength, and microstructural stability.
Quantum Computing & Advanced Chips:
7N high-purity copper powder is used in superconducting interconnects for quantum chips and conductive adhesives for advanced semiconductors. Its conductivity, approaching the theoretical limit, minimizes the scattering of electrons and quantum signals by impurities. This ensures stable transmission of weak quantum signals while reducing interconnect latency and power consumption in chips.
7N high-purity copper powder is employed in manufacturing high-performance radiation shielding composites for the nuclear industry. Its high atomic number enables efficient attenuation of gamma rays and neutrons. The extreme purity guarantees compositional homogeneity and further enhances the material's oxidation resistance and corrosion resistance under intense radiation and high-temperature conditions. This ensures the long service life and safety of shielding components in nuclear reactors and nuclear waste treatment facilities under extreme operating conditions.
7N high-purity copper powder represents the pinnacle of metal powder technology. Available in spherical, flaky, and dendritic morphologies, it offers a particle size range of 500 nm to 50 μm with customizable apparent density. Advanced manufacturing techniques ensure exceptional purity and batch-to-batch consistency, making it ideal for high-end industrial applications and cutting-edge scientific research.
Basic parameters:
| Purity: | Cu=99.99999+% |
| Total impurities: | ≤0.1 ppm |
| Appearance color: | Red |
| Particle Size Distribution: | 500 nm - 50 μm |
| Bulk Density: | Customizable to client requirements |
| Physical Morphology: | Spherical, Flaky, Dendriti |
Application Fields: | Aerospace, Quantum Computing & Advanced Chips, Nuclear Industry |
Product application industry:
Aerospace:
7N high-purity copper powder, with its exceptional purity, prevents the formation of brittle phases from impurities such as phosphorus, sulfur, and oxygen at high temperatures. This characteristic directly enhances the blade's high-temperature deformation resistance, fatigue strength, and microstructural stability.
Quantum Computing & Advanced Chips:
7N high-purity copper powder is used in superconducting interconnects for quantum chips and conductive adhesives for advanced semiconductors. Its conductivity, approaching the theoretical limit, minimizes the scattering of electrons and quantum signals by impurities. This ensures stable transmission of weak quantum signals while reducing interconnect latency and power consumption in chips.
7N high-purity copper powder is employed in manufacturing high-performance radiation shielding composites for the nuclear industry. Its high atomic number enables efficient attenuation of gamma rays and neutrons. The extreme purity guarantees compositional homogeneity and further enhances the material's oxidation resistance and corrosion resistance under intense radiation and high-temperature conditions. This ensures the long service life and safety of shielding components in nuclear reactors and nuclear waste treatment facilities under extreme operating conditions.
