3005 H22 Aluminum coil form a thin layer of aluminum oxide with a thickness of 5-20 microns on the surface. The hard anodized film can reach 60-200 microns. The anodized aluminum coil improves its hardness and wear resistance, up to 250-500kg/square millimetre, with good heat resistance. The melting point of the hard anodized film is up to 2320K, with good insulation, and the breakdown resistance voltage is up to 2000V, enhancing the corrosion resistance ω= 0.03NaCl salt spray does not corrode for thousands of hours. The thin oxide film contains a large number of micropores and can adsorb various lubricants, making it suitable for manufacturing engine cylinders or other wear-resistant parts; This membrane has strong microporous adsorption ability and can be colored into various beautiful colors. Non ferrous metals or their alloys (such as aluminum, magnesium, and their alloys) can undergo anodizing treatment.
2A06 H28 Aluminum coil form a thin layer of aluminum oxide with a thickness of 5-20 microns on the surface. The hard anodized film can reach 60-200 microns. The anodized aluminum coil improves its hardness and wear resistance, up to 250-500kg/square millimetre, with good heat resistance. The melting point of the hard anodized film is up to 2320K, with good insulation, and the breakdown resistance voltage is up to 2000V, enhancing the corrosion resistance ω= 0.03NaCl salt spray does not corrode for thousands of hours. The thin oxide film contains a large number of micropores and can adsorb various lubricants, making it suitable for manufacturing engine cylinders or other wear-resistant parts; This membrane has strong microporous adsorption ability and can be colored into various beautiful colors. Non ferrous metals or their alloys (such as aluminum, magnesium, and their alloys) can undergo anodizing treatment.
2A06 H18 Aluminum coil form a thin layer of aluminum oxide with a thickness of 5-20 microns on the surface. The hard anodized film can reach 60-200 microns. The anodized aluminum coil improves its hardness and wear resistance, up to 250-500kg/square millimetre, with good heat resistance. The melting point of the hard anodized film is up to 2320K, with good insulation, and the breakdown resistance voltage is up to 2000V, enhancing the corrosion resistance ω= 0.03NaCl salt spray does not corrode for thousands of hours. The thin oxide film contains a large number of micropores and can adsorb various lubricants, making it suitable for manufacturing engine cylinders or other wear-resistant parts; This membrane has strong microporous adsorption ability and can be colored into various beautiful colors. Non ferrous metals or their alloys (such as aluminum, magnesium, and their alloys) can undergo anodizing treatment.
2A06 T651 Aluminum coil form a thin layer of aluminum oxide with a thickness of 5-20 microns on the surface. The hard anodized film can reach 60-200 microns. The anodized aluminum coil improves its hardness and wear resistance, up to 250-500kg/square millimetre, with good heat resistance. The melting point of the hard anodized film is up to 2320K, with good insulation, and the breakdown resistance voltage is up to 2000V, enhancing the corrosion resistance ω= 0.03NaCl salt spray does not corrode for thousands of hours. The thin oxide film contains a large number of micropores and can adsorb various lubricants, making it suitable for manufacturing engine cylinders or other wear-resistant parts; This membrane has strong microporous adsorption ability and can be colored into various beautiful colors. Non ferrous metals or their alloys (such as aluminum, magnesium, and their alloys) can undergo anodizing treatment.
2A12 T6 Aluminum coil form a thin layer of aluminum oxide with a thickness of 5-20 microns on the surface. The hard anodized film can reach 60-200 microns. The anodized aluminum coil improves its hardness and wear resistance, up to 250-500kg/square millimetre, with good heat resistance. The melting point of the hard anodized film is up to 2320K, with good insulation, and the breakdown resistance voltage is up to 2000V, enhancing the corrosion resistance ω= 0.03NaCl salt spray does not corrode for thousands of hours. The thin oxide film contains a large number of micropores and can adsorb various lubricants, making it suitable for manufacturing engine cylinders or other wear-resistant parts; This membrane has strong microporous adsorption ability and can be colored into various beautiful colors. Non ferrous metals or their alloys (such as aluminum, magnesium, and their alloys) can undergo anodizing treatment.
2A12 H14 Aluminum coil form a thin layer of aluminum oxide with a thickness of 5-20 microns on the surface. The hard anodized film can reach 60-200 microns. The anodized aluminum coil improves its hardness and wear resistance, up to 250-500kg/square millimetre, with good heat resistance. The melting point of the hard anodized film is up to 2320K, with good insulation, and the breakdown resistance voltage is up to 2000V, enhancing the corrosion resistance ω= 0.03NaCl salt spray does not corrode for thousands of hours. The thin oxide film contains a large number of micropores and can adsorb various lubricants, making it suitable for manufacturing engine cylinders or other wear-resistant parts; This membrane has strong microporous adsorption ability and can be colored into various beautiful colors. Non ferrous metals or their alloys (such as aluminum, magnesium, and their alloys) can undergo anodizing treatment.
1070 H36 Aluminum coil is 99.7% ordinary industrial pure aluminum. Heat treatment can not be strengthened; Low strength, but good ductility, formability, weldability and corrosion resistance; After anodic oxidation, the corrosion resistance can be further improved and a beautiful surface can be obtained. 1070 H24 aluminum bar is formed by adding a small amount of copper element in pure aluminum, with excellent forming characteristics, high corrosion resistance, good weldability and electrical conductivity. Widely used in products requiring good formability and high corrosion resistance, but not high strength requirements.
1070 H32 Aluminum coilis 99.7% ordinary industrial pure aluminum. Heat treatment can not be strengthened; Low strength, but good ductility, formability, weldability and corrosion resistance; After anodic oxidation, the corrosion resistance can be further improved and a beautiful surface can be obtained. 1070 H24 aluminum bar is formed by adding a small amount of copper element in pure aluminum, with excellent forming characteristics, high corrosion resistance, good weldability and electrical conductivity. Widely used in products requiring good formability and high corrosion resistance, but not high strength requirements.
1070 H14 Aluminum coil is 99.7% ordinary industrial pure aluminum. Heat treatment can not be strengthened; Low strength, but good ductility, formability, weldability and corrosion resistance; After anodic oxidation, the corrosion resistance can be further improved and a beautiful surface can be obtained. 1070 H24 aluminum bar is formed by adding a small amount of copper element in pure aluminum, with excellent forming characteristics, high corrosion resistance, good weldability and electrical conductivity. Widely used in products requiring good formability and high corrosion resistance, but not high strength requirements.
1100 H18 aluminum bar is industrial pure aluminum , the aluminum content (mass fraction) is 99.00%, and it cannot be strengthened by heat treatment. It has high corrosion resistance, electrical conductivity and thermal conductivity , low density and good plasticity. It can produce various aluminum materials through pressure processing, but its strength is low. Other process performances are basically the same as 1050A. 1100 H16 Aluminum coil is usually used to require good formability, high corrosion resistance, and does not require high strength.
1100 H12 Aluminum coil form a thin layer of aluminum oxide with a thickness of 5-20 microns on the surface. The hard anodized film can reach 60-200 microns. The anodized aluminum coil improves its hardness and wear resistance, up to 250-500kg/square millimetre, with good heat resistance. The melting point of the hard anodized film is up to 2320K, with good insulation, and the breakdown resistance voltage is up to 2000V, enhancing the corrosion resistance ω= 0.03NaCl salt spray does not corrode for thousands of hours. The thin oxide film contains a large number of micropores and can adsorb various lubricants, making it suitable for manufacturing engine cylinders or other wear-resistant parts; This membrane has strong microporous adsorption ability and can be colored into various beautiful colors. Non ferrous metals or their alloys (such as aluminum, magnesium, and their alloys) can undergo anodizing treatment.
1100-O Aluminum coil form a thin layer of aluminum oxide with a thickness of 5-20 microns on the surface. The hard anodized film can reach 60-200 microns. The anodized aluminum coil improves its hardness and wear resistance, up to 250-500kg/square millimetre, with good heat resistance. The melting point of the hard anodized film is up to 2320K, with good insulation, and the breakdown resistance voltage is up to 2000V, enhancing the corrosion resistance ω= 0.03NaCl salt spray does not corrode for thousands of hours. The thin oxide film contains a large number of micropores and can adsorb various lubricants, making it suitable for manufacturing engine cylinders or other wear-resistant parts; This membrane has strong microporous adsorption ability and can be colored into various beautiful colors. Non ferrous metals or their alloys (such as aluminum, magnesium, and their alloys) can undergo anodizing treatment.
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