Aluminum Shell
01
5g communication Kovar alloy shell processing Precision Kovar 5G Enclosures CTE 4.7±0.2×10⁻⁶/℃ 40GHz IL<0.26dB
Product Introduction
In terms of physical properties, the density of 8.5g/cm³ takes into account both lightweight and structural strength. Good thermal conductivity can dissipate heat in time and maintain the thermal stability of the equipment.
Product Features
☑ In terms of processing and forming performance, multi-axis linkage CNC processing achieves ±0.002mm contour tolerance control and Ra0.1μm surface roughness to meet high-precision assembly.
☑ With the help of high-precision straightening units and intelligent hydraulic systems (positioning accuracy 0.01mm), special-shaped structures such as slots and holes can be precisely formed.
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Manufactured
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Product advantages
In terms of chemical properties, pickling passivation, electrolytic polishing and other processes form a protective film on the metal surface, which has strong corrosion resistance and can work stably in harsh chemical environments. Overall, this component has excellent performance and is suitable for use in mechanical equipment, automation equipment and other fields that require high precision and durability.
The material selection reflects the deep consideration of extreme working conditions. If aviation-grade 7075-T7451 aluminum alloy is used, after three-stage aging treatment, the tensile strength exceeds 620MPa, and the fatigue life exceeds 1.2×10^8 cycles, which is suitable for high dynamic load scenarios such as aircraft engine hangers; if super austenitic stainless steel 904L is used, its molybdenum content reaches 4.5%, and it can still maintain excellent corrosion resistance in acid and alkali environments with pH 1-14, and can be competent for harsh environments such as chemical reactors and seawater desalination equipment. Both materials have passed CT scanning inspection to ensure that there are no defects such as pores and inclusions inside. The material selection reflects the deep consideration of extreme working conditions. If aviation-grade 7075-T7451 aluminum alloy is used, after three-stage aging treatment, the tensile strength exceeds 620MPa, and the fatigue life exceeds 1.2×10^8 cycles, which is suitable for high dynamic load scenarios such as aircraft engine hangers.
The material selection reflects the deep consideration of extreme working conditions. If aviation-grade 7075-T7451 aluminum alloy is used, after three-stage aging treatment, the tensile strength exceeds 620MPa, and the fatigue life exceeds 1.2×10^8 cycles, which is suitable for high dynamic load scenarios such as aircraft engine hangers; if super austenitic stainless steel 904L is used, its molybdenum content reaches 4.5%, and it can still maintain excellent corrosion resistance in acid and alkali environments with pH 1-14, and can be competent for harsh environments such as chemical reactors and seawater desalination equipment. Both materials have passed CT scanning inspection to ensure that there are no defects such as pores and inclusions inside. The material selection reflects the deep consideration of extreme working conditions. If aviation-grade 7075-T7451 aluminum alloy is used, after three-stage aging treatment, the tensile strength exceeds 620MPa, and the fatigue life exceeds 1.2×10^8 cycles, which is suitable for high dynamic load scenarios such as aircraft engine hangers.
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