7050 Forging Aluminum Round Bar
1. Material Composition & Manufacturing Process 7050 forged aluminum round bar is an ultra-high strength, heat-treatable aluminum-zinc-magnesium-copper alloy specifically engineered to provide exceptional strength, toughness, fatigue resistance, and superior stress corrosion cracking (SCC) resistance in critical structural components. Through precise forging, its internal microstructure is optimized, with grain flow aligned along the part’s contours, making […]
5083 Forged Aluminum Round Bar
1. Material Composition & Manufacturing Process 5083 forged aluminum round bar is a high-strength, non-heat-treatable aluminum-magnesium alloy specifically engineered to deliver exceptional performance in extremely harsh environments, particularly marine and cryogenic applications. Its precisely controlled forging process optimizes its internal microstructure, providing superior toughness, corrosion resistance, weldability, and fatigue strength, making it an ideal choice […]
6061 Large Diameter Aluminum Alloy Bar
1. Material Composition & Manufacturing Process 6061 large diameter aluminum alloy bar is a versatile, heat-treatable aluminum-magnesium-silicon alloy that offers excellent strength, good corrosion resistance, superior weldability, and machinability across a wide range of diameters, making it ideal for structural, mechanical parts, transportation, and general engineering applications: Primary Alloying Elements: Magnesium (Mg): 0.8-1.2% (enhances strength) […]
5052 Large Diameter Aluminum Bar
1. Material Composition & Manufacturing Process 5052 large diameter aluminum bar is a medium-strength, non-heat-treatable aluminum-magnesium alloy that offers exceptional corrosion resistance, good formability, and weldability across a wide range of diameters, making it ideal for marine, general fabrication, and structural applications: Primary Alloying Elements: Magnesium (Mg): 2.2-2.8% (solid solution strengthening) Chromium (Cr): 0.15-0.35% (corrosion […]
7075 Aluminum Alloy Forged Disc
1. Material Composition & Manufacturing Process 7075 aluminum alloy forged discs represent the pinnacle of aerospace-grade aluminum components, offering exceptional strength, fatigue resistance, and stress distribution for critical rotating and structural applications: Primary Alloying Elements: Zinc (Zn): 5.1-6.1% (principal strengthening element) Magnesium (Mg): 2.1-2.9% (enhances precipitation hardening) Copper (Cu): 1.2-2.0% (improves strength and stress resistance) […]
5052 Aluminum Round Bar
1. Material Composition & Manufacturing Process 5052 aluminum round bar is a medium-strength non-heat-treatable aluminum-magnesium alloy that offers an exceptional balance of formability, weldability, and corrosion resistance, making it ideal for marine applications and general-purpose fabrication: Primary Alloying Elements: Magnesium (Mg): 2.2-2.8% (solid solution strengthening) Chromium (Cr): 0.15-0.35% (corrosion resistance enhancement) Base Material: Aluminum (Al): […]
7075-T6 Aluminum Round Bar
1. Material Composition & Manufacturing Process 7075-T6 aluminum round bar represents the pinnacle of high-strength aluminum alloys, offering an exceptional combination of strength, hardness, and stress resistance for aerospace, defense, and high-performance mechanical applications: Primary Alloying Elements: Zinc (Zn): 5.1-6.1% (principal strengthening element) Magnesium (Mg): 2.1-2.9% (enhances precipitation hardening) Copper (Cu): 1.2-2.0% (improves strength and […]
5083 Aluminum Round Bar
1. Material Composition & Manufacturing Process 5083 aluminum alloy is a high-performance non-heat-treatable Al-Mg alloy renowned for its exceptional strength, weldability, and superior corrosion resistance in marine environments. The round bar configuration offers optimized properties for critical structural and marine applications: Primary Alloying Elements: Magnesium (Mg): 4.0-4.9% (solid solution strengthening) Manganese (Mn): 0.4-1.0% (grain structure […]
6063 Extruded Aluminum Bar
1. Material Composition & Manufacturing Process 6063 aluminum alloy (AlMgSi0.5) is a medium-strength alloy with excellent extrudability, surface finish, and corrosion resistance. This popular architectural alloy combines good mechanical properties with superior formability and anodizing response: Primary Alloying Elements: Magnesium (Mg): 0.45-0.90% (precipitation hardening) Silicon (Si): 0.20-0.60% (forms Mg₂Si strengthening precipitates) Base Material: Aluminum (Al): […]
2024 Aluminum Bar
1. Material Composition & Manufacturing Process 2024 aluminum alloy (AMS 4120, ASTM B211) is a high-strength aircraft-grade aluminum-copper alloy prized for its excellent strength-to-weight ratio, superior machinability, and good fatigue performance. The bar stock configuration offers optimized properties for critical structural components: Primary Alloying Elements: Copper (Cu): 3.8-4.9% (primary strengthening element) Magnesium (Mg): 1.2-1.8% (precipitation […]