1. What is aluminum alloy bar/rod 5086(UNS A95086)
An aluminum alloy with good corrosion resistance and high strength is 5086(UNS A95086) aluminum alloy, which can be reinforced through heat treatment. Aluminum, magnesium, manganese, and other elements make up the majority of its composition; the magnesium percentage ranges from 4.0 to 4.9%, and the manganese content is between 0.2 and 0.7%. The 5086 aluminum alloy is suited for a variety of processing methods and has outstanding welding performance and plasticity.
2. Chemical composition of aluminum alloy bar/rod 5086(UNS A95086)
| Element | Fe | Si | Mn | Cr | Cu | Ti | Al | Zn | Mg |
|---|---|---|---|---|---|---|---|---|---|
| Minimum Value | - | - | 0.2 | 0.05 | - | - | 93 | - | 3.5 |
| Maximum Value | 0.5 | 0.4 | 0.7 | 0.25 | 0.1 | 0.15 | 96.25 | 0.25 | 4.5 |
3. Mechanical properties of aluminum alloy bar/rod 5086(UNS A95086)
| Properties | Metric | Imperial |
|---|---|---|
| Density | 2.65 g/cm3 | 0.0957 lb/in3 |
| Melting point | 588°C | 1090°F |
| Condition | Mark | Heat Treatment Or Condition | Tensile Strength σb Mpa | Yield Point σs Mpa | Elongation Or Elongation After Break δ % | Hardness HBW |
|---|---|---|---|---|---|---|
| Rod;d≤200 | 5086O | O | 240~320 | ≥95 | ≥18 | 65 |
| Rod;d≤200 | 5086H112 | H112 | ≥240 | ≥95 | ≥12 | 65 |
①O-annealing state; ②H-work hardening state; ③T6-solid solution heat treatment + artificial aging; ④T1-high temperature molding + natural aging; ⑤T3-cold working after solid solution heat treatment, and then natural aging to a basically stable state; ⑥T4-solid solution After heat treatment, it is naturally aged to a basically stable state; ⑦T5-cooled by high-temperature molding, and then artificially aged to a basically stable state; ⑧T7-a state of over-aging after solid solution heat treatment; ⑨T8-a state of solid solution heat treatment, cold processing, and then artificial aging. d-diameter of round rod or thickness of square rod or hexagonal rod, t-thickness of square rod or hexagonal rod, unit mm
Note: This brand of bar is supplied in state O, H112; the heat treatment or state O, H112 in the table is the sample state.
4. Physical properties of aluminum alloy bar/rod 5086(UNS A95086)
Tensile Strength σb (MPa):≥240
Conditional Yield Strength σ0.2 (MPa):≥95
Elongation δ10 (%):≥10
Elongation δ5 (%):≥12
5. Specifications of aluminum alloy bar/rod 5086(UNS A95086)
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| Product Name | Aluminum bar & rod |
| Place of Origin | Shanghai China |
| Standards | ASTM, SAE, EN, DIN, JIS, ISO, KS, NF, ISC, GB |
| Application | Marine Engineering, Architectural Decoration, Aerospace,Petrochemical industry,Automotive Industry,Machining |
| Surface Treatment | Polished |
| Shape | Round |
| Technique | Cold Drawn |
| Grade | 5000 Series |
| Hardness | 30~60HV |
| Alloy Or Not | Non-Alloy |
| Al (Min) | ≥99% |
| Yield (≥ MPa) | 68 |
| Temper | T3 - T8 |
| Ultimate Strength (≥ MPa) | 60 |
| Tolerance | ±3% |
| Processing Service | Bending, Decoiling, Welding, Punching, Cutting |
| Delivery Time | Short delivery time |
6. Applications and characteristics of aluminum alloy bar 5086 (UNS A95086)
Performance parameters of 5086 (UNS A95086) aluminum alloy
Mechanical characteristics: The 5086 aluminum alloy has a tensile strength between 240 and 305 MPa, a yield strength between 145 and 215 MPa, and an elongation between 10 and 16%. It is suitable for making components that need high strength and corrosion resistance since it has a certain plasticity and high strength.
Corrosion resistance: The 5086 aluminum alloy is well-suited for usage in marine environments and has good corrosion resistance in a number of corrosive conditions. It is not prone to corrosion or oxidation and can withstand the erosion caused by seawater and salt spray.
The strength and hardness of 5086 aluminum alloy can be increased through heat treatment. Solution treatment and aging treatment are two typical heat treatment techniques. The strength and flexibility of the alloy can be improved through solid solution treatment, and its strength and hardness can be increased through age treatment.
The 5086 aluminum alloy is used frequently in ships, aircraft, automobiles, machinery, the petrochemical industry, and other areas because of its high strength and excellent corrosion resistance. Shipbuilding, aircraft, car manufacture, machinery and equipment, petrochemical sector, etc. are only a few of its major uses.
7. Main aluminum alloy product grade list
| China | ISO(EU) | Japan | India | Russia | EN(Europe) | Germany | France | U.K. | USA |
| 2A11(LY11) | Al Cu4MgSi | A2017 | 24534 | д1/1110 | 2017/A92017 | ||||
| 2B11(LY8) | AlCu5MgSi(A) | A2017A | д1п/1111 | AlCuMg1/3.1325 | 2017A(A-U4G) | 2017A | |||
| 2A12(LY12) | AlCu4MgSi1 | A2024 | 24530 | д16/1160 | EN AW-2024/AlCu4Mg1 | AlCuMg2/3.1355 | 2024(A-U4G1) | 2024 | |
| 2B12(LY9) | A2024 | д16/1160 | 2024/A92024 | ||||||
| 2A14(LD10) | AlCu4MgSi | A2014 | 24345 | AK8/1380 | EN AW-2014/AlCu4Mg | AlCuSiMn/3.1255 | 2014(A-U4SG) | 2014(H15) | 2014/A92014 |
| 2A70(LD7) | A2618 | AK4-1/1141 | 2618/A92618 | ||||||
| 2014 | AlCu4SiMg | A2014 | 24345 | AK8/1380 | EN AW-2014/AlCu4SiMg | AlCuSiMn/3.1255 | 2014(A-U4SG) | 2014(H15) | 2014/A92014 |
| 2014A | AlCu4SiMg(A) | A2014A | EN AW-2014/AlCu4SiMg(A) | 2014A | |||||
| 2017 | AlCu4MgSi | A2017 | д1/1110 | 2017/A92017 | |||||
| 2017A | AlCu4MgSi(A) | A2017A | 24534 | AK21/1120 | EN AW-2017A/AlCu4MgSi(A) | AlCuMg1/3.1325 | 2017A(A-U4G) | 2017A/A92017 | |
| 2024 | AlCu4Mg1 | A2024 | 24530 | д16/1160 | EN AW-2024/AlCu4Mg1 | AlCuMg2/3.1355 | 2024(A-U4G1) | 2024/A92024 | |
| A2618 | EN AW-2618/AlCu2Mg1.5Ni | 2618A(A-U2GN) | 2618A | ||||||
| 5A02(LF2) | AlMg2.5 | A5052 | AMr2/1520 | EN AW-5052/AlMn2.5 | AlMg2.5/3.3523 | 5052(A-G2.5C) | 5052(NS4) | 5052/A95052 | |
| 5A05(LF5) | AlMg5Mn1 | A5056 | AMг5/1550 | EN AW-5019/AlMg5 | AlMg5/3.3555 | 5456(A56S) | 5456/A95456 | ||
| 5B05(LF10) | AlMg5Cr | A5056 | 55000 | AMr5п/1551 | 5056/A95056 | ||||
| 5005 | AlMg1(B) | A5005 | 51000-A | AMr1/1510 | EN AW-5005/AlMg1(B) | 5005(A-G0.6) | 5005(N41) | 5005/A95005 | |
| 5052 | AlMg2.5 | A5052 | AMr2/1520 | EN AW-5052/AlMg2.5 | AlMg2.5/3.3523 | 5052(A-G2.5C) | 5052(2L55) | 5052/A95052 | |
| 5083(LF4) | AlMg4.5Mn0.7 | A5083 | 54300 | EN AW-5083/AlMg4.5Mn0.7 | 5083(A-G4.5MC) | 5083(NT8) | 5083/A95083 | ||
| 5086 | AlMg4 | A5086 | AMr4/1540 | EN AW-5086/AlMg4 | AlMg4Mn/3.3545 | 5086(A-G4MC) | 5086/A95086 | ||
| 6061(LD30) | AlSi1MgCu | A6061 | 65032 | Aд33/1330 | EN AW-6061/AlMg1SiCu | AlMgSi1Cu/3.2311 | 6061(A-GSUC) | 6061(N20/H20) | 6061/A96061 |
| 6101 | E-AlMgSi | A6101 | EN AW-6101A/E-AlMgSi | E-AlMgSi0.5/3.2207 | 6101/A96101 | ||||
| 7A09(LC9) | AlZn5.5MgCu | A7075 | 76528 | B95/1950 | EN AW-7075/AlZn5.5MgCu | AlZnMgCu1.5/3.4365 | 7075(A-Z5GU) | 7075(C77S) | 7075/A97075 |
| 7075 | AlZn5.5MgCu | A7075 | 76528 | B95/1950 | EN AW-7075/AlZn5.5MgCu | AlZnMgCu1.5/3.4365 | 7075(A-Z5GU) | 7075(C77S) | 7075/A97075 |
