1. What is aluminum alloy pipe 2017A
Aluminum alloy metal 2017A Al-Cu-Mg series aluminum alloy's primary characteristics and range of applications: This is a hard type of aluminum that may be heated to strengthen it. It is moderately plastic in the freshly quenched and quenched phases, excellent for spot welding, and forms well during gas welding. Intergranular cracks are prone, the alloy is well-machinable after quenching and cold work hardening, but after annealing, it is less so. Because corrosion resistance is low, anodizing, painting, and other techniques are frequently used, or an aluminum layer is added to the surface to increase it.
Since 2017A is a hard aluminum alloy, it has excellent qualities for spot and seam welding as well as high strength, strong thermal strength, good machinability, good resistivity, and the ability to be enhanced through heat treatment. It also exhibits an extrusion effect. It possesses exceptional longitudinal and transverse characteristics as a result. There is a distinction.
2. Chemical composition of aluminum alloy pipe 2017A
| Element | Fe | Si | Mn | Cr | Cu | Ti | Zr | Al | Zn | Mg |
|---|---|---|---|---|---|---|---|---|---|---|
| Minimum value | - | 0.2 | 0.4 | - | 3.5 | - | - | 91.1 | - | 0.4 |
| Maximum value | 0.7 | 0.8 | 1 | 0.1 | 4.5 | 0.15 | 0.1 | 95 | 0.25 | 1 |
3. Mechanical properties of aluminum alloy pipe 2017A
| Condition | Heat treatment or condition | Tensile strength σb Mpa | Yield point σs Mpa | Elongation or elongation after break δ % | Hardness HBW |
|---|---|---|---|---|---|
| Cold drawn bar; d/s≤80 | O, H111 | ≤240 | ≤125 | ≥12(A);≥10(A50) | 45 |
| Cold drawn bar; d/s≤80 | Solid solution+Cold work+Natural aging(T3)* | ≥400 | ≥250 | ≥10(A);≥8(A50) | 105 |
| Cold drawn bar; d/s≤80 | Solid solution+Stress relief+Natural aging(T351)* | ≥400 | ≥250 | ≥8(A);≥6(A50) | 105 |
| Cold drawn pipe; t≤20 | O, H111 | ≤240 | ≤125 | ≥12(A);≥10(A50) | 45 |
| Cold drawn pipe; t≤20 | Solid solution+Cold work+Natural aging(T3)* | ≥400 | ≥250 | ≥10(A);≥8(A50) | 105 |
| Cold drawn pipe; t≤20 | T3510,T3511* | ≥450 | ≥380 | ≥8(A);≥6(A50) | 105 |
1,d=round rod diameter; s=square and hexagonal rod cross-sectional width, rectangular rod thickness; t=pipe wall thickness; unit/mm 2,A, A50-gauge length *Performance can be obtained by rolling quenching. 3, O-annealing 4, H111 - Annealed and slightly strain hardened (less than H11) in subsequent stretching or straining. 5,T3510-solid solution, eliminates stress + natural aging by controlling the amount of stretching (setting 0.5%~3% for rolled pipe). The stretched product is no longer straightened. 6, T3511 - Same as T3510 except slight straightening is allowed after stretching to meet standard tolerances.
4. Physical properties of aluminum alloy pipe 2017A
Tensile strengthσb(MPa):≥370
Conditional yield strengthσ0.2(MPa):≥215
Elongationδ5(%):≥12
Sample size: Rod diameter (square rod, hexagonal rod inscribed circle diameter)≤150
5. Specifications of aluminum alloy 2017A
2017A aluminum pipe supplier in China
Being a trustworthy 2017A aluminum pipe manufacturer and supplier, Shanghai Yinggui Metal Products Company aims to make manufacturing easier for our business partners. Shanghai Yinggui Metal offers 2000 Series sale that can be used for aircraft aluminum, industry molding, automatic mechanic components, and die.
| Item | Aluminum pipe, aluminum tube, aluminum tubing |
| Standard | GB/T6893-2000,GB/T4437-2000,ASTM B210,ASTM B241,ASTM B234,JIS H4080-2006,etc |
| Material | 2021A |
| OD | Customizable |
| WT | Customizable |
| Length | Customizable |
| Surface | Oxidation, electrophoresis coating, fluorine carbon spraying, powder coating, wood grain transfer printing, mechanical drawing, mechanical polishing, sandblasting |
| Price term | Ex-Work, FOB, CNF, CFR, CIF, FCA, DDP, DDU, etc |
| Payment term | TT,L/C,Western Union |
| MOQ | 1 ton |
| Package | Standard export package, or as required |
| Export to | Poland, India, Indonesia, Ukraine, Malaysia, Korea, Thailand, Brazil, South Korea, Korea, South Africa, Singapore, Canada, USA, Spain, Mexico, Kuwait, Peru, Italy, Nigeria, etc |
| Application | Aluminum tube is widely used in all walks of life, such as automobile, ship, aerospace, aviation, electronics, agricultural and mechanical and electrical, home, etc |
| Contact | If you have any questions, please feel free to contact me, We are sure your inquiry or requirements will get prompt attention. |
6. Applications and characteristics of aluminum alloy 2017A
Aluminum alloy 2017A has a low density but a strength that is comparable to or greater than premium steel. It can be processed into many different profiles and has good plasticity. It exhibits good corrosion resistance, thermal conductivity, and electrical conductivity. It is second only to steel in terms of industrial utilization. Heat treatment is a method for improving the mechanical, physical, and corrosion resistance of some aluminum alloys. Heat treatment can strengthen the hard aluminum alloy metal AI-Cu-Mg series, which typically contains a minor amount of Mn.
High hardness yet weak flexibility describe it. The Al-Cu-Mg-Zn system, which includes super duralumin, can be reinforced through heat treatment. Although it has good corrosion resistance and soon weakens at high temperatures, this aluminum alloy has considerable strength at room temperature. Al-Zn-Mg-Si alloys make up the majority of wrought aluminum alloys. They have great thermoplasticity and are suitable for forging since numerous types of elements are added, but the total amount is modest; for this reason, they are also known as forged aluminum alloys.
7. Main aluminum alloy product brand 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 |
