1. What is aluminum alloy 2017 (UNS A92017)
Aluminum Alloy 2017 (UNS A92017) is a typical hard aluminum alloy of aluminum-copper-magnesium series materials. Among them, copper has the highest original content, about 3-5%. The alloy has a reasonable proportion of ingredients and good overall performance.
It is a hard aluminum alloy. This aluminum alloy material is used in very large amounts. This aluminum alloy is prone to cracks during welding and can be welded or riveted using special processes.
This aluminum alloy has high compressive strength, excellent yield strength, good heat resistance, excellent dimensional processing properties, good material toughness, and excellent cutting performance.
The 2017 series is the first 2XXX series alloy to be used in industrial applications. The current application range is narrow, mainly rivets, general mechanical parts, structural and transportation structural parts, propellers, and accessories.
2. Chemical composition of aluminum alloy 2017 (UNS A92017)
| Element | Content (%) |
|---|---|
| Aluminum | 91.5 - 95.5 |
| Copper | 3.5 - 4.5 |
| Iron | 0.7 max |
| Manganese | 0.4 - 1 |
| Magnesium | 0.4 - 0.8 |
| Silicon | 0.2 - 0.8 |
| Zinc | 0.25 max |
| Titanium | 0.15 max |
| Chromium | 0.1 max |
| Remainder (each) | 0.05 max |
| Remainder (total) | 0.15 max |
3. Mechanical properties of aluminum alloy 2017 (UNS A92017)
Aluminum Alloy 2017 (UNS A92017) products combine high tensile strength and impact strength with a low coefficient of thermal expansion and high thermal conductivity. These properties apply to a variety of structural and mechanical components. The low, ambient, and elevated temperature mechanical properties of the aluminum alloy 2017 sheet and plate are shown below. The test data shown are for all samples in annealed and quenched conditions.
Aluminum Alloy 2017 products are not recommended for use in applications requiring prolonged exposure to temperatures above 570°F because of the increased risk of reduced toughness. Data listed here are typical for forged products and should not be considered as maximum or minimum values unless otherwise stated.
4. Physical properties of aluminum alloy 2017 (UNS A92017)
The physical properties of Aluminum Alloy 2017 (UNS A92017) alloy are shown in the table below.
| Properties | Metric | Imperial |
|---|---|---|
| Tensile strength (annealed) | 179 MPa | 26000 psi |
| Yield strength (annealed) | 69 MPa | 10000 psi |
| Elongation (annealed) | 22% | 22% |
| Elastic modulus | 72 GPa | 10500 ksi |
| Shear strength (annealed) | 124 MPa | 18000 psi |
5. Specifications of aluminum alloy 2017 (UNS A92017)
The specifications of Aluminum Alloy 2017 (UNS A92017) are shown in the table below.
| Products name | Aluminum Plate |
| Material | 2000 |
| Standard | ASTM AISI AMS JIS EN GB |
| Width | Customizable |
| Thickness | Customizable |
| Length | Customizable |
| Package | Export standard package: bundled wooden box, suit for all kinds of transport, |
| Productivity | 10000ton/month |
| Payment | TT, LC, |
| Sample | Free and available |
| Quality | Certificate of ISO 90001, SGS, TUV |
| Country of Origin | CHINA |
6. Applications and characteristics of aluminum alloy 2017 (UNS A92017)
Aluminum Alloy 2017 (UNS A92017) alloy is mainly used in the following products:
Screw machine products and accessories, pulleys and gauges, hangers, crochet hooks, knitting needles, rivets, general structural parts, components for the transportation sector, fasteners, and aircraft components.
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 |
