METBAY

Aluminum Pipes

Chemical Properties
AlaşımMgMnFeSiCuZnCrTiZrDiğer
1050<0.05<0.05<0.40<0.25<0.05<0.07-<0.05--
20140.20-0.80.40-1.2<0.70.50-1.23.9-5.0<0.25<0.10<0.15-<0.15
3003-1.0-1.15<0.7<0.60.05-0.20<0.10---<0.15
30050.20-0.61.0-1.15<0.7<0.6<0.30<0.25<0.10<0.10-<0.15
31050.20-0.80.30-0.8<0.7<0.6<0.30<0.40<0.20<0.10-<0.15
50050.50-1.1<0.20<0.7<0.30<0.20<0.25<0.10--<0.15
50491.6-2.50.5-1.1<0.50<0.40<0.10<0.20<0.30<0.10-<0.15
50522.2-2.8<0.10<0.40<0.25<0.10<0.100.15-0.35--<0.15
50834.0-4.90.40-1.0<0.40<0.40<0.10<0.250.05-0.25<0.15-<0.15
50863.5-4.50.20-0.7<0.50<0.40<0.10<0.250.05-0.25<0.15-<0.15
51824.0-5.00.20-0.50<0.35<0.20-<0.25<0.10<0.10-<0.15
57542.6-3.6<0.50<0.40<0.40<0.10<0.20<0.30<0.15-<0.15
60600.35-0.6<0.100.10-0.300.30-0.6<0.10<0.15<0.05<0.10-<0.15
60610.8-1.2<0.15<0.070.40-0.80.15-0.40<0.250.04-0.35<0.15-<0.15
60630.45-0.9<0.10<0.350.20-0.6<0.10<0.10<0.10<0.10-<0.15
60820.6-1.20.40-1.0<0.500.7-1.3<0.10<0.20<0.25<0.100.04-0.35<0.15
70752.1 -2.9<0.30<0.50<0.401.2-2.05.1 -6.10.18-0.28<0.20<0.15<0.15
Aluminum Process Alloys Comparison Table
In the table below you can find the equivalents of aluminum processing alloys in different norms (standards).
ENTSEAlmanya (DIN)EtialFransa (NF)İngiltere (BS)İtalya (UNI)ISO
2011AlCuBiPbAlCuBiPbEtial-20A-U5PbBiFCIP-AlCu5,5PbAlcu6BiPb
2014AICuSiMnAICuSiMnEtial-21A-U4 SGH15P-AlCu4,SiMnMgAICu4SiMg
2017AlCuSiMg1AlCuMg1Etial-22A-U4 GP-AICu4MgMnAlCu4MgSi
2024AlCuMg2AICuMg2Etial-24A-U4G1L97P-AICu4,5MgMnAlCu4Mg1
3003AlMnCuAIMnCuEtial-30A-MIP-AIM1 ,2CuAlMn1Cu
3004AlMn1Mg1AlMn1Mg1Etial-31A-MIGP-AlMn1,2MgAlMn1Mg1
3103AlMn1AIMnEtial-33MN33568AlMn1
3105AlMn0,5Mg0,5AlMn0,5Mg0,5Etial-35N31AlMn0,5Mg0,5
7075AlZnMgCu1,5AlZnMgCu1 ,5Etial-44A-Z5GuDDT5074AP-AIZn5,5MgCuAIZn5,5MgCu
5005AlMg0,8AlMg1Etial-50A-Go,6N41P-AIMg0,8AlMg1
5050AlMg1 ,5 Etial-51A-G1,5P-AIMg1,5AlMg1 ,5
5052AlMg2,5AlMg2,5CrEtial-52A-G2,5CN4P-AIMg2,5AIMg2,5
5754AlMg3AlMg3Etial-53A-G3N5P-AIMg3,5AIMg3
5251AlMg2Mn0,3AlMg2MnEtial-54A-G2mL80P-AIMg2MnAIMg2
6063AlMgSi0,5AlMgS10,5Etial-60A-GSH9AlMg0,7Si
6351AlMgSi1AlMgSi1Etial-61A-SGMH30P-AlSilMgMnAlSiMg0,5Mn
6082AIMS11AlMgSi1Etial-62A-SGM0,7H-30P-AlSi1MgMnAl Si Mg Mn
6463E-AIMgSiEtial-64A-GS/L91-EP-AlSi0,5Mg
6061AIMgISiCuAlMg1SiCuEtial-656061H-20P-AIMgISiCuAlMg1SiCu
8011AIFeSiAlFeSiEtial-98
Chemical Composition Limits of Alloy Ingots (% Weight)
ETİNORMFeSiCuMnMgZnTiPbSn
ETİAL -1100,74,00-6,02,00-4,000,20-0,600,150,20,30,20,10,05
ETİAL -1200,64,50-6,000,10,20,10,10,10,20,10,1
ETİAL -1400,611,50-13,500,10,40,10,10,10,150,10,05
ETİAL -141111,50-13,500,20,30,20,10,10,150,10,05
ETİAL -1450,611,00-13,000,50-1,500,20,80-1,400,20,80-1,300,10,10,05
ETİAL -1470,258,70-9,13,40-3,700,20,40-0,800,20,20,10,10,05
ETİAL -150111,00-13,01,75-2,500,50,40,70,30,150,10,1
ETİAL -16017,5-9,003,00-4,000,50,310,20,20,10,1
ETİAL -1710,59,00-10,000,10,40-0,600,30-0,450,10,10,150,050,05
ETİAL -1750,69,00-10,502,50-1,500,30,70-1,200,50,30,150,10,05
ETİAL -1770,26,60-7,400,020,030,30-0,450,040,020,08-0,140,060,05
ETİAL -1780,45,00-5,502,80-3,200,10-0,200,15-0,250,50,30,150,10,05
ETİAL -18019,00-11,500,70-2,500,50,30,050,50,20,10,2
ETİAL -1950,617,00-19,000,80-1,500,20,80-1,300,50,80-1,300,10,10,05
ETİAL -2200,30,354,00-5,000,10,10,80-1,300,10,050,050,05
ETİAL -2210,30,34,00-5,000,10,060,10,10,15-0,300,050,05
ETİAL -6090,610,050,2-0,57.Eki0,1-0,15--
Aluminum Condition
In the table below you can find descriptions of the aluminum conditions (heat treatment / temper).
Temper NODescription
FAs manufactured.
0Annealed (in the softest possible conditions)
HCold formed.
H1XCold formed only (x indicates the amount of cold forming and strengthening)
H12Cold forming gives a tensile strength in the middle between tempers 0 and H14.
H14Cold forming provides a tensile strength between tempers 0 and H18.
H16Cold forming provides a tensile strength midway between H14 and H18 tempers
H18Cold forming achieves a reduction of approximately 75
H19Cold forming provides 2000 psi more tensile strength than that achieved by H18 tempering
H2XCold formed and partially annealed
H3XCold-formed and stabilized to prevent aging of the structure at low temperature
WSolution heat treated
TAged.
T1Cooled from manufacturing temperature and naturally aged
T2Cooled from manufacturing temperature, cold-formed and naturally aged
T3Solution heat treated, cold worked and naturally aged to a substantially stable state
T4Solution heat-treated and naturally aged to a substantially stable state
T5Artificially aged after high temperature forming and cooling
T6Solution heat-treated and artificially aged
T7Solution heat-treated and stabilized
T8Solution heat treated, cold worked and artificially aged
T9Solution heat treated, artificially aged and cold worked
T10Cooled from the manufacturing temperature, cold-formed and artificially aged