ASTM A513 Alloy 1020 1026 Steel
1020 Cold Rolled Steel is a plain carbon steel and has a nominal carbon content of 0.20% with approximately 0.50% manganese. Because of its chemical makeup 1020 Cold Rolled Steel has a good mixture of ductility and strength. It may be carburized or hardened.
This alloy is generally used for DOM tubing. Its higher carbon content means higher strength, but lower weldability and machinability.Simple structural applications including cold headed bolts are often formed from Cold Rolled 1020 steel. It has 65% machinability and is readily weldible using standard methods.
The numeric system that describes types of steel helps to determine the alloying ingredients by the first two digits of the alloy number, and the last two digits refer to the carbon content. Generally, as carbon is added, machinability and weldability decreases but strength increases.
In steel manufacturing, rolling is a forming process whereby metal materials are passed through a pair of rollers. Cold rolling is the process that occurs when the metal is below its recrystallization temperature. When the metal is higher than its recrystallization temperature it is referred to as hot rolling. There are different types of rolling; the most common are hot rolling and cold rolling. Rolling is classified according to the temperature of the metal rolled.
There are many different types of steel and various alloys and applications for each type. Generally steel is low cost and it is easy to finish with paint or other coatings. The term steel refers to iron whereby 0.02 to 1.7% carbon has been added. This makes steel a popular choice for many different types of products. Steel does however, have poor corrosion resistance. It is used commonly in the manufacturing of automobiles, homes, cutlery, appliances and magnetic cores just to name a few.
ASTM A513 alloys 1020 - 1026 Mild (low-carbon) steel |
Minimum Properties |
Ultimate Tensile Strength, psi |
87,000 |
Yield Strength, psi |
72,000 |
Elongation |
10.0% |
Rockwell Hardness |
B89 |
Chemistry |
Iron (Fe) |
99.08 - 99.53% |
Carbon (C) |
0.18 - 0.23% |
Manganese (Mn) |
0.3 - 0.6% |
Phosphorus (P) |
0.04% max |
Sulfur (S) |
0.05% max |
1008 | 1010 | 1015 | 1018 | 1020 | 1025 | 1035 | 1040 | 1045 | 1050 | 1117 | 1141 | 1144 | 12L14 | 1215 | 4140 | 4150 | 4340 | 8620 | A36 | A653 | A513 | Mechanical Properties | Physical Properties | Carbon Steel Pipe Standards | ASTM A53 B Working Pressure | ASTM A106 B Pressure Temperature Rating | Carbon Steel | Steel Alloy Designations | Chemical Composition Analysis of Carbon Steel Table | UNS Number G1 | UNS Number G2 | UNS Number G3 | UNS Number G4 | UNS Number G5 | UNS Number G6 | UNS Number G7
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Germany |
China |
England |
France |
Italy |
Belgium |
Swed |
Spain |
Japan |
USA |
Material No. |
DIN |
GB |
BS |
EN |
AFNOR |
UNI |
NBN |
SS |
UNE |
JIS |
AISI |
1.0401 |
C15 |
15 |
080M15 |
- |
CC12 |
C15C16 |
- |
1350 |
F.111 |
- |
1015 |
1.0402 |
C22 |
20 |
050A20 |
2C |
CC20 |
C20C21 |
C25-1 |
1450 |
F.112 |
- |
1020 |
1.0501 |
C35 |
35 |
060A35 |
- |
CC35 |
C35 |
C35-1 |
1550 |
F.113 |
- |
1035 |
1.0503 |
C45 |
45 |
080M40 |
- |
CC45 |
C45 |
C45-1 |
1650 |
F.114 |
- |
1045 |
1.0535 |
C55 |
55 |
070M55 |
- |
- |
C55 |
C55-1 |
1655 |
- |
- |
1055 |
1.0601 |
C60 |
60 |
080A62 |
43D |
CC55 |
C60 |
C60-1 |
- |
- |
- |
1060 |
1.7015 |
9SMn28 |
Y15 |
230M07 |
- |
S250 |
CF9SMn28 |
- |
1912 |
11SMn28 |
SUM22 |
1213 |
1.0718 |
9SMnPb28 |
- |
- |
- |
S250Pb |
CF9MnPb28 |
- |
1914 |
11SMnPb28 |
SUM22L |
12L13 |
1.0722 |
10SPb20 |
- |
- |
- |
10PbF2 |
CF10Pb20 |
- |
- |
10SPb20 |
- |
- |
1.0726 |
35S20 |
- |
212M36 |
8M |
35MF4 |
- |
- |
1957 |
F210G |
- |
1140 |
1.0736 |
9SMn36 |
Y13 |
240M07 |
1B |
S300 |
CF9SMn36 |
- |
- |
12SMn35 |
- |
1215 |
1.0737 |
9SMnPb36 |
- |
- |
- |
S300Pb |
CF9SMnPb36 |
- |
1926 |
12SMnP35 |
- |
12L14 |
1.0904 |
55Si9 |
55Si2Mn |
250A53 |
45 |
55S7 |
55Si8 |
55Si7 |
2085 |
56Si7 |
- |
9255 |
1.0961 |
60SiCr7 |
- |
- |
- |
60SC7 |
60SiCr8 |
60SiCr8 |
- |
60SiCr8 |
- |
9262 |
1.1141 |
Ck15 |
15 |
080M15 |
32C |
XC12 |
C16 |
C16-2 |
1370 |
C15K |
S15C |
1015 |
1.1157 |
40Mn4 |
40Mn |
150M36 |
15 |
35M5 |
- |
- |
- |
- |
- |
1039 |
1.1158 |
Ck25 |
25 |
- |
- |
- |
- |
C25-2 |
- |
- |
S25C |
1025 |
1.1167 |
36Mn5 |
35Mn2 |
- |
- |
40Mn5 |
- |
- |
2120 |
36Mn5 |
SMn438 |
1335 |
1.1170 |
28Mn6 |
30Mn |
150M28 |
14A |
20M5 |
C28Mn |
28Mn6 |
- |
- |
SCMn1 |
1330 |
1.1183 |
Cf35 |
35Mn |
060A35 |
- |
XS38TS |
C36 |
C36 |
1572 |
- |
S35C |
1035 |
1.1191 |
45 |
Ck45 |
080M46 |
- |
XC42 |
C45 |
C45-2 |
1672 |
C45K |
S45C |
1045 |
1.1203 |
Ck55 |
55 |
070M55 |
- |
XC45 |
C50 |
C55-2 |
- |
C55K |
S55C |
1055 |
1.1213 |
Cf53 |
50 |
060A52 |
- |
XC48TS |
C53 |
C53 |
1674 |
- |
S50C |
1050 |
1.1221 |
Ck60 |
60Mn |
080A62 |
43D |
XC60 |
C60 |
C60-2 |
1678 |
- |
S58C |
1060 |
1.1274 |
Ck101 |
- |
060A96 |
- |
- |
- |
- |
1870 |
- |
SUP4 |
1095 |
1.3401 |
X120Mn12 |
- |
Z120M12 |
- |
X120M12 |
XG120Mn12 |
- |
- |
X120Mn12 |
SCMn
H/1 |
- |
1.3505 |
100Cr6 |
Gr15
45Gr |
534A99 |
31 |
100C6 |
100Cr6 |
- |
2258 |
F.131 |
SUJ2 |
52100 |
1.5415 |
15Mo3 |
- |
1501-240 |
- |
15D3 |
16Mo3KW |
16Mo3 |
2912 |
16Mo3 |
- |
ASTM A20Gr.A |
Structural Steel Comparison Table 2 |
Germany |
China |
England |
France |
Italy |
Belgium |
Swe |
Spain |
Material No. |
DIN |
GB |
BS |
EN |
AFNOR |
UNI |
NBN |
SS |
UNE |
1.5426 |
16Mo5 |
- |
1503-245-420 |
- |
- |
16Mo5 |
16Mo5 |
- |
16Mo5 |
1.5622 |
14Ni6 |
- |
- |
- |
16N6 |
14Ni6 |
18Ni6 |
- |
15Ni6 |
1.5662 |
X8Ni9 |
- |
1501-509;510 |
- |
- |
X10Ni9 |
10Ni36 |
- |
XBNi09 |
1.5680 |
12Ni19 |
- |
- |
- |
Z18N5 |
- |
12Ni20 |
- |
- |
1.5710 |
36NiCr6 |
- |
640A35 |
111A |
35NC6 |
- |
- |
- |
- |
1.5732 |
14NiCr10 |
- |
- |
- |
14NC11 |
16NiCr11 |
- |
- |
15NiCr11 |
1.5752 |
14NiCr14 |
- |
655M13;655A12 |
36A |
12NC15 |
- |
13NiCr12 |
- |
- |
1.6511 |
36CrNiMo4 |
- |
816M40 |
110 |
40NCD3 |
38CrNiMo4 |
- |
- |
35CrNiMo4 |
1.6523 |
21NiCrMo2 |
- |
850M20 |
362 |
20NCD2 |
20NiCrMo2 |
- |
2503 |
20NiCrMo2 |
1.6546 |
40NiCrMo2 |
- |
311-Type7 |
- |
- |
40NiCrMo2 |
40NiCrMo2 |
- |
40NiCrMo2 |
1.6582 |
34CrNiMo6 |
40CrNiMoA |
817M40 |
24 |
35NCD6 |
35CrNiMo6 |
35CrNiMo6 |
2541 |
- |
1.6587 |
17CrNiMo6 |
- |
820A16 |
- |
18NCD6 |
- |
17CrNiMo7 |
- |
14CrNiMo13 |
1.7015 |
15Cr3 |
15Cr |
523M15 |
- |
12C3 |
- |
15Cr2 |
- |
- |
1.7033 |
34Cr4 |
35Cr |
530A32 |
18B |
32C4 |
34Cr4(KB) |
34Cr4 |
- |
35Cr4 |
1.7035 |
41Cr4 |
40Cr |
530M40 |
18 |
42C4 |
41Cr4 |
42Cr4 |
- |
42Cr4 |
1.7045 |
42Cr4 |
40Cr |
- |
- |
- |
- |
- |
2245 |
42Cr4 |
1.7131 |
16MnCr15 |
18CrMn |
(527M20) |
- |
16MC5 |
16MnCr15 |
16MnCr15 |
2511 |
16MnCr15 |
1.7176 |
55Cr3 |
20CrMn |
527A60 |
48 |
55C3 |
- |
55Cr3 |
- |
- |
1.7218 |
25CrMo4 |
30CrMn |
1717CDS110 |
- |
25CD4 |
25CrMo4 |
25CrMo4 |
2225 |
55Cr3 |
1.7220 |
34CrMo4 |
35CrMo |
708A37 |
19B |
35CD4 |
35CrMo4 |
34CrMo4 |
2234 |
34CrMo4 |
1.7223 |
41CrMo4 |
40CrMoA |
708M40 |
19A |
42CD4TS |
41CrMo4 |
41CrMo4 |
2244 |
41CrMo4 |
1.7225 |
42CrMo4 |
42CrMo;
42CrMnMo |
708M40 |
19A |
42CD4 |
42CrMo4 |
42CrMo4 |
2244 |
42CrMo4 |
1.7262 |
15CrMo5 |
- |
- |
- |
12CD4 |
- |
- |
2216 |
12CrMo4 |
1.7335 |
13CrMo44 |
- |
1501-620Gr.27 |
- |
15CD3.5;
15CD4.5 |
14CrMo44 |
14CrMo45 |
- |
14CrMo45 |
1.7361 |
32CrMo12 |
- |
722M24 |
40B |
30CD12 |
32CrMo12 |
32CrMo12 |
2240 |
F.124.A |
1.7380 |
10CrMo910 |
- |
1501-622Gr.31;45 |
- |
12CD9;10 |
12CrMo9,10 |
- |
2218 |
TU.H |
1.7715 |
14MoV63 |
- |
1503-660-440 |
- |
- |
- |
13MoCrV6 |
- |
13MoCrV6 |
1.8159 |
50CrV4 |
50CrVA |
735A50 |
47 |
50CV4 |
50CrV4 |
50CrV4 |
2230 |
51CrV4 |
1.8509 |
41CrAlMo7 |
- |
905M39 |
41B |
40CAD6,12 |
41CrAlMo7 |
41CrAlMo7 |
2940 |
41CrAlMo7 |
1.8523 |
39CrMoV139 |
- |
897M39 |
40C |
- |
36CrMoV12 |
36CrMoV13 |
- |
- |
|