1. Williams Metals
and Welding Alloys, Inc.
Providing Welding & Metals Solutions for Over 50 Years
Welding Filler Metals
Setting the Standard for Excellence.
2. Williams Metals and Welding Alloys is a
multi-location stocking distributor of welding
filler metals and non-ferrous metals.
Our processing and distribution service centers
supply copper, brass, bronze, and aluminum in rod,
bar, plate, pipe, sheet and strip forms, and ensure
just-in-time delivery throughout the United States.
The WMWA Welding Division offers a full line of
welding consumables in copper, carbon, cobalt,
aluminum, stainless, silver brazing, and nickel alloys
worldwide.
Williams Metals and Welding Alloys services a
broad range of markets including the construction,
power generation, transmission, and distribution,
transformer, mining, petroleum, automotive, and
switchgear industries.
Corporate Headquarters
125 Strafford Avenue, Suite 108
Wayne, PA 19087-3318
Phone: 610.225.0105
Fax: 610.225.0208
Mansfield Sales Office & Warehouse
50 Mansfield Industrial Parkway
Mansfield, OH 44903-8999
Phone: 888.522.5061 • Fax: 419.522.1749
Birmingham Sales Office & Warehouse
2700 19th Street North
Birmingham, AL 35207-4902
Phone: 800.633.4830 • Fax: 205.787.9974
Concord Sales Office & Warehouse
714 Commerce Drive
Concord, NC 28025-8800
Phone: 800.882.4464 • Fax: 704.784.1122
Houston Sales Office & Warehouse
7402 Neuhaus Street
Houston, TX 77061-4603
Phone: 866.231.9353 • Fax: 713.675.1966
Pittsburgh Sales & Administration
1501 Reedsdale Street, Suite 2005
Pittsburgh, PA 15233-2341
Phone: 877.435.6543 • Fax: 877.435.6544
Cleveland Area Sales Office
8052 State Street, Suite 6
Garrettsville, OH 44231-1023
Phone: 800.842.3762 • Fax: 330.527.2748
Email: sales@wmwa.net
www.wmwa.net
Product Information
Filler Metals Pages 1 - 11
Member of the American Welding Society, the Gases & Welding Distributors Association, the Copper & Brass Servicenter Association,
and American Copper Council.
3. PRODUCT INFORMATION - WELDING FILLER METALS
1
Fe
-
.50
1.5
GRADE
70S - B2L
80S - B2
80S - B3L
90S - B3
80S - B6
80S - B8
90S - B9 (A)
80SNi-1
80SNi-2
80SNi-3
100S-1
110S-1
120S-1
Mn
.63
.52
.61
.45
.46
.50
.60
.92
.95
.95
1.40
1.60
1.65
Si
.56
.49
.54
.40
.39
.42
.20
.60
.58
.62
.30
.35
.35
P
.01
.015
.01
.015
.015
.015
.008
.015
.015
.015
.008
.009
.008
Ni
—
—
—
—
—
—
.55
.95
2.60
3.45
1.60
2.20
2.60
Cr
1.40
1.30
2.55
2.50
5.40
9.25
9.10
—
—
—
—
—
—
Mo
.53
.55
1.10
1.10
.50
1.10
1.00
—
—
—
.40
.40
.45
V
—
—
—
—
—
—
.19
—
—
—
—
—
—
Ti
—
—
—
—
—
—
—
—
—
—
.04
.06
.06
Zr
—
—
—
—
—
—
—
—
—
—
.06
.05
.05
Al
—
—
—
—
—
—
—
—
—
—
.08
.07
.07
C
.04
.10
.04
.09
.07
.06
.10
.10
.09
.10
.07
.08
.08
GRADE
Deox Copper—ERCu
Silicon Bronze—ERCuSi-A
Aluminum Bronze A-2—ERCuAl-A2
Zn
-
1.0
.02
Sn
1.0
1.0
-
Mn
.50
1.5
-
Si
.50
2.8-4.0
.10
P
.15
-
-
Al
.01
.01
8.5-11.0
Pb
.02
.02
.02
Cu
98.0 Min.
Bal.
Bal.
Copper Based Welding And Brazing Alloys
AWS/SFA A5.7 A5.27
Single values are maximum unless otherwise specified.
Available on spools and in cut lengths.
Other grades, including coated electrodes, are available upon request.
Low Alloy Steel
AWS/SFA A5.28
Typical Analysis
(A) Niobium (Columbium) 0.02 - 0.10%
Nitrogen 0.03 - 0.07%
GRADE
1100
4043
5183
5356
5556
Si
(2)
4.5-6.0
.40
.25
.25
Fe
(2)
.8
.40
.40
.40
Cu
.05-.20
.30
.10
.10
.10
Mn
.05
.05
.50-1.0
.05-.20
.50-1.0
Mg
—
.05
4.3-5.2
4.5-5.5
4.7-5.5
Cr
—
—
.05-.25
.05-.20
.05-.20
Zn
.10
.10
.25
.10
.25
Ti
—
.20
.15
.06-.20
.05-.20
Other Elements
Each(3)
Total
.05 .15
.05 .15
.05 .15
.05 .15
.05 .15
AL
99. Min
Remainder
Remainder
Remainder
Remainder
Aluminum Welding Wire
AWS/SFA A5.10
Chemical Composition Limits (1)
(1)
Single values are maximum unless otherwise specified.
(2)
Silicon plus Iron shall not exceed .95%.
(3)
Beryllium shall not exceed .0008.
Other grades, including coated electrodes, are available upon request.
Product available in spools, coils, drums,
reels, and cut lengths in sizes .025 to .156
www.wmwa.net
4. Typical Mechanical Properties
Tensile Strength 78,000 PSI
Yield Strength 65,000 PSI
Elongation 25%
Impact Strength, Ft/Lbs 35 Ft-Lbs @ -20F
Williams 70S-2
Specification: AWS A5.18
Class ER70S-2
Williams 70S-2 is a multiple deoxidized mild steel wire containing Aluminum, Titanium and Zirconium, in addition to Silicon
and Manganese. It is capable of sound welds in all grades of carbon steel. MIG welding can be conducted with either Carbon
Dioxide, Argon-CO2, or Argon 2% oxygen. TIG welding with 100% Argon.
Typical Chemical Analysis
C 0.05
Mn 1.15
Si 0.5
P 0.02
S 0.015
Al 0.09
Zr 0.05
Ti 0.06
Typical Mechanical Properties
Tensile Strength 77,000 PSI
Yield Strength 65,000 PSI
Elongation 26%
Impact Strength, Ft/Lbs 33 Ft-Lbs @ -20F
Average Brinell Hardness 125
Williams 70S-3
Specification: AWS A5.18
Class ER70S-3
Williams 70S-3 is a mild steel wire primarily used for MIG and TIG welding (GMAW and GTAW). It contains deoxidizers,
Manganese and Silicon to provide porous-free welds under normal welding conditions. MIG welding can be performed with
either CO2 or Argon-CO2.
Typical Chemical Analysis
C 0.08
Mn 1.15
Si 0.54
P 0.02
S 0.015
Typical Mechanical Properties
Tensile Strength 84,000 PSI
Yield Strength 73,000 PSI
Elongation 27%
Impact Strength, Ft/Lbs 30 Ft-Lbs @ -20F
Average Brinell Hardness 150
Williams 70S-6
Specification: AWS A5.18
Class ER70S-6
Williams 70S-6 is a mild steel wire primarily used for MIG and TIG welding (GMAW and GTAW). It contains higher levels of
deoxidizers compared to other mild steel wires resulting in better fluidity and bead appearance. It performs well in CO2 shield-
ing gas but can also be used with Argon-CO2.
Typical Chemical Analysis
C 0.09
Mn 1.65
Si 0.97
P 0.02
S 0.015
2
Product available in spools, coils, drums,
reels, and cut lengths in sizes .025 to .156
Product available in spools, coils, drums,
reels, and cut lengths in sizes .025 to .156
Product available in spools, coils, drums,
reels, and cut lengths in sizes .025 to .156
www.wmwa.net
5. 3
Typical Mechanical Properties
Tensile Strength 98,000 PSI
Yield Strength 80,000 PSI
Elongation 20%
Impact Strength, Ft-Lbs 33 Ft-Lbs @ -20F
Williams 80SD-2
Specification: AWS A5.28
Class ER80SD-2
Williams 80SD-2 is a low alloy wire with Manganese and Molybdenum as the principal alloying elements. This wire produces
weld deposits exhibiting good strength and low temperature properties, and can be used whenever higher strength and low
temperature toughness are necessary. The higher Manganese, Silicon combination also provides a smooth, uniform weld
bead. MIG welding can be conducted with CO2, Argon-CO2, or Argon-02; TIG welding with 100% Argon.
Typical Chemical Analysis
C 0.10
Mn 1.90
Si 0.65
P 0.015
S 0.012
Mo 0.50
GRADE C Mn Si Cr Mo Ni P S Cu Other
EM13K .09 .95 .50 - - - .009 .014 .21
EM14 .17 2.00 .02 - - - .013 .015 .23
EA-1 .08 .90 .02 - .58 - .015 .014 .18
EA-2 .091 .10 .03 - .56 - .017 .015 .20
EA-3 .121 .95 .02 - .56 - .016 .015 .19
EB-2 .12 .70 .15 1.10 .50 - .014 .016 .18
EB-3 .11 .72 .20 2.55 .95 - .010 .010 .19
EB-6 .07 .50 .30 5.75 .60 - .009 .00 .17
EB-8 .08 .55 .35 9.40 1.05 - .010 .010 .15
EB-9 .10 .70 .16 9.20 1.00 .60 .008 .009 - V.19, Nb.05, N.06
ENi1 .10 1.00 .20 .01 .02 1.10 .012 .014 .17
ENi2 .11 .95 .18 .01 - 2.75 .013 .015 .16
ENi3 .11 1.00 .20 .07 - 3.50 .011 .014 .17
EM2 .081 .50 .40 .10 .50 1.80 .007 .008 .13 V.03, Al.07, Ti .06, Zr.06
EM3 .081 .55 .35 .20 .48 2.30 .005 .007 .12 V.02, Al.06, Ti.05 Zr.07
EM4 .071 .50 .30 .20 .50 2.55 .005 .006 .12 V.01, Al.06, Ti.05, Zr.06
EW .10 .50 .30 .60 - .65 .019 .018 .45
4130 .30 .55 .25 .90 .20 - .016 .014 .19
Carbon & Low Alloy Steel
For Submerged Arc Welding AWS/SFA A5.17 and A5.23 Typical Analysis
Product available in spools, coils, drums,
reels, and cut lengths in sizes .025 to .156
www.wmwa.net
6. 4
GRADE
ER307
ER 308H
ER 308/308L
ER 308LSi
ER 309
ER 309L
ER 309LMo
ER 309LSi
ER 310
ER 312
ER 316/316H
ER 316L
ER 316LMn
ER 316LSi
ER 317L
ER 320LR
ER 330
ER 347
ER 385
ER 409Nb
ER 410NiMo
ER 410
ER 430
ER 439
ER 630
ER 2209
Mn
6.5
1.75
1.75
1.75
1.80
1.80
2.00
1.80
1.90
1.70
1.75
1.75
6.78
1.75
1.80
1.70
1.90
1.75
1.95
.60
.50
.50
.45
.65
.50
1.5
Si
.85
.50
.50
.80
.55
.55
.50
.85
.45
.50
.50
.50
.52
.80
.60
.05
.40
.55
.37
.45
.40
.50
.39
.60
.45
.45
Cr
18.9
20.0
20.0
20.0
23.5
23.5
24.10
24.0
26.5
29.50
19.0
19.0
20.15
19.0
19.0
19.5
16.0
19.5
20.0
11.75
12.0
12.5
16.30
18.10
16.5
22.5
Ni
8.8
10.0
10.0
10.0
13.5
13.5
13.0
13.5
21.0
9.0
13.0
13.0
15.65
13.0
13.5
34.0
35.0
10.0
25.0
.20
4.25
—
—
.15
4.75
8.5
Mo
—
—
—
—
—
—
2.5
—
—
—
2.4
2.4
2.68
2.4
3.6
2.5
—
—
4.2
—
.50
—
—
.05
—
3.2
Cb
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
.25
—
.8
—
.50
—
—
—
—
.23
—
Cu
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
3.5
—
—
1.7
—
—
—
—
—
3.60
—
OTHER
—
—
—
—
—
—
—
—
—
—
—
—
N.18
—
—
—
—
—
—
—
—
—
—
Ti .60
—
N.19
C
.08
.06
.015
.015
.06
.015
.015
.015
.12
.13
.06
.015
.019
.015
.02
.03
.24
.05
.18
.05
.03
.11
.06
.025
.03
.015
Stainless Steel Bare Wire
AWS/SFA A5.9 Typical Analysis
Many of these grades are also available in strip and powder form for overlay and cladding applications.
Quality Policy
It is our policy to adhere to the requirements
of the ISO 9001:2000 Quality Standard. By complying
with these requirements we ensure continuous improve-
ment, emphasize defect prevention and reduce variation.
We're committed to making sure you receive the level of
quality and service you deserve.
www.wmwa.net
7. 18
16
14
12
10
18 20 22 24 26 28 30
WRC
Ferrite
Number
0
2
6
8
10
12
14
16
18
20
22
24
26
28
30 35
40
45
50 55
60 65
75
80 85
90 95
100
70
A
AF
5
4
FA
WRC-1992 Diagram for Stainless Steel Weld MetalNieq=Ni+35C+20N+0.25Cu
GRADE
ERCuNi
FM 67
ERNiCu-7
FM 60
ERNi-1
FM 61
ERNiCr-3
FM 82
ERNiCrMo-3
FM 625
ERNiCrMo-4
FM C-276
ERNiCrFe-5
FM 62
ERNiCrCoMo-1
FM 617
ERNiCrMo-10
FM 622
ERNiFeCr-2
FM 718
No AWS Class:
FM 55
ERNiCl
FM99
ERNiFeCr-1
FM65
Mn
.75
3.5
.30
2.75
.15
.55
.50
.06
.20
.20
.24
.23
.40
Si
.11
.85
.45
.40
.10
.05
.20
.15
.04
.25
.12
.06
.28
Cr
—
—
—
19.5
22.5
15.5
16.5
22.0
21.5
20.0
—
—
21.0
Ni
31.5
65.0
95.0
74.0
62.0
59.0
73.0
53.0
61.0
52.5
55.
99.5
43.0
Mo
—
—
—
—
9.0
15.5
—
9.5
13.5
3.0
—
—
3.0
Cb(A)
—
—
—
2.5
3.50
—
2.2
—
—
5.10
—
—
—
Cu
67.0
27.5
—
—
—
—
—
—
—
—
—
—
OTHER
Ti. .35
Ti. 2.30, Fe .40, Al .15
Ti. 2.8, Al 1.0, Fe .10
—
Al .18, Ti.20, Fe .75
W 3.6, Fe 5.5
Fe 7.0
Co 12.5, Al .90, Ti .25, Fe 1.0
W 3.2
Fe 44.2
—
Al .10, Ti 1.0, Cu 2.0
C
.01
.04
.05
.02
.02
.01
.025
.06
.01
.06
.06
.05
.01
Nickel & Nickel Alloy Bare Wire
AWS/SFA 5.7 . 5.14 - Typical Analysis
(A) Plus TA. Other Nickel grades also available.
Creq = Cr + Mo + 0.7Nb
www.wmwa.net
8. GRADE
Ni 55
ENiFe-C1
Ni 99
ENi-C1
Alloy 117
ENiCrMo-1
Alloy 112
ENiCrMo-3
Alloy 141
ENi-1
Alloy 182
ENiCrFe-3
Alloy 187
ECuNi
Alloy 190
ENiCu-7
Alloy 276
ENiCrMo-4
FM 122
ENiCrMo-10
WELD A
ENiCrFe-2
Mn
0.72
0.25
.45
0.33
0.42
6.75
1.80
3.10
0.50
0.40
1.80
Si
0.95
1.10
.35
0.38
0.45
0.50
0.35
0.95
0.15
0.15
0.34
Cr
—
—
21.65
21.75
—
15.00
—
—
15.40
21.50
15.50
Ni
53.0
94.0
54.0
60.0
97.8
69.0
30.5
67.0
59.0
66.3
71.25
Fe
44.0
3.5
1.5
3.0
0.30
6.5
0.60
0.90
5.5
3.80
8.50
Ti
—
—
.1
—
1.10
—
0.20
—
—
—
—
Mo
—
—
8.8
9.50
—
—
—
—
16.25
13.25
1.45
OTHER
Cu .10
Cu .10
Co 11.85, AL .65
Cb+Ta 3.40
—
Cb+Ta 1.75
PB.002
Cu Balance
Cu 28.10
W 3.25
W 3.10
Cb+Ta 1.25
C
.0.85
1.00
.06
0.04
0.04
0.03
—
0.03
0.02
0.01
0.03
Nickel & Nickel Alloy Electrodes
AWS/SFA 5.6, 5.11, 5.15
Typical Analysis Other Nickel grades also available.
6
GRADE
ENi-1 (FM 141)
ERNi-1 (FM 61)
ENiCu-7 (FM 190)
ERNiCu-7 (FM 60)
ECuNi (FM 67)
ERCuNi (FM 187)
ENiCrFe-3 (FM 182)
ERNiCr-3 (FM 82)
ENiCrMo-3 (FM 112)
ERNiCrMo-3 (FM 625)
ENiCrCoMo-1 (FM 117)
ERNiCrCoMo-1 (FM 617)
ENiCrMo-4 (FM C-276)
ERNiCrMo-4 (FM C-276)
ENiCrFe-2 (WELD A)
ERNiCrFe-5 (FM 62)
APPLICATIONS
Ni 200 and 201 dissimilar combinations of nickel alloys and steels.
Cladding of steels.
Alloys 400, R405 and K500, Cu and Cu nickel alloys. Cladding of steels.
Alloy 450 and Cu nickel alloys 70/30 80/20 90/10.
Alloys 600 and 601, 800, 800HT and 330.
Dissimilar combinations of steels and nickel alloys.
Alloys 625, 601, 686, 622, C-276 and other pit-resistant alloys.
Dissimilar combinations of steels and nickel-base alloys. Cladding of steels.
Alloys 617, 800HT, dissimilar combinations of high temperature alloys.
Alloy 276 and other pit-resistant alloys. Cladding of steels.
Dissimilar combinations of steels and nickel-base alloys.
Alloys 800 and 800HT, 600 and 601. Joining dissimilar combinations of carbon, stainless,
and nickel-base alloys.
Alloy 600.
Filler Metal
Selection Chart
These recommendations are general and are useful only as a guide to the proper selection of a filler metal. Care should always be taken to meet
the engineered requirements of the fabricated item when choosing the filler metal and welding process.
www.wmwa.net
10. GRADE
E308HTXX
E308LTXX
E309TXX
E309LTXX
E316TXX
E316LTXX
E347TXX
E410TXX
C
.06
.025
.06
.024
.05
.028
.04
.09
Cr
20.20
20.10
24.5
23.80
19.0
19.10
20.25
12.5
Ni
9.95
10.0
13.0
12.75
12.5
12.20
10.10
—
Mo
.09
.09
—
.04
2.62
2.55
.04
—
Cb + Ta
—
—
—
—
—
—
.55
—
Mn
1.25
1.30
1.22
1.30
1.09
1.10
1.30
.50
Si
.53
.50
.75
.55
.76
.60
.55
.45
P
.020
.020
.020
.020
.020
.025
.025
.020
S
.002
.002
.005
.002
.007
.003
.003
.006
Cu
.04
.03
—
.08
—
.13
.09
—
Controlled Ferrites upon request.
Flux cored Tig rods also available for root pass welding on pipe.
These products are also available using seamless tubing to prevent moisture pickup under humid conditions.
Other grades available upon request.
Flux Cored Stainless Electrodes
AWS/SFA A5.22 Typical Analysis
8
Electrodes Classification
Electrode (a) E- XXXT X-X External Shielding (c)
Alloy Composition
of Weld Deposit (b)
0: Flat & Horizontal
Tubular or Flux Cored 1: All Position
NOTES:
(a) “R” indicates Welding Rod
(b) Additional Alloy Composition
L - Low Carbon (0.0-0.04)
H - High Carbon (0.04-0.08)
Mo - Molybedenum
Cb - Columbium(Niobium)
Ni - Nickel
Ti - Titanium
K -
(c) External Shielding
1 - CO2
3 - None (Self-Shielded)
4 - 75-80% Ar/Bal CO2
5 - 100% Ar (Rods Only)
*2 - Discontinued
Low Temperature Toughness
(for self-shielded electrodes only)
Controlled chemistries in stainless steel filler metals are designed to maximize corrosion resistance, and maintain
desirable ferrite levels for added crack resistance. In addition, strict attention is given to wire finish, tensile, cast and
helix, to facilitate demanding robotic applications.
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C
.03
.03
.03
.05
.03
O
.03 - .10
.08 - .16
.13 - .20
.12 - .20
.03 - .11
N
.012
.015
.02
.030
.012
H
.005
.008
.008
.015
.005
Fe
.08
.12
.16
.22
.20
Al
__
__
__
5.5 - 6.7
5.5 - 6.5
V
__
__
__
3.5 - 4.5
3.5 - 4.5
Pd
__
__
__
__
__
Ru
__
__
__
__
__
Ni
__
__
__
__
__
GRADE
ERTi-1
ERTi-2
ERTi-3
ERTi-5
ERTi-23
Titanium Tig Rod & Specialty Coated Tig & Mig Wire
AWS/A5.16 Typical Analysis
11. Flux Core/Metal Core
Carbon & Low Alloy Steel
Electrodes For Arc Welding
E7XT-1C/M
E7XT-9C/M
E7XT-12C/M
E8XT1-B2
E8XT1-B2L
E9XT1-B3
E9XT1-B3L
E8XT1-Ni1
E9XT1-Ni2
E70C-3C/M
E70C-6C/M
E80C-B2
E80C-Ni1
E80C-Ni2
E80C-D2
E90C-B3
E90C-B9
Other grades available upon request.
GRADE
BAg-24
BAg-7
BAg-3
BAg-1
BCuP-5
Ag
50
56
50
45
15
Cu
20
22
16
15
80
Zn
28
17
16
16
—
Cd
—
—
16
24
—
P
—
—
—
—
5
Sn
—
5
—
—
—
Ni
2
—
3
—
—
other
.15 max
.15 max
.15 max
.15 max
.15 max
Solids/Liquids
1220/1305° F
1145/1205°F
1170/1270°F
1125/1145°F
1190/1475°F
Brazing & Braze Welding Filler Metals
AWS/SFA A5.8
Carbon & Low Alloy Steel
Covered Electrodes For Arc Welding
E6010
E6011
E6013
E7014
E7018
E7018-1
E7018-A1
E7024
E7018-B2L
E8018-B2
E8018-B3L
E9018-B3
E8018-C1
E8018-C2
E8018-C3
E11018-M
E12018-M
E8015-B6
E8018-B6
E8018-B6L
E8015-B8
E8018-B8
E8018-B8L
E9015-B9
E9018-B9
10# & 50# Hermetically Sealed Packages
9www.wmwa.net
Available in wire, strip, powder, cast or preforms.
Also brazing and soldering fluxes and lead-free solder.
% IACS:
BAg-24 = 15
BAg-7 = 8.3
BAg-3 = 18
BAg-1 = 27.6
BCuP-5 = 9.9
Applications:
BAg-24: 300 series stainless, nickel & steel
BAg-7: food handling equipment & steel
BAg-3: non-food service 300 series stainless steel, bronze & tungsten carbide inserts
BAg-1: tight joints, nickel, steel & copper base
BCuP-5: copper w/o flux & brass with flux
12. 10
Austenitic Filler Metal Selection
STAINLESS STEEL METALLURGICAL GROUPS
Austenitic
The Austenitic group contains chromium and nickel as the primary alloying elements and are the most widely used.
They can be hardened by cold working but not by heat treatment. All are essentially non-magnetic. The most common
types of Austenitic stainless are the UNS S20000 and S30000 alloys. They are generally considered the most weldable
of the stainless steels.
AISI Steel
201, 202, 205
301, 302, 302B
304, 304L
304H
303, 303SE
309, 309S
310, 310S, 314
316, 316L
316H
317
321
347, 348, 347H
320
330
904L
Recommended Filler Metal
240
308
308L
308H
312
309
310
316, 316L
316H
317
347
347
320Lr
330
385
Alternate Filler Metal
308, 347, 309
347, 309
347, 309
347, 309
309MO
309Cb, 310
310Cb, 310Mo
309Mo, 317
309Mo, 317
317L, 309Mo, 318
309Cb, 310Cb, 321
309Cb, 310Cb
320
—
—
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Converting To Metric
Inch
0.030
0.035
0.040
0.045
1/16
5/64
3/32
1/8
5/32
3/16
1/4
mm
0.8
0.9
1.0
1.2
1.6
2.0
2.4
3.25
4.0
5.0
6.0
Property
Linear
Measurement
Tensile
Strength
Impact
Toughness
Heat Input
Temperature
To Convert From
inches
mm
psi
MPa or N/mm2
ft-lbs
J
J/in
J/cm
Multiply By
25.4
0.039
0.007
145.03
1.355
0.7375
0.3937
2.54
To Get
mm
inches
MPa or N/mm2
psi
J
ft-lbs
J/cm
J/in
Wire Size
°F-32 1.8 = C°
°C x 1.8 + 32 = °F
..
13. Duplex Filler Metal Selection
AISI Steel
2205
Ferralium 225
Cd-4MCu
Recommended Filler Metal
2209
2553/2594
2553
Alternate Filler Metal
__
__
__
Precipitation Hardening Filler Metal Selection
11
Martensitic
The Martensitic group is also classified under the 400 series. The principal alloying element is chrome, with carbon
added to produce high levels of strength and hardness after heat treatment. Both Martensitic and Ferritic types are
magnetic. Similar precaution, including preheat, is necessary in the welding process.
Precipitation Hardening & Duplex
These unique grades were designed for specific applications. Care should be exercised in the welding process to select
the proper filler metal and welding procedures.
Martensitic Filler Metal Selection
AISI Steel
17-4 PH
15-5 PH
13-8 Mo
17-7 PH
Recommended Filler Metal
630
630
13-8 Mo
17-7 PH
Alternate Filler Metal
308, 309
__
__
__
These recommendations are general and are useful only as a guide to the proper selection of a filler metal. Care should always be taken
to meet the engineered requirements of the fabricated item when choosing the filler metal and welding process.
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Ferritic
The Ferritic group are straight grade chrome grades and come under the type 400 series. They cannot be hardened
by heat treating and only moderately by cold working. Precautions are required in the welding process to minimize
embrittlement and cracking.
Ferritic Filler Metal Selection
AISI Steel
405
409
430
442
446
Recommended Filler Metal
410
409Cb
430
308L
308L
Alternate Filler Metal
308L, 309, 410NM
430, 309LSi
308L, 309L
309L
309L
AISI Steel
403
410, 410S
414
420
431
440A
Recommended Filler Metal
410
410
410
420
410
312
Alternate Filler Metal
308, 347, 309
308, 347, 309
410NM, 309
309
309, 310
309