照片仅做参考，请以最终实物为准

直径 / 包装

直径	33 lb 盘装	44 lb 盘装
0.035 in (0.9 mm)		EDS30778
0.045 in (1.1 mm)	ED031417	EDS30779

SuperArc® LA-100

气体保护焊

等级:
ER100S-G
ER110S-G

SuperArc® LA-100™ 使用优选的镀铜工艺，低合金MIG焊丝设计用于690MPA拉伸强度母材焊接

林肯电气商务伙伴

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详情

优质的镀铜低合金 MIG 丝设计用于 100,000 psi （690 MPa）拉伸强度母材以及要求最小屈服强度为 82,000 psi （565 MPa）的材料。

产品特性

能够生产抗拉强度为 690 MPa （100 ksi）的焊缝
非常适合焊接淬火和回火钢以及 HY-80 母材
支持短路、大颗粒、轴向喷射和脉冲喷射过渡
铜涂层提供卓越的起弧特性，可延长导电嘴的使用寿命

典型应用

HY-80母材
ASTM A514/A543/A724/A782调质钢板焊接
多热输入工况焊接
军用低合金焊接

焊接位置

全位置

保护气体

混合气保护

服务支持

文档

SuperArc LA-100 Product Info

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SDS信息 SDS 搜索页面

参考实验结果免责声明

CONFORMANCE

CONFORMANCES	SPECIFICATION	CLASSIFICATION
AWS	AWS A5.28	ER100S-G, ER110S-G
ABS	ABS - Part 2	4YQ550SA
CWB	CWB AWS A5.28	ER69S-G (ER100S-G)
DB	ISO 16834-A	T 69 5 M21 Mn3Ni1,5Mo
MIL	MIL-E-23765/2E	MIL-100S-1
MIL	T9074-BC-GIB-010/0200	MIL-100S-1

MECHANICAL PROPERTIES

Classification	Shielding Gas	Polarity	Yield Strength @ 0.2% Offset MPa (ksi)	Tensile Strength MPa (ksi)	Elongation %	Charpy V-Notch J (ft-lbs) @ -50°C (-60°F)
ER110S-G Requirement	Not Specified	Not Specified		760 (110) min.
Typical Result, As-welded	95% Ar, 5% CO2	DC+	700 (102)	770 (111)	21	153-175 (113-129)
Typical Result, As-welded	98% Ar, 2% O2	DC+	740 (107)	780-800 (113-116)	20	149-239 (110-176)

WIRE COMPOSITION

Classification	%Al	%C	%Cr	%Mn	%Mo	%Ni	%P	%S	%Si	%Ti	%V	%Zr	%Total Cu
ER110S-G Requirement			0.30 min. *		0.20 min. *	0.50 min. *
Typical Result	0.01	0.05-0.06	0.03-0.04	1.58-1.67	0.42-0.45	1.88-1.99	0.004-0.009	0.003-0.006	0.43-0.48	0.02-0.04	<0.005	<0.001	0.08-0.12

TYPICAL OPERATING PROCEDURES

Diameter	Transfer Mode	Shielding Gas	Polarity	CTWD mm (in.)⁽¹⁾	Wire Feed Speed m/min (in/min)	Voltage volts	Approx. Current amps	Melt-off Rate kg/hr (lb/hr)
0.035 in (0.9 mm)	Short Circuit Transfer	75% Ar / 25% CO2	DC+	9-12 (3/8-1/2)	2.5 (100)	18	80	0.7 (1.6)
0.035 in (0.9 mm)	Short Circuit Transfer	75% Ar / 25% CO2	DC+	9-12 (3/8-1/2)	3.8 (150)	19	120	1.1 (2.4)
0.035 in (0.9 mm)	Short Circuit Transfer	75% Ar / 25% CO2	DC+	9-12 (3/8-1/2)	6.4 (250)	22	175	1.8 (4.0)
0.035 in (0.9 mm)	Spray Transfer	90% Ar / 10% CO2	DC+	9-12 (3/8-1/2)	9.5 (375)	23	195	2.7 (6.0)
0.035 in (0.9 mm)	Spray Transfer	90% Ar / 10% CO2	DC+	9-12 (3/8-1/2)	12.7 (500)	29	230	3.6 (8.0)
0.035 in (0.9 mm)	Spray Transfer	90% Ar / 10% CO2	DC+	9-12 (3/8-1/2)	15.2 (600)	30	275	4.4 (9.6)
0.045 in (1.1 mm)	Pulsed Spray Transfer ⁽²⁾		DC+	12-19 (1/2-3/4)	5.1 (200)	19-21	130	2.4 (5.4)
0.045 in (1.1 mm)	Pulsed Spray Transfer ⁽²⁾		DC+	12-19 (1/2-3/4)	6.4 (250)	20-23	140	3.0 (6.7)
0.045 in (1.1 mm)	Spray Transfer	98% Ar / 2% O2	DC+	12-19 (1/2-3/4)	8.9 (350)	27	285	4.2 (9.2)
0.045 in (1.1 mm)	Spray Transfer	98% Ar / 2% O2	DC+	12-19 (1/2-3/4)	12.1 (475)	30	335	5.7 (12.5)
0.045 in (1.1 mm)	Spray Transfer	98% Ar / 2% O2	DC+	12-19 (1/2-3/4)	12.7 (500)	30	340	6.0 (13.2)
0.045 in (1.1 mm)	Spray Transfer	95% Ar / 5% CO2	DC+	12-19 (1/2-3/4)	8.9 (350)	27	285	4.2 (9.2)
0.045 in (1.1 mm)	Spray Transfer	95% Ar / 5% CO2	DC+	12-19 (1/2-3/4)	12.1 (475)	30	335	5.7 (12.5)
0.045 in (1.1 mm)	Spray Transfer	95% Ar / 5% CO2	DC+	12-19 (1/2-3/4)	12.7 (500)	30	340	6.0 (13.2)
1/16 in (1.6 mm)	Spray Transfer	98% Ar / 2% O2	DC+	12-25 (1/2-1)	5.3 (210)	25	325	4.8 (10.7)
1/16 in (1.6 mm)	Spray Transfer	98% Ar / 2% O2	DC+	12-25 (1/2-1)	6.0 (235)	27	350	5.4 (12.0)
1/16 in (1.6 mm)	Spray Transfer	98% Ar / 2% O2	DC+	12-25 (1/2-1)	7.4 (290)	28	430	6.7 (14.8)
1/16 in (1.6 mm)	Spray Transfer	95% Ar / 5% CO2	DC+	12-25 (1/2-1)	5.3 (210)	25	325	4.8 (10.7)
1/16 in (1.6 mm)	Spray Transfer	95% Ar / 5% CO2	DC+	12-25 (1/2-1)	6.0 (235)	27	350	5.4 (12.0)
1/16 in (1.6 mm)	Spray Transfer	95% Ar / 5% CO2	DC+	12-25 (1/2-1)	7.4 (290)	28	430	6.7 (14.8)

NOTES

Note
* To meet the requirements of a "G" classification, the chemical composition of the eletrode must meet the minimum requirement for one or more of
⁽¹⁾ CTWD (Contact Tip to Work Distance). Subtract 1/4 in (6.4 mm) to calculate Electrical Stickout.
⁽²⁾ Procedures in this area are for pulse MIG mode for welding in the vertical up and overhead welding positions. Actual results are dependent on joint, material thickness, as well as wave shape and pulse frequency.