AMC (1400)

Chemical composition

Al	Aluminum	Rest
Fe	Iron	<0.7
Si	Silicon	<0.6
Mg	Magnesium	<0.2
Mn	Manganese	1.0 — 1.5
Cu	Copper	<0.2
Ti	Titanium	<0.1
Zn	Zinc	<0.1
OE	Other items	<0.05
ET	Total other items	<0.15

In aluminum grade AMts for sheet blanks subjected to further molding, the introduction of titanium up to 0.2% is allowed.

Analogs in Germany

AG1

AG15

AlMnCu DIN 1725 Part 1

3.0517 DIN 1725 Part 1

AlMn1 DIN 1725 Part 1

3.0515 DIN 1725 Part 1

SG-AlMn1 DIN 1732 Part 1

3.0516 DIN 1732 Part 1

3103 DIN 1732 Part 1

EL-AlMn1 DIN 1732 Part 1

EN AW-3003 DIN EN 12392: 2016

EN AW-AlMn1Cu DIN EN 12392: 2016

EN AW-3103 DIN EN 12392: 2016

EN AW-AlMn1 DIN EN 12392: 2016

EN AW-3003 DIN EN 12392: 2016 / A1: 2019

EN AW-AlMn1Cu DIN EN 12392: 2016 / A1: 2019

EN AW-3103 DIN EN 12392: 2016 / A1: 2019

EN AW-AlMn1 DIN EN 12392: 2016 / A1: 2019

AW-3003 DIN EN 1301−2: 1997

AW-3103 DIN EN 1301−2: 1997

EN AW-3003 DIN EN 1301−2: 1997

AlMn1Cu DIN EN 1301−2: 1997

EN AW-3103 DIN EN 1301−2: 1997

AlMn1 DIN EN 1301−2: 1997

AL-P3103-H16 DIN EN 4004: 2007

EN AW-3003 DIN EN 573−3: 2013

EN AW-AlMn1Cu DIN EN 573−3: 2013

EN AW-3103 DIN EN 573−3: 2013

EN AW-AlMn1 DIN EN 573−3: 2013

AlMn1 TGL 14725

Analogs in Russia

3000

AMCS Included in 3 standards

AMTSM GOST 21631−76

AMTSN GOST 21631−76

AMtsN2 GOST 21631−76

AMTSSM GOST 21631−76

AMTSN GOST 21631−76

AMTSN2 GOST 21631−76

D9 GOST 2171−90

D10 GOST 2171−90

1400 GOST 4784−97

1401 GOST 4784−97

SvAMts GOST 4784−97

AMTSH GOST 4784−97

1400Sh GOST 4784−97

AMTSSSh GOST 4784−97

1401Sh GOST 4784−97

3003 GOST 745−14

AMTS GOST 9498−79

AMts OST 1 92014−90

1400 OST 1 92014−90

Analogs in the USA

AA3003 AA

4006 AMS

4008 AMS

4065 AMS

4067 AMS

AMS-A-22771 AMS

AMS-A-81596 AMS

AMS-QQ-A-200/1 AMS

AMS-QQ-A-225/2 AMS

AMS-QQ-A-250/2 AMS

AMS-QQ-A-250/3 AMS

AA3011 ANSI

AA3303 ANSI

AA3307 ANSI

AA3107 ANSI

AA3009 ANSI

AA3103 ANSI

3003 ANSI

SB 209 (3003) ASME SB209

SB 210 (3003) ASME SB210

SB 221 (3003) ASME SB221

SB 234 (3003) ASME SB234

SB 241 (3003) ASME SB241

SF A5.3 (E3003) ASME SF-A5.3

B 209 (3003) ASTM B209

B 210 (3003) ASTM B210

B 211 (3003) ASTM B211

B 221 (3003) ASTM B221

B 234 (3003) ASTM B234

B 241 (3003) ASTM B241

B 247 (3003) ASTM B247

B 275 (3003) ASTM B275

B 313 (3003) ASTM B313

B 316 (3003) ASTM B316

B 345 (3003) ASTM B345

B 404 Alloy 3003 ASTM B404

B 483 (3003) ASTM B483

B 491 (3003) ASTM B491

B 547 Alloy 3003 ASTM B547

B 548 (3003) ASTM B548

B 632 (3003) ASTM B632

B 736 (3003) ASTM B736

B 744 (3003) ASTM B744

B 745 (3003) ASTM B745

A5.3 (E3003) AWS A5.3

J454 (3003) SAE J454

A93003 UNS

For the manufacture of welded tanks, benzo and oil pipelines, radiators, etc. high corrosion resistance Technical requirements GOST 14838−78 Aluminum and aluminum alloy wire for cold heading. Technical conditions GOST 18482−18 Extruded pipes from aluminum and aluminum alloys. Specifications GOST 21631−76 Sheets from aluminum and aluminum alloys. Technical conditions GOST 4784−97 Aluminum and wrought aluminum alloys. GOST 618−14 stamps Aluminum foil for technical purposes. Specifications GOST 618−73 Aluminum foil for technical purposes. Technical conditions GOST 9498−79 Ingots from aluminum and wrought aluminum alloys flat for hire. Technical conditions GOST R 57517−17 Drawn wire from aluminum and aluminum alloys for general purposes. Technical conditions OST 1 92014−90 Deformable aluminum alloys. Stamps

Classification

Country	Section	Category
CIS, Russia, Ukraine	Aluminum, aluminum alloys	Wrought Aluminum Alloys

Chemical composition

Standard	Fe, %	Si, %	Mn, %	Cu, %	Zn, %	Al, %
GOST 4784-97	< 0.7	< 0.6	1–1.5	0.05–0.2	< 0.1	96.35–99

Information on suppliers

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Physical characteristics

Temperature, °C	$$E\cdot 10^{9}$$, $$MPa$$	$$\alpha\cdot 10^{6}$$, $$K^{-1}$$	$$\varkappa$$, $$\frac{W}{m\cdot K}$$	$$\rho$$, $$\frac{kg}{m^3}$$	$$c\cdot 10^{-3}$$, $$\frac{J}{kg\cdot K}$$	$$R\cdot 10^{-6}$$, $$\Omega\cdot m$$
20	71			2730		0.0345
100		23.2	180		1.09
200		25

Mechanical properties at 20 °C

Rolling	Standard	Classifiers	$$\sigma _{U}$$, $$MPa$$	$$\epsilon_L$$, %
Trumpet			100	12
Trumpet		annealing	90–135	15
Trumpet		cold-work	135
Round	GOST 21488-97		100	20
Tape			100	10
Profile			98	16
Sheet			110–120	12–15

Brinell hardness number

Rolling	Standard	Classifiers	Value, HBW
Alloy		cold-work	55
Alloy		annealing	30

Technological Properties

Weldability
no limits

Analogues

Germany	USA
3.0511	A93003

Standards

Standard	Description
GOST 4784-97

Description of chemical elements

Element	Units of measurement	Description
Fe	%	Iron
Si	%	Silicon
Mn	%	Manganese
Cu	%	Copper
Zn	%	Zinc
Al	%	Aluminium

Description of physical characteristics

Parameter	Units of measurement	Description
$$E\cdot 10^{9}$$	$$MPa$$	Elastic modulus
$$\alpha\cdot 10^{6}$$	$$K^{-1}$$	Coefficient of thermal (linear) expansion (range 20°C–T)
$$\varkappa$$	$$\frac{W}{m\cdot K}$$	Coefficient of thermal conductivity (the heat capacity of the material)
$$\rho$$	$$\frac{kg}{m^3}$$	The density of the material
$$c\cdot 10^{-3}$$	$$\frac{J}{kg\cdot K}$$	The specific heat of the material (range 20°C–T)
$$R\cdot 10^{-6}$$	$$\Omega\cdot m$$	Electrical resistivity

Description of mechanical properties

Parameter	Units of measurement	Description
$$\sigma _{U}$$	$$MPa$$	Ultimate tensile strength
$$\epsilon_L$$	%	Elongation at break (longitudinal)

Designation of types of weldability

Parameter	Units of measurement	Description
no limits		Welding is performed without heating and without subsequent heat treatment
Boundedly welded		Welding is possible with heating up to 100–120 °C and subsequent heat treatment
Difficult to weld		For obtaining quality welded joints, additional operations are required: heating up to 200–300 °C for welding, heat treatment after welding — annealing
Not applicable for welded structures