DIN 1725-1 Grade 3.3206 T5

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Description

This cold and hot hardenable material reaches mechanical strength from 200 to 250 MPa with A5-elongation at break of approx. 10 %. In the warm and cold-hardened state this alloy is only limited ductile, in the soft material condition however well. Weldability, corrosion resistance and anodising of this material are good. Due to the special suitability of this alloy for the extrusion those are present lot of profile cross-sectional shapes for application in static loading case in the automobile construction or in the building industry. The company Erbsloeh Aluminum leads under evenly this material number among other things the trade name AlMgSi0,3. It pay attention that only two further trade names (6030 and 466) of this company to this designation are to be assigned. Heat treatment for hardening: solution annealing: 525 to 540 °C, quenching on air or in water cold ageing: 5 to 8 d at ambient temperatures hot ageing: 4 to 16 h at 155 to 190 °C. Application: Window, doors, window walls, front plates, roller shutter, roll gates, bearing constructions, heat exchanger (gilled pipes), commercial motor vehicle superstructures, machine tables, metal goods, food industry, equipment of rail-mounted vehicles (stroke sun roofs, railroad car doors), optics, reflectors, operating sectors of hydraulic/pneumatics in mechanical engineering, trunk superstructures in the boat and shipbuilding, sail masts, road signs, trim in the automobile engineering, shower cubicles, fences and partitions, pipings in compressed gas tanks, camping furniture.

Related Standards

Equivalent Materials

This material data has been provided by WIAM,AluKey.

"Typical" values were obtained via a literature search. "Predicted" values were imputed via artificial intelligence technology. While we have placed significant efforts in ensuring data accuracy, "typical" and "predicted" data should be considered indicative and verified by appropriate material testing. Please do contact us if additional information on the the predicted data method is required.
All metrics apply to room temperature unless otherwise stated. SI units used unless otherwise stated.
Equivalent standards are similar to one or more standards provided by the supplier. Some equivalent standards may be stricter whereas others may be outside the bounds of the original standard.

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Properties

General

Property	Temperature	Value	Condition	Related Standards
Density		2.7 g/cm³ Show Material materials with Density of 2.7 g/cm³	T5	EN 573-3, EN 755
	20.0 °C	2.7 g/cm³ Show Material materials with Density of 2.7 g/cm³	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4

Mechanical

Property	Temperature	Value	Condition	Related Standards	Shape	Comment
Bending Fatigue Strength		80.0 MPa Show Material materials with Bending Fatigue Strength of 80.0 MPa	T5	EN 573-3, EN 755
Elastic modulus		69.5 GPa Show Material materials with Elastic modulus of 69.5 GPa	T5	EN 573-3, EN 755
	20.0 °C	67.0 GPa Show Material materials with Elastic modulus of 67.0 GPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
Elongation		6.0 % Show Material materials with Elongation of 6.0 %	T5	EN 573-3, EN 755		A50
		8.0 % Show Material materials with Elongation of 8.0 %	T5	EN 573-3, EN 755		A100
	20.0 °C	16.0 % Show Material materials with Elongation of 16.0 %	T5	DIN 1725-1	Seamless Tube
	50.0 °C	16.0 % Show Material materials with Elongation of 16.0 %	T5	DIN 1725-1	Seamless Tube
	100.0 °C	16.0 % Show Material materials with Elongation of 16.0 %	T5	DIN 1725-1	Seamless Tube
Plane-Strain Fracture Toughnes		22.0 - 35.0 MPa·√m Show Material materials with Plane-Strain Fracture Toughnes of 22.0 - 35.0 MPa·√m				Typical for Wrought 6000 Series Aluminium
Poisson's ratio		0.33 [-] Show Material materials with Poisson's ratio of 0.33 [-]				Typical for Wrought 6000 Series Aluminium
Shear modulus		26.1 GPa Show Material materials with Shear modulus of 26.1 GPa	T5	EN 573-3, EN 755
	20.0 °C	25.0 GPa Show Material materials with Shear modulus of 25.0 GPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
Tensile strength		140.0 MPa Show Material materials with Tensile strength of 140.0 MPa	T5	EN 573-3, EN 755
		160.0 MPa Show Material materials with Tensile strength of 160.0 MPa	T5	EN 573-3, EN 755
	20.0 °C	215.0 MPa Show Material materials with Tensile strength of 215.0 MPa	T5	DIN 1725-1	Seamless Tube
	20.0 °C	246.0 MPa Show Material materials with Tensile strength of 246.0 MPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
	50.0 °C	210.0 MPa Show Material materials with Tensile strength of 210.0 MPa	T5	DIN 1725-1	Seamless Tube
	100.0 °C	200.0 MPa Show Material materials with Tensile strength of 200.0 MPa	T5	DIN 1725-1	Seamless Tube
	100.0 °C	232.0 MPa Show Material materials with Tensile strength of 232.0 MPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
	150.0 °C	152.0 MPa Show Material materials with Tensile strength of 152.0 MPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
	200.0 °C	63.0 MPa Show Material materials with Tensile strength of 63.0 MPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
	250.0 °C	35.0 MPa Show Material materials with Tensile strength of 35.0 MPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
	320.0 °C	18.0 MPa Show Material materials with Tensile strength of 18.0 MPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
	370.0 °C	14.0 MPa Show Material materials with Tensile strength of 14.0 MPa	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4

Thermal

Property	Temperature	Value	Condition	Related Standards
Coefficient of thermal expansion	-50 °C	2.18e-05 1/K Show Material materials with Coefficient of thermal expansion of 2.18e-05 1/K	T5	EN 573-3, EN 755
	20 °C	2.18e-05 1/K Show Material materials with Coefficient of thermal expansion of 2.18e-05 1/K	T5	EN 573-3, EN 755
	20 °C	2.3399999999999996e-05 1/K Show Material materials with Coefficient of thermal expansion of 2.3399999999999996e-05 1/K	T5	EN 573-3, EN 755
	20 °C	2.45e-05 1/K Show Material materials with Coefficient of thermal expansion of 2.45e-05 1/K	T5	EN 573-3, EN 755
	20 °C	2.56e-05 1/K Show Material materials with Coefficient of thermal expansion of 2.56e-05 1/K	T5	EN 573-3, EN 755
	100 °C	2.3399999999999996e-05 1/K Show Material materials with Coefficient of thermal expansion of 2.3399999999999996e-05 1/K	T5	EN 573-3, EN 755
	200 °C	2.45e-05 1/K Show Material materials with Coefficient of thermal expansion of 2.45e-05 1/K	T5	EN 573-3, EN 755
	300 °C	2.56e-05 1/K Show Material materials with Coefficient of thermal expansion of 2.56e-05 1/K	T5	EN 573-3, EN 755
Melting point		585.0 - 650.0 °C Show Material materials with Melting point of 585.0 - 650.0 °C	T5	EN 573-3, EN 755
Specific heat capacity		898.0 J/(kg·K) Show Material materials with Specific heat capacity of 898.0 J/(kg·K)	T5	EN 573-3, EN 755
Thermal conductivity		200.0 - 220.0 W/(m·K) Show Material materials with Thermal conductivity of 200.0 - 220.0 W/(m·K)	T5	EN 573-3, EN 755
	20.0 °C	220.0 W/(m·K) Show Material materials with Thermal conductivity of 220.0 W/(m·K)	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4

Electrical

Property	Temperature	Value	Condition	Related Standards
Electrical conductivity		34000000.0 - 38000000.0 S/m Show Material materials with Electrical conductivity of 34000000.0 - 38000000.0 S/m	T5	EN 573-3, EN 755
	20.0 °C	30000000.0 - 32000000.0 S/m Show Material materials with Electrical conductivity of 30000000.0 - 32000000.0 S/m	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4
Electrical resistivity		2.63e-08 - 2.94e-08 Ω·m Show Material materials with Electrical resistivity of 2.63e-08 - 2.94e-08 Ω·m	T5	EN 573-3, EN 755

Chemical properties

Property	Value	Condition	Related Standards	Shape
Chromium	0.05 % Show Material materials with Chromium of 0.05 %	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4, EN 755	Seamless Tube
Copper	0.1 % Show Material materials with Copper of 0.1 %	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4, EN 755	Seamless Tube
Iron	0.1 - 0.3 % Show Material materials with Iron of 0.1 - 0.3 %	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4, EN 755	Seamless Tube
Magnesium	0.35 - 0.6 % Show Material materials with Magnesium of 0.35 - 0.6 %	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4, EN 755	Seamless Tube
Manganese	0.1 % Show Material materials with Manganese of 0.1 %	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4, EN 755	Seamless Tube
Silicon	0.3 - 0.6 % Show Material materials with Silicon of 0.3 - 0.6 %	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4, EN 755	Seamless Tube
Titanium	0.1 % Show Material materials with Titanium of 0.1 %	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4, EN 755	Seamless Tube
Zinc	0.15 % Show Material materials with Zinc of 0.15 %	T5	DIN 1725-1, EN 573-3, EN 573-4, VdTÜV WB 492, VdTÜV WB 420-4, EN 755	Seamless Tube

Technological properties

Property
Anodizing	decorative: EQ: sehr gut, Protective: very good
Brazing	hard brazing (with flux/ without flux): very good / good, friction soldering: very good, soft brazing with flux: good
Corrosion properties	Seawater: good, weathering: very good
Workability	Bending / Spinning (cold): acceptable (T3, T4) / -, Impact extrusion (cold): good (O), Deep drawing / upsetting (Condition) - / good (O)

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DIN 1725-1 Grade 3.3206 T5

Description

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Equivalent Materials

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