Aluminum Pressure Alloys Die Casting Materials Parts Supplier

Aluminum Pressure Alloys Die Casting Materials Parts Supplier

Product Description and Process aluminum pressure alloys die casting materials parts supplier Production process: aluminum die casting process Machining process: CNC machine, machining center, lathe, mill machine, drill machine, etc. Surface treatment process: anodic oxidation, Dacromet coating,...

Product Details

Product Description and Process

aluminum pressure alloys die casting materials parts supplier

 

Production process: aluminum die casting process

Machining process: CNC machine, machining center, lathe, mill machine, drill machine, etc.

Surface treatment process: anodic oxidation, Dacromet coating, etc.

 

Product Material and Uses

Normally produce with JIS ADC1, ADC3, ADC5, ADC6, ADC10, ADC12, ASTM A413, A360, A380, A383, etc.

 

The aluminum casting products are widely used for electronic industry, auto-car parts, electric motor parts, aero craft parts, watercraft parts, medical treatment equipment, communication system, other machinery components, etc.

 

Aluminum Alloys That we Offers

 

413

413 is an Aluminum based alloy that is used for die casting parts. 

413 has many benefits:

It offers a good combination of casting, mechanical, and thermal properties

It exhibits excellent fluidity, pressure tightness, and resistance to hot cracking

It is used for a wide variety of products

 

MECHANICAL PROPERTIES

Material

Alloy

Tensile Strength Mpa

Yield Strength (0.2%)Mpa

Shear Strength

Mpa

Hardness

Brinell (HB)

Elongation

% in 50mm

Process

Aluminum

413

295

145

170

80

2.5

Cold Chamber Die Casting

 

CHEMICAL COMPOSITION

Aluminum 413 %

Aluminum

copper

magnesium

Iron(max)

Tin(max)

Zinc

Manganese

Silicon

others

RoHS Compliant

Bal.

1.0

0.1

2.0

0.15

0.5

0.35

11-13


 

383

If your component is highly intricate, 383 is often used as an alternative to A380. 

It has better corrosion resistances, is lightweight, and its benefits include ease of casting, good mechanical properties, and dimensional stability.

 

MECHANICAL PROPERTIES

Material

Alloy

Tensile Strength Mpa

Yield Strength (0.2%)Mpa

Impact Strength

J

Hardness

Brinell (HB)

Elongation

% in 50mm

Process

Aluminum

383

310

150

4

75

3.5

Cold Chamber Die Casting

 

CHEMICAL COMPOSITION

Aluminum 383 

Aluminum

copper

magnesium

Iron (max)

Tin (max)

Zinc

Nickel (max)

Manganese

Silicon

others

RoHS Compliant

Balance

2.0-3.0

0.1

1.3

0.15

3

0.3

0.5

9.5-11.5

0.5 total

 

B390

B390 is an aluminum alloy with high hardness and good wear resistance. This alloy is suitable for many applications including internal combustion engine pistons and cylinder bodies for compressors and brakes. 

 

MECHANICAL PROPERTIES

Material

Alloy

Tensile Strength Mpa

Yield Strength (0.2%)Mpa

Impact Strength

J

Hardness

Brinell (HB)

Elongation

% in 50mm

Process

Aluminum

B390

317

250

-

120

-

Cold Chamber Die Casting

 

CHEMICAL COMPOSITION

Aluminum B390 

Aluminum

copper

magnesium

iron (max)

titanium

zinc

nickel (max)

manganese

silicon

others

RoHS Compliant

Balance

4.0-5.0

0.45-0.65

1.3

0.1

1.5

0.1

0.5

16-18

0.2 total

 

A360

A360 is an aluminum alloy with excellent pressure tightness and fluidity. It has a high silicon content and offers high corrision resistance as well as high strength, even in elevated temperatures. 

 

MECHANICAL PROPERTIES

Material

Alloy

Tensile Strength Mpa

Yield Strength (0.2%)Mpa

Shear Strength

Mpa

Hardness

Brinell (HB)

Elongation

% in 50mm

Process

Aluminum

A360

317

170

180

75

3.5

Cold Chamber Die Casting


CHEMICAL COMPOSITION

Aluminum A360 %

Aluminum

copper

magnesium

iron (max)

Tin (max)

zinc

nickel (max)

manganese

silicon

others

RoHS Compliant

Balance

0.6

0.4-0.6

1.3

0.15

0.5

0.5

0.35

9-10

0.25 total

 

A380Aluminum Die Casting Alloy

A380 is one of the most commonly specified aluminum alloys with a number of significant benefits:

It offers the best combination of casting, mechanical, and thermal properties

It exhibits excellent fluidity, pressure tightness, and resistance to hot cracking

It is used for a wide variety of products including chassis for electronic equipment, engine brackets, gearbox cases, household furniture, power, and hand tools.

 

Advantages of Aluminum Die Casting

Aluminum has the ability to create lighter parts with more surface finishing options than other die cast alloys. Aluminum can also withstand the highest operating temperatures of all the die cast alloys. Moreover, cast aluminum is versatile, corrosion resistant; it retains high dimensional stability with thin walls, and can be used in almost any industry.

 

MECHANICAL PROPERTIES

Material

Alloy

Tensile Strength Mpa

Yield Strength (0.2%)Mpa

Impact Strength

J

Shear Strength

Mpa

Hardness

Brinell (HB)

Elongation

% in 50mm

Process

Aluminum

A380

325

160

4

185

80

3.5

Cold Chamber Die Casting

 

CHEMICAL COMPOSITION

Aluminum A380 %

Aluminum

copper

magnesium

iron (max)

Tin (max)

zinc

nickel (max)

manganese

silicon

others

RoHS Compliant

Balance

3.0-4.0

0.1

1.3

0.35

3

0.5

0.5

7.5-9.5

0.5 total

 

A413

A413 is an aluminum alloy with excellent pressure tightness. This makes it a good choice for hydraulic cylinders. The castability of this aluminum alloy makes it a great choice for die casting intricate components. 


MECHANICAL PROPERTIES

Material

Alloy

Tensile Strength Mpa

Yield Strength (0.2%)Mpa

Impact Strength

J

Shear Strength

Mpa

Hardness

Brinell (HB)

Elongation

% in 50mm

Process

Aluminum

A413

290

130

-

170

80

3.5

Cold Chamber Die Casting

 

CHEMICAL COMPOSITION

Aluminum A413 

Aluminum

copper

magnesium

iron (max)

Tin (max)

zinc

nickel (max)

manganese

silicon

others

RoHS Compliant

Balance

1.0

0.1

1.3

0.15

-

0.5

0.35

11-13

0.25 total

 

K-ALLOY

K-Alloy has many benefits:

Excellent corrosion resistance 

Improved cooling due to better thermal conductivity

Eliminates the need for pre and post operations like anodizing and painting

 

MECHANICAL PROPERTIES

Material

Alloy

Tensile Strength Mpa

Yield Strength (0.2%)Mpa

Impact Strength

J

Shear Strength

Mpa

Hardness

Brinell (HB)

Elongation

% in 50mm

Process

Aluminum

K-Alloy

295

172

-

-

80

5

Cold Chamber Die Casting

 

CHEMICAL COMPOSITION

Aluminum K-Alloy 


Aluminum

copper

magnesium

iron (max)

Tin. (max)

zinc

nickel (max)

manganese

silicon

chromium

Ti.

RoHS Compliant

Balance

0.05

-0.08

0.35-0.5

0.8

-1.0

0.03

0.2

0.03

0.5-0.6

9-11.5

0.05

0.03-0.18

 

DCA1

DCA1 is ideal for components that require high thermal and electrical conductivity such as fiber optic shells and heatsinks. With its high corrosion resistant properties, DCA1 can help to reduce costs on secondary operations. Currently, yellow chromate and clear passivation can be produced with DCA1 without needing any secondary coatings, saving both time and money for our customers. 

 

MECHANICAL PROPERTIES

Material

Alloy

Tensile Strength Mpa

Yield Strength (0.2%)Mpa

Impact Strength

J

Shear Strength

Mpa

Hardness

Brinell (HB)

Elongation

% in 50mm

Process

Aluminum

DCA1

140

69

30

-

48

3.1

Cold Chamber Die Casting

 

CHEMICAL COMPOSITION

Aluminum

copper

magnesium

iron (max)

zinc

manganese

silicon

RoHS Compliant

Balance

-

-

0.5-1.0

-

-

12-14

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