Model NO.: asqt 1001
Form: Oval
Legnth: up to 5000 mm
Width or Diameter: up to 150 mm
Height or Diameter: up to 150 mm
Wall Thickness: up to 10 mm
Aluminum Temper: F,H112,T3-T6,etc.
Surface Finish: Original, Painting,Powder Coating, Zinc Plating
Packing Way: Best Suitable Packing Way
Application: Heat Exchanger and Industrial Fields
Transport Package: Best Suitable Packing Way
Origin: Jiangsu, China
HS Code: 7608100000
Model NO.: asqt 1001
Form: Oval
Legnth: up to 5000 mm
Width or Diameter: up to 150 mm
Height or Diameter: up to 150 mm
Wall Thickness: up to 10 mm
Aluminum Temper: F,H112,T3-T6,etc.
Surface Finish: Original, Painting,Powder Coating, Zinc Plating
Packing Way: Best Suitable Packing Way
Application: Heat Exchanger and Industrial Fields
Transport Package: Best Suitable Packing Way
Origin: Jiangsu, China
HS Code: 7608100000
1. Aluminum alloy number
No. Aluminum Alloy Number
1.1 1100,1060,1070,2024,3003,5A02,6061,6063,etc.
2. Product size and tolerance
No. Specification Size Tolerance
2.1 Length (mm) Up to 5000 ±1
2.2 Width (mm) Up to 150 ±0.08
2.3 Height (mm) Up to 150 ±0.08
2.4 Thickness (mm) Up to 10  ±0.02
3. Chemical composition for some typical alloys
No. Internal
Alloy Number
AA number Chemical Composition (%)
Si Fe Cu Mn Mg Zn Ti Zr Bi Others Al
Each Total
3.1 1060 1060 0.25 0.35 0.05 0.03 0.03 0.05 0.03     0.03   99.6
3.2 1070 1070 0.2 0.25 0.04 0.03 0.03 0.04 0.03     0.03   99.7
3.3 1100 1100 0.95 0.05-0.2 0.05     0.1     0.05 0.15 RE
3.4 3003 3003 0.6 0.7 0.05-0.2 1-1.5 0.05 0.1       0.05 0.15 RE
3.5 3005 3005 0.6 0.7 0.3 1.0-1.5 0.2-0.6 0.25   Cr 0.1   0.05 0.15 RE
3.6 4004 4004 9.0-10.5 0.8 0.25 0.1 1.0-2.0 0.2       0.05 0.15 RE
3.7 4045 4045 9.0-11.0 0.8 0.3 0.05 0.05 0.1       0.05 0.15 RE
3.8 4047 4047 11.0-13.0 0.8 0.3 0.15 0.05 0.2       0.05 0.15 RE
3.9 4104 4104 9.0-10.5 0.8 0.25 0.1 1.0-2.0 0.2     0.05-0.2 0.05 0.15 RE
3.10 4343 4343 6.8-8.2 0.8 0.25 0.1 0.05 0.2       0.05 0.15 RE
3.11 4343A 4343A 6.8-8.2 0.6 0.1 0.1 0.02 0.1       0.05 0.15 RE
3.12 6060 6060 0.3-0.6 0.1-0.3 0.1 0.1 0.35-0.6 0.15 0.1 Cr 0.05   0.05 0.15 RE
3.13 6061 6061 0.4-0.8 0.7 0.15-0.4 0.15 0.8-1.2 0.25 0.15 Cr 0.04-0.35   0.05 0.5 RE
3.14 6063 6063 0.2-0.6 0.35 0.1 0.1 0.45-0.9 0.1 0.1 Cr 0.1   0.05 0.15 RE
3.15 6A02 6A02 0.5-1.2 0.5 0.2-0.6 0.1-0.35 0.45-0.9 0.2 0.15     0.05 0.15 RE
3.16 7072 7072 0.7 0.1 0.1 0.1 0.1 0.8-1.3       0.05 0.15 RE
4. Mechanical properties for some typical alloys
No. Alloy number Thick.
(mm)
Temper Yield Strength
Rp0.2(Mpa).
Min
Tensile Strength
Rm (Mpa)
Elongation
(%)
A50,Min
4.1 3003 0.08-0.15 O 35 95-135 8
4.2 3003 0.16-0.35 O 35 95-135 10
4.3 3003 0.15-0.3 H12 90 120-175 0.5
4.4 3003 0.06-0.08 H14 125 145-185 0.5
4.5 3003 0.081-0.3 H14 125 145-200 0.5
4.6 3003 0.06-0.16 H16 160 165-205 0.5
4.7 3003 0.2-0.3 H24 125 145-205 6
4.8 3003-1 0.35-3.0 O 35 95-135 20
4.9 3003-1 0.40-3.0 H14 125 145-185 3
4.10 3003-1 1.0-3.0 H24 125 145-185 10
4.11 6A02 0.8-4.5 O ≤85 ≤150 20
4.12 6060 0.8-4.5 O ≤85 ≤150 20
4.13 6063 0.8-4.5 O ≤85 ≤150 20
4.14 4343 0.07-3.0 O 35 95-150 8
4.15 4343 0.07-3.0 H14 120 140-200 0.5
4.16 4045 0.07-3.0 O 35 95-150 8
4.17 4045 0.07-3.0 H14 120 140-200 0.5
4.18 4104 0.07-3.0 O 35 95-150 8
4.19 4104 0.07-3.0 H14 120 140-200 0.5
4.20 4A13 0.07-3.0 O 35 95-150 8
4.21 4A13 0.07-3.0 H14 120 140-200 0.5
4.22 4047 0.07-3.0 O 35 95-150 8
4.23 4047 0.07-3.0 H14 120 140-200 0.5
4.24 3003 0.25-0.35 H24 130 155-205 6
4.25 3003 0.1-0.2 H14 125 145-185 1
4.26 3003 0.1-0.3 O 35 95-135 10
4.27 3003 0.3-0.8 H14 125 145-185 2
4.28 3003 0.8-2.5 H14 125 145-185 4
4.29 3003 0.5-1.6 O 35 145-185 20
4.30 3003-1 0.3-1.8 O 35 95-135 20
4.31 3003-1 0.5-4.0 O 35 95-135 25
4.32 3005 Mod 0.25-0.6 H24 150 185-235 8
4.33 6060 0.8-4.5 O ≤85 ≤150 20
4.34 6063 0.8-4.5 O ≤85 ≤150 20
4.35 3005 0.8-4.5 O 40 80-120 20
4.36 3005 0.6-4.5 H22 110 145-195 15
4.37 1100 0.2-0.3 H24 90 115-155 3
4.38 6A02 1.0-5.0 O ≤85 ≤150 20
5. Surface finish and other properties
No. Item Description
5.1 Surface finish Original, painting,powder coating, zinc plating, etc.
6. Packing,Shipping and others
No. Item Description
6.1 Packing To be packed in wooden boxes 
6.2 Marking Each box to be legibly marked with the name of the manufacturer or supplier, the alloy designation of material,condition,dimensions and weight
6.3 Shipping tools Ship goods by van to departune port then by sea to desitination port
6.4 Quantity variation ±10% variation with order quantity shall be acceptable

7. Brief of extrusion

Extrusion is a process used to create objects of a fixed cross-sectional profile. A material is pushed through a die of the desired cross-section. The two main advantages of this process over other manufacturing processes are its ability to create very complex cross-sections, and to work materials that are brittle, because the material only encounters compressive and shear stresses. It also forms parts with an excellent surface finish.[1]
 
Drawing is a similar process, which uses the tensile strength of the material to pull it through the die. This limits the amount of change which can be performed in one step, so it is limited to simpler shapes, and multiple stages are usually needed. Drawing is the main way to produce wire. Metal bar and tube are also often drawn.
 
Extrusion may be continuous (theoretically producing indefinitely long material) or semi-continuous (producing many pieces). The extrusion process can be done with the material hot or cold. Commonly extruded materials include metals, polymers, ceramics, concrete, play dough, and foodstuffs. The products of extrusion are generally called "extrudates".
 
Hollow cavities within extruded material cannot be produced using a simple flat extrusion die, because there would be no way to support the center barrier of the die. Instead, the die assumes the shape of a block with depth, beginning first with a shape profile that supports the center section. The die shape then internally changes along its length into the final shape, with the suspended center pieces supported from the back of the die. The material flows around the supports and fuses together to create the desired closed shape.
 
The extrusion process in metals may also increase the strength of the material.
 
Process
 
The process begins by heating the stock material (for hot or warm extrusion). It is then loaded into the container in the press. A dummy block is placed behind it where the ram then presses on the material to push it out of the die. Afterward the extrusion is stretched in order to straighten it. If better properties are required then it may be heat treated or cold worked.[2]
 
The extrusion ratio is defined as the starting cross-sectional area divided by the cross-sectional area of the final extrusion. One of the main advantages of the extrusion process is that this ratio can be very large while still producing quality parts.
1. Aluminum alloy number
No. Aluminum Alloy Number
1.1 1100,1060,1070,2024,3003,5A02,6061,6063,etc.
2. Product size and tolerance
No. Specification Size Tolerance
2.1 Length (mm) Up to 5000 ±1
2.2 Width (mm) Up to 150 ±0.08
2.3 Height (mm) Up to 150 ±0.08
2.4 Thickness (mm) Up to 10  ±0.02
3. Chemical composition for some typical alloys
No. Internal
Alloy Number
AA number Chemical Composition (%)
Si Fe Cu Mn Mg Zn Ti Zr Bi Others Al
Each Total
3.1 1060 1060 0.25 0.35 0.05 0.03 0.03 0.05 0.03     0.03   99.6
3.2 1070 1070 0.2 0.25 0.04 0.03 0.03 0.04 0.03     0.03   99.7
3.3 1100 1100 0.95 0.05-0.2 0.05     0.1     0.05 0.15 RE
3.4 3003 3003 0.6 0.7 0.05-0.2 1-1.5 0.05 0.1       0.05 0.15 RE
3.5 3005 3005 0.6 0.7 0.3 1.0-1.5 0.2-0.6 0.25   Cr 0.1   0.05 0.15 RE
3.6 4004 4004 9.0-10.5 0.8 0.25 0.1 1.0-2.0 0.2       0.05 0.15 RE
3.7 4045 4045 9.0-11.0 0.8 0.3 0.05 0.05 0.1       0.05 0.15 RE
3.8 4047 4047 11.0-13.0 0.8 0.3 0.15 0.05 0.2       0.05 0.15 RE
3.9 4104 4104 9.0-10.5 0.8 0.25 0.1 1.0-2.0 0.2     0.05-0.2 0.05 0.15 RE
3.10 4343 4343 6.8-8.2 0.8 0.25 0.1 0.05 0.2       0.05 0.15 RE
3.11 4343A 4343A 6.8-8.2 0.6 0.1 0.1 0.02 0.1       0.05 0.15 RE
3.12 6060 6060 0.3-0.6 0.1-0.3 0.1 0.1 0.35-0.6 0.15 0.1 Cr 0.05   0.05 0.15 RE
3.13 6061 6061 0.4-0.8 0.7 0.15-0.4 0.15 0.8-1.2 0.25 0.15 Cr 0.04-0.35   0.05 0.5 RE
3.14 6063 6063 0.2-0.6 0.35 0.1 0.1 0.45-0.9 0.1 0.1 Cr 0.1   0.05 0.15 RE
3.15 6A02 6A02 0.5-1.2 0.5 0.2-0.6 0.1-0.35 0.45-0.9 0.2 0.15     0.05 0.15 RE
3.16 7072 7072 0.7 0.1 0.1 0.1 0.1 0.8-1.3       0.05 0.15 RE
4. Mechanical properties for some typical alloys
No. Alloy number Thick.
(mm)
Temper Yield Strength
Rp0.2(Mpa).
Min
Tensile Strength
Rm (Mpa)
Elongation
(%)
A50,Min
4.1 3003 0.08-0.15 O 35 95-135 8
4.2 3003 0.16-0.35 O 35 95-135 10
4.3 3003 0.15-0.3 H12 90 120-175 0.5
4.4 3003 0.06-0.08 H14 125 145-185 0.5
4.5 3003 0.081-0.3 H14 125 145-200 0.5
4.6 3003 0.06-0.16 H16 160 165-205 0.5
4.7 3003 0.2-0.3 H24 125 145-205 6
4.8 3003-1 0.35-3.0 O 35 95-135 20
4.9 3003-1 0.40-3.0 H14 125 145-185 3
4.10 3003-1 1.0-3.0 H24 125 145-185 10
4.11 6A02 0.8-4.5 O ≤85 ≤150 20
4.12 6060 0.8-4.5 O ≤85 ≤150 20
4.13 6063 0.8-4.5 O ≤85 ≤150 20
4.14 4343 0.07-3.0 O 35 95-150 8
4.15 4343 0.07-3.0 H14 120 140-200 0.5
4.16 4045 0.07-3.0 O 35 95-150 8
4.17 4045 0.07-3.0 H14 120 140-200 0.5
4.18 4104 0.07-3.0 O 35 95-150 8
4.19 4104 0.07-3.0 H14 120 140-200 0.5
4.20 4A13 0.07-3.0 O 35 95-150 8
4.21 4A13 0.07-3.0 H14 120 140-200 0.5
4.22 4047 0.07-3.0 O 35 95-150 8
4.23 4047 0.07-3.0 H14 120 140-200 0.5
4.24 3003 0.25-0.35 H24 130 155-205 6
4.25 3003 0.1-0.2 H14 125 145-185 1
4.26 3003 0.1-0.3 O 35 95-135 10
4.27 3003 0.3-0.8 H14 125 145-185 2
4.28 3003 0.8-2.5 H14 125 145-185 4
4.29 3003 0.5-1.6 O 35 145-185 20
4.30 3003-1 0.3-1.8 O 35 95-135 20
4.31 3003-1 0.5-4.0 O 35 95-135 25
4.32 3005 Mod 0.25-0.6 H24 150 185-235 8
4.33 6060 0.8-4.5 O ≤85 ≤150 20
4.34 6063 0.8-4.5 O ≤85 ≤150 20
4.35 3005 0.8-4.5 O 40 80-120 20
4.36 3005 0.6-4.5 H22 110 145-195 15
4.37 1100 0.2-0.3 H24 90 115-155 3
4.38 6A02 1.0-5.0 O ≤85 ≤150 20
5. Surface finish and other properties
No. Item Description
5.1 Surface finish Original, painting,powder coating, zinc plating, etc.
6. Packing,Shipping and others
No. Item Description
6.1 Packing To be packed in wooden boxes 
6.2 Marking Each box to be legibly marked with the name of the manufacturer or supplier, the alloy designation of material,condition,dimensions and weight
6.3 Shipping tools Ship goods by van to departune port then by sea to desitination port
6.4 Quantity variation ±10% variation with order quantity shall be acceptable

7. Brief of extrusion

Extrusion is a process used to create objects of a fixed cross-sectional profile. A material is pushed through a die of the desired cross-section. The two main advantages of this process over other manufacturing processes are its ability to create very complex cross-sections, and to work materials that are brittle, because the material only encounters compressive and shear stresses. It also forms parts with an excellent surface finish.[1]
 
Drawing is a similar process, which uses the tensile strength of the material to pull it through the die. This limits the amount of change which can be performed in one step, so it is limited to simpler shapes, and multiple stages are usually needed. Drawing is the main way to produce wire. Metal bar and tube are also often drawn.
 
Extrusion may be continuous (theoretically producing indefinitely long material) or semi-continuous (producing many pieces). The extrusion process can be done with the material hot or cold. Commonly extruded materials include metals, polymers, ceramics, concrete, play dough, and foodstuffs. The products of extrusion are generally called "extrudates".
 
Hollow cavities within extruded material cannot be produced using a simple flat extrusion die, because there would be no way to support the center barrier of the die. Instead, the die assumes the shape of a block with depth, beginning first with a shape profile that supports the center section. The die shape then internally changes along its length into the final shape, with the suspended center pieces supported from the back of the die. The material flows around the supports and fuses together to create the desired closed shape.
 
The extrusion process in metals may also increase the strength of the material.
 
Process
 
The process begins by heating the stock material (for hot or warm extrusion). It is then loaded into the container in the press. A dummy block is placed behind it where the ram then presses on the material to push it out of the die. Afterward the extrusion is stretched in order to straighten it. If better properties are required then it may be heat treated or cold worked.[2]
 
The extrusion ratio is defined as the starting cross-sectional area divided by the cross-sectional area of the final extrusion. One of the main advantages of the extrusion process is that this ratio can be very large while still producing quality parts.