OEM 6151 Forging Aluminum Parts For Airplane Engine Box/Auto Parts/Metal Forging Part/Aluminum Forging Part
Company Profile
On May 10, 2011, Shanghai Jima Industrial Co., Ltd was established.
JIMA Aluminum mainly forging, and specialized in producing big forging parts, aluminum precision, aluminum extrusions, metal forging processing, heat treatment, etc., has formed a complete production process from raw materials to the finished product aluminum accessories chain.
Material is the life of forging. The quality of forgings has always been inseparable from the quality of materials.
Jima Aluminum relies on its technical advantages, starting from making materials, and making its own high-quality aluminum alloy forgings. From the beginning of material smelting, material composition, microstructure, performance, material deformation process, forging streamline, forging heat treatment, metallographic structure, forging surface and appearance, forging thermal stability, etc., to fully control the quality of forgings.
Has rich experience in the production and processing of high-strength and wear-resistant aluminum alloy materials and alloy steel products.
Advantage: JIMA Aluminum always holds on to some available hard aluminum alloy materials stock such as 2A12 2A14 2014 2024 2214 2218 2219 2618 2017 5083 6061 6082 7049 7075 7050 7475 7175 7A04.
There are about 175 employees and a total area of 40,000 square meters.
Has rich experience in the production and processing of high-strength and wear-resistant aluminum alloy materials and alloy steel products.
Our Advantages
1. 3 technical patents and 2 practical patents related to high-silicon aluminum alloy melting, crystallization, and forging
2. Multiple professional presses adapted to the deformation speed of high-silicon aluminum alloys
3. Two intermediate frequency heating furnaces suitable for heating weak magnetic materials such as high-silicon aluminum alloys
4. Perfect forging process of various pistons and swash plates, mold tooling technology, materials, and product inspection standards.
5. Our strong technical backing is our close cooperative relationship between the company and the university's scientific research.
6. We are high-tech enterprises
7. Development capability: aluminum alloy, titanium alloy, super alloy, non-ferrous metal forging development
Product Details
| Material |
Aluminum Alloy 6151 |
| Process |
Forging+CNC+Heat Treatment |
| Surface Treatment |
Transparent, Color Anodized, Hard Anodizing, Powder Coating;
Sandblasting, Laser Carving, Silk Screening;
Nickel-Plated, Chrome, Galvanized, Silver/Gold Plating;
Black Oxide Coating, Polishing; etc... |
| Manufacture Ability |
Depends on The Complexity Of Different Products And Quantities |
| Experience |
Aluminum Machining Service for 12 Years |
| Packaging |
Standard Export Wooden Pallets
Another Request According to Your Needs |
| MOQ |
1pcs |
| Sample |
Can Be Customized |
| Mold |
Can Be Customized |
| Lead Time |
Mold for 15-20 Days
Process for 15-20 Days
|
| OEM |
Can Be Customized |
| Chemical Composition of 6151 |
| Alloy |
Si |
Fe |
Cu |
Mn |
Mg |
Cr |
Zn |
Ti |
Others |
Al |
| Each |
Total |
| 6151 |
0.5-1.2 |
0.10max |
0.35max |
0.20max |
0.45-0.80 |
0.15-0.35 |
0.25max |
0.15max |
0.05max |
0.15max |
Rest |
Technical Specifications of 6151-T6
| Physical Properties |
Original Value |
Comments |
| Density |
2.71 g/cc |
AA; Typical |
| |
| Mechanical Properties |
Original Value |
Comments |
| Hardness, Brinell |
100 |
500 kg load with 10 mm ball |
| Hardness, Knoop |
126 |
Converted from Brinell Hardness Number |
| Hardness, Rockwell A |
41.3 |
Converted from Brinell Hardness Value |
| Hardness, Rockwell B |
63 |
Converted from Brinell Hardness Value |
| Hardness, Vickers |
112 |
Converted from Brinell Hardness Value |
| Tensile Strength, Ultimate |
290 MPa |
Rolled rings; Radial; T6 and T652 |
| |
303 MPa |
Die forgings; Axis parallel to grain flow |
| |
303 MPa |
Die forgings; Axis not parallel to grain flow |
| |
303 MPa |
Rolled rings; Tangential; T6 and T652 |
| |
303 MPa |
Rolled rings; Axial; T6 and T652 |
| |
330 MPa |
|
| |
28.0 MPa
@Temperature 371 °C |
|
| |
34.0 MPa
@Temperature 316 °C |
|
| |
45.0 MPa
@Temperature 260 °C |
|
| |
95.0 MPa
@Temperature 204 °C |
|
| |
195 MPa
@Temperature 149 °C |
|
| |
295 MPa
@Temperature 100 °C |
|
| |
330 MPa
@Temperature 24.0 °C |
|
| |
340 MPa
@Temperature -28.0 °C |
|
| |
345 MPa
@Temperature -80.0 °C |
|
| |
395 MPa
@Temperature -196 °C |
|
| Tensile Strength, Yield |
241 MPa |
Rolled rings; Axial; T6 and T652 |
| |
241 MPa |
Rolled rings; Radial; T6 and T652 |
| |
255 MPa |
Die forgings; Axis parallel to grain flow |
| |
255 MPa |
Die forgings; Axis not parallel to grain flow |
| |
255 MPa |
Rolled rings; Tangential; T6 and T652 |
| |
295 MPa |
|
| |
22.0 MPa
@Strain 0.200 %,
Temperature 371 °C |
|
| |
27.0 MPa
@Strain 0.200 %,
Temperature 316 °C |
|
| |
34.0 MPa
@Strain 0.200 %,
Temperature 260 °C |
|
| |
85.0 MPa
@Strain 0.200 %,
Temperature 204 °C |
|
| |
185 MPa
@Strain 0.200 %,
Temperature 149 °C |
|
| |
275 MPa
@Strain 0.200 %,
Temperature 100 °C |
|
| |
298 MPa
@Strain 0.200 %,
Temperature 24.0 °C |
|
| |
310 MPa
@Strain 0.200 %,
Temperature -28.0 °C |
|
| |
315 MPa
@Strain 0.200 %,
Temperature -80.0 °C |
|
| |
345 MPa
@Strain 0.200 %,
Temperature -196 °C |
|
| Elongation at Break |
2.0 % |
Rolled rings; Radial; T6 and T652 |
| |
4.0 % |
Rolled rings; Axial; T6 and T652 |
| |
5.0 % |
Rolled rings; Tangential; T6 and T652 |
| |
6.0 % |
Die forgings; Axis not parallel to grain flow |
| |
10 % |
Die forgings; Axis parallel to grain flow |
| |
17 %
@Temperature -80.0 °C |
|
| |
17 %
@Temperature -28.0 °C |
|
| |
17 %
@Temperature 24.0 °C |
|
| |
17 %
@Temperature 100 °C |
|
| |
20 %
@Temperature -196 °C |
|
| |
20 %
@Temperature 149 °C |
|
| |
30 %
@Temperature 204 °C |
|
| |
35 %
@Temperature 371 °C |
|
| |
43 %
@Temperature 316 °C |
|
| |
50 %
@Temperature 260 °C |
|
| |
17 %
@Thickness 1.60 mm |
In 5 cm |
| Modulus of Elasticity |
69.0 GPa |
Average of Tension and Compression. In Al alloys, the compressive modulus is typically 2% greater than the tensile modulus. Estimated from trends in similar Al alloys. |
| Poissons Ratio |
0.33 |
Estimated from trends in similar Al alloys. |
| Fatigue Strength |
85.0 MPa
@# of Cycles 5.00e+8 |
|
| Shear Modulus |
26.0 GPa |
Estimated from similar Al alloys. |
| Shear Strength |
220 MPa |
|
| |
| Electrical Properties |
Original Value |
Comments |
| Electrical Resistivity |
23.0 ohm-cir-mil/ft
@Temperature 20.0 °C |
AA; Typical |
| |
| Thermal Properties |
Original Value |
Comments |
| CTE, linear |
12.9 µin/in-°F
@Temperature 20.0 - 100 °C |
AA; Typical; average over range |
| |
21.8 µm/m-°C
@Temperature -50.0 - 20.0 °C |
|
| |
23.0 µm/m-°C
@Temperature 20.0 - 100 °C |
|
| |
24.1 µm/m-°C
@Temperature 20.0 - 200 °C |
|
| |
25.0 µm/m-°C
@Temperature 20.0 - 300 °C |
|
| Specific Heat Capacity |
0.895 J/g-°C |
|
| Thermal Conductivity |
1190 BTU-in/hr-ft²-°F |
AA; Typical at 77°F |
| Melting Point |
1090 - 1200 °F |
AA; Typical range based on typical composition for wrought products >= 1/4 in. thickness. Eutectic melting can be eliminated by homogenization. |
| Solidus |
1090 °F |
AA; Typical |
| Liquidus |
1200 °F |
AA; Typical |
| |
| Processing Properties |
Original Value |
Comments |
| Annealing Temperature |
775 °F |
hold at temperature 2 to 3 hr; furnace cool to 500°F at 50°F per hour max |
| Solution Temperature |
950 - 975 °F |
hold at temperature for 4 min, and quench in cold water; for heavy or complicated forgings, quench in water at 150 to 212°F |
| Aging Temperature |
300 - 345 °F |
hold at temperature 8 to 12 hr |
| Hot-Working Temperature |
500 - 900 °F |
|
Key Words
aluminum forged tube 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
aluminum forging parts 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
aluminum forged Rings 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
auto aluminum parts 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
forged aluminum alloy 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
hot aluminum forgings 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
cold forging car parts 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
forging machinery components 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
forging metal parts 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
forging spare parts 6151/A96005 6B02(LD2) A6165 AB1340 AlSiMgCu/3.3214
Product Show
Workshop Display
Equipment Capacity
Presses of 4000T, 3150T, 2000T, 1600T, 800T, 600T, 550T, and 300T
5T, 2T, 750KG, three free forging hammers
4 axial diameters with diameters of 8M, 5M, and 2M
500 tons three-way forging press
450T double action press
400T friction press (4 sets)
630T hot forging friction press
4 heat treatment furnaces
Mesh belt heating furnace 6 sets
2 intermediate frequency furnaces
Machining CNC equipment 8 sets
Quality Inspection
Metal material universal testing machine
A complete set of equipment for material composition testing
High-power metallographic microscope (1400 times)
Low-power metallographic microscope (40 times)
3D, 2D Projection Mapper (CAM)
Brinell, Weber hardness tester
Test piece polishing machine
Analytical Balances
marking machine
Phosphor powder flaw detector
Our company has passed the quality attestation of ISO2001-9000 and has established a comprehensive ISO quality control system. Now the TS16949 management system is in process.
The quality control facilities (equipment, instruments, and talents) are available, including 3 ways measures, metallographic examination, intensity testing, material composition testing, measure inspection, etc. The academic research base has been founded in cooperation with universities and the practical training station has been set up for graduate students.
Production Procedure
After Sales
Package&Shipment
FAQ
Q1:Where can I get product&price information?
A1:Send us an inquiry e-mail, we will contact you as we receive your mail.
We will offer you the quotation within 24 working hours after receiving your detailed information. To quote you faster and more accurately,
please provide us with the following information together with your inquiry:
1) CAD or 3D Drawings
3) Material requirement
4) Surface treatment
5) Quantity (per order/month/annual)
6) Any special demands or requirements, such as packing, labels, delivery, etc.
Q2:How long can I get the sample?
A2:Depends on your specific items, within 3-7 days is required generally.
Q3: How long is the lead time for mold and machining parts?
A3: It all depends on the mold (parts) size and complexity.
Normally, the lead time is 18-20 days for molds. If the molds are very simple and not big, we can work them out within 15 days.
The lead time for machining parts is around 2-4 weeks.
For sheet metal fabrication the lead time is around 3-5 weeks.
Q4:Can we sign NDA?
A4: Sure. We never divulge customers' information to anyone else. we will keep your drawing well and not release it to others without your permission.
Q5: Is it possible to know how are my products going on without visiting your factory?
A5: We will offer a detailed production schedule and send weekly reports with digital pictures and videos which show the machining or the plastic injection progress.
