Popular Forging Alloys & Applications
- 6061: Excellent weld-ability & corrosion resistance (auto parts, bike frames)
- 6063 aluminum alloy:good surface finish, accurate forged tube dimensions.
- 6082 aluminum alloy:excellent strength, easy processing and forging, corrosion resistance.
- 7075: Aerospace-grade strength (missile casings, aircraft landing gear)
- 2024/7050: High fatigue resistance (spacecraft flanges, defense systems)
- 2618: Heat-resistant (engine pistons, armored vehicles)
Key Forged Products
▸ Rings | Bars | Shafts | Hubs
▸ Aerospace discs | Automotive knuckles | Defense components
Industry-Specific Solutions
Aerospace: 7075/2024 alloys for bulkheads & rocket adapters
Automotive: 6061/6082 forgings for suspension & transmission parts
Defense: 7050/5083 for weapon systems & launch tubes
| Specification for 7075 aluminum forgings | |||
|---|---|---|---|
| FORGING | TYPE | MAX. WEIGHT | MAX. DIMENSION |
| Open Die Forging | Cube | ≤9T | Length≤7000mm, |
| Width≤2000mm, | |||
| Height≤500mm | |||
| Disk | ≤5T | Diameter≤2500mm | |
| Ring | ≤5T | Outer diameter of quenching parts≤2500mm, | |
| Outer diameter of non-quenching parts≤4000mm, | |||
| Height≤500mm | |||
| Cylinder | ≤5T | Outer diameter 200-800mm,Length≤2000mm; | |
| Outer diameter 801-2000mm, | |||
| Length≤1500mm; | |||
| Axle | ≤8T | Length≤7000mm, | |
| Diameter≤800mm | |||
| Backward Extrusion | Forged Pipe | Outer diameter≤830mm, | |
| Inner diameter≤650mm, | |||
| Length≤1800mm | |||
| Closed Die Forging | Common Closed Die Forgings | - | PVA≤3.0 ㎡(Diameter≤1950mm) |
| Complex Closed Die Forgings | - | PVA≤1.5 ㎡(Diameter≤1400mm) | |
| Chemical composition of 7075 aluminum forgings | |
|---|---|
| العنصر | Composition (wt.%) |
| Aluminum | 90.0-91.4 |
| Zinc | 5.1-6.1 |
| Magnesium | 2.1-2.9 |
| Copper | 1.2-2.0 |
| Silicon | 0.40 max |
| Iron | 0.50 max |
| Manganese | 0.30 max |
| Titanium | 0.20 max |
| Chromium | 0.18-0.28 |
| Other | 0.15 max |
| Popular Forging Alloys & Key Applications | ||
|---|---|---|
| Aluminum Alloys Selection Guide | ||
| Alloy Series | Key Properties | Primary Applications |
| 6061 | Excellent weldability, corrosion resistance | Auto parts, bike frames, transmission components |
| 6063 | Superior surface finish, dimensional accuracy | Architectural forgings, precision tubing |
| 6082 | High strength, forgeability, corrosion resistant | Automotive suspension, structural components |
| 7075 | Aerospace-grade strength (highest Al alloy) | Missile casings, aircraft landing gear |
| 2024/7050 | Fatigue resistance, high toughness | Spacecraft flanges, defense systems |
| 2618 | Heat-resistant (up to 300 degree) | Engine pistons, armored vehicle components |
Why Choose Forging Over Casting?
✔ Strength: Grain flow alignment enhances structural integrity
✔ Precision: Tighter tolerances (±0.1mm achievable)
✔ Reliability: No porosity/alloy segregation defects
✔ Durability: 20-30% higher fatigue resistance vs. casting
Custom Forging Processes
- Hot/Cold Forging • Drop Forging • Precision Ring Rolling
- Open/Closed Die Solutions
Application:
Particularly in the aerospace, defense, automotive and recreational motor-sports sectors.
Industry-Specific Solutions
- Aerospace
Alloys: 7075, 2024, 7050
-Components: Rocket adapters, bulkheads, landing gear, missile casings
- Automotive
Alloys: 6061, 6082, 2618
Components: Suspension parts, steering knuckles, pistons, wheels
- Defense
Alloys: 5083, 7039, 7075
Components: Armored vehicle parts, launch tubes, weapon systems
- Consumer Goods
Alloys: 6061, 6063
Applications: Bicycle frames, cookware, sports equipment
Alloy Series Deep Dive
2000 Series (Cu Alloys): Defense/aerospace flanges (e.g., 2024)
5000 Series (Mg Alloys): Marine/armor plating (e.g., 5083)
7000 Series (Zn Alloys): Ultra-high strength (e.g., 7075 for missiles)
Series differences and applications:
- 1000 series aerospace aluminum forgings according to BS 5 L34, BS 2 L87, EN 573-3, AMS 4120, ASTM B247, QQ-A-367, etc. standards. 1xxx aluminum alloy mainly includes forged bars, forged rings, wheel rims and other forged products, which are used in aircraft structural parts, engine parts, hydraulic systems and other parts.
- 2000 series aluminum forgings
2000 series aluminum alloys are used in many industries, including aerospace, national defense and power generation. The following are some typical 2 series alloy models for aluminum forgings. - 4000 series aluminum forgings
4000 series aluminum alloy forgings are mainly used to manufacture materials for pistons and cylinders of steam engines, as well as complex forgings that work below 200 ℃ and bear heavy loads. - 5000 series aluminum forgings
5000 series aluminum alloys are used in many industries, including various national defense departments. The following are some typical 5 series alloy models for aluminum forgings. - 6000 series aluminum forgings
6000 series aluminum alloys are used in many industries, including oil and gas, petrochemical and marine sectors. The following are some typical 6 series alloy models for aluminum forgings - 7000 series aluminum forgings
7000 series aluminum alloys are used in many industries, including aerospace, national defense and racing. The following are some typical 7 series alloy models for aluminum forgings.
Production Workflow
- Billet Heating → 2. Die Forging → 3. Trimming → 4. Heat Treatment → 5. Precision Machining
What are the production processes of Aluminum forgings?
Aluminum forging offers a range of expertise types that can be adjusted to produce custom products based on your unique requirements. The overall classification of aluminum forging expertise can be divided into five main categories:
Cold Forging: Aluminum cold forging shapes the material at room temperature and gives it improved strength and precision.
Hot Forging: This methodology of hot forging aluminum is highly specialized since it demands increased temperatures to fasten the fluidity process to create complex structural designs.
Drop Forging:Drop aluminum forging utilizes the force of gravity or mechanisms to create exact parts of increased strength and complexity.
Rolled Ring Forging:Aluminum-molding rolled rings create the rings from one piece of stock by rolling and forming it. This option allows for transmitting more precise directions and p-stage processing.
Open Die Forging:Aluminum open dies form any geometric shape of aluminum material in the forge. The process uses two flat dies, and heel-to-toe dies are the most common.
Closed Die Forging:Aluminum closed dies shape the material and their connection in a more precise fashion using preset producers. It allows for the creation of any form on aluminum materials.
Understanding the Differences Between Forging and Casting
In forging, deformation of the material in solid form, often by hammering or pressing the material, creates the desired shape.In casting, metal is melted and poured or forced into a mold made in the shape of the desired item.
Production flexibility:The open die forging process accommodates a wide range of production batches and enables short delivery times.
Strength:Whether it is open die forging or closed die forging, the forging process is superior to casting in predictable strength characteristics, ensuring high strength of the parts.
Prevention of defects:The grain flow direction produced by forging pre-processing is consistent with the direction of maximum strength, which improves defects such as dendritic structure and alloy segregation.
Production reliability:The forging process is easier to control, ensuring product consistency and reliability.
