Aluminum
Aluminum die-cast components combine high strength-to-weight ratios with thermal stability, offering corrosion resistance, precision tolerances, and efficient heat dissipation for high-performance applications.
Why Choose Aluminum?
Aluminum die casting delivers precision-engineered components with exceptional strength-to-weight ratios, offering superior corrosion resistance and thermal conductivity. Its compatibility with intricate designs and cost-effective high-volume production makes it the premier choice for automotive, aerospace, and consumer electronics applications.
- 20+ pieces of machinery and equipment
- Ranging from 80 tons to 580 tons
- Cost-Effective Mass Production
- Superior Corrosion Resistance
- Exceptional Strength-to-Weight Ratio
- High-Precision Dimensional Stability
- Excellent Thermal Conductivity
- Complex Thin-Wall Capability
- Smooth Surface Finish
- Recyclable Sustainable Material
- Heat-Resistant Performance
- Low-Porosity Structural Integrity
- EMI/RFI Shielding Properties
- Rapid Production Cycle Times
- Design Flexibility Freedom
- Reduced Secondary Machining
- Environmentally Friendly Process
Aluminum Die Casting Technologies
Aluminum die casting is compatible with a variety of different casting technologies.
- Multi-Slide Die Casting
- Hot Chamber Die Casting
- Cold Chamber Die Casting
- Overmolding
Aluminum
Alloys
Our aluminum alloy materials strictly comply with international environmental certifications including:
ROHS Compliance
REACH Certification
ISO 14001 Environmental Management System
- ADC12
- A380
- A383
- A413
- A360
- ADC10
- ADC3
- ADC6
- K-Alloy
- B390
- EN AC-46000
- EN AC-44300
- EN AC-47100
- 43500
- AlSi9Cu3
- AlSi12Cu1
- AlSi12
- AlSi10MnMg
Unlock Potential
With the Right Metal
Discover our comprehensive selection of high-quality metals to suit your project needs and ensure optimal performance.
Aluminum Alloy
Electric vehicle components and Heat sink manufacturing
Zinc Alloy
Decorative hardware and Wear-resistant gears
High-Performance Alloys
Alloy Properties and Applications
A383 (ADC12)
Advantage: High fluidity, excellent corrosion resistance, and cost-effective for thin-walled parts.
Application: Widely used in automotive components (engine blocks) and electronics housings.
A380 (ADC10)
Advantage: Superior dimensional stability and thermal conductivity.
Application: Ideal for complex automotive parts and heat-sensitive electronic enclosures.
AlSi9Cu3 (EN AC-46000)
Advantage: High thermal stability and mechanical strength at elevated temperatures.
Application: Used for cylinder heads, transmission housings, and high-stress engine components.
AlSi12 (e.g., ALSi12(Fe))
Advantage: Low thermal expansion and superior wear resistance.
Application: Ideal for high-silicon castings like automotive pistons and pump housings.
K-Alloy
Advantage: Unparalleled corrosion resistance without surface treatments.
Application: Automotive engine electronics and marine equipment exposed to harsh environments.
A413
Advantage: Lightweight with high strength-to-weight ratio.
Application: Aerospace structural parts and automotive lightweighting applications.
413 (YL113)
Advantage: Good weldability and moderate strength for fabrication.
Application: Construction materials (window frames) and shipbuilding components.
B390 (B390-5FD)
Advantage: High silicon content for wear resistance and weight reduction.
Application: Automotive compressor rotors and energy-efficient HVAC systems.
A360
Advantage: Exceptional corrosion resistance and castability.
Application: Common in automotive engine parts and outdoor electrical components.