Stainless steel casting is a process where molten stainless steel is poured into molds to form various shapes and components. This technique is widely used in industries requiring corrosion-resistant parts, such as aerospace, automotive, and chemical processing. Stainless steel casting offers exceptional durability and aesthetic appeal, making it ideal for both functional and decorative applications.
| Quantity: | |
|---|---|
0000260
JINBIANDA
Shenzhen, China
1000PCS
L/C, T/T, D/P, Western Union, Paypal, Money Gram
Customized Aluminum Die Casting Parts are precision-engineered components manufactured through high-pressure die casting, a process where molten aluminum alloy is injected into prefabricated steel molds (dies) under controlled pressure. This method enables the production of complex, net-shaped parts tailored to specific design requirements, leveraging aluminum's inherent properties—low density (approximately 2.7 g/cm³), excellent thermal conductivity, and high machinability.
Available in various aluminum alloys such as ADC12, A380, and 6061, these parts balance structural integrity with lightweight performance, making them ideal for industries ranging from automotive to consumer electronics. The customization capability allows for adjustments in size, shape, and features, ensuring compatibility with unique assembly needs.
Parameter | Details |
Model | 0000260 |
Brand | JINBIANDA |
Port of Shipment | Shenzhen, China |
Production Capacity | 1000PCS |
Payment Terms | L/C, T/T, D/P, Western Union, Paypal, Money Gram |
Die casting facilitates rapid manufacturing cycles, with typical production rates of 50-500 parts per hour for medium-sized components. The reusable steel dies minimize setup time between batches, reducing per-unit costs for large-scale orders while maintaining consistent quality.
The process supports intricate geometries, including internal cavities, thin walls (as thin as 0.8mm for small parts), and integrated threads or ribs. This eliminates the need for multiple assembly steps, streamlining production and enhancing part durability by reducing joint points.
Customized aluminum die casting parts achieve dimensional accuracies of ±0.05mm for critical features, ensuring precise fitment in assemblies. This level of precision is maintained across production runs, critical for applications requiring interchangeable components.
Post-casting treatments such as anodizing, powder coating, or electrophoretic deposition (EPD) improve corrosion resistance and aesthetic appeal. Anodized surfaces, for example, can achieve a hardness of HV 300-500, enhancing wear resistance in high-contact applications.
Widely used in engine brackets, transmission housings, and heat management components, these parts reduce vehicle weight by 30-50% compared to steel alternatives, improving fuel efficiency without compromising structural strength.
In devices like smartphones, laptops, and home appliances, they serve as casings, heat sinks, and internal frames. Their thermal conductivity (100-200 W/(m·K)) helps dissipate heat from processors, extending device lifespan.
Pump housings, valve bodies, and robotic arm components utilize these parts for their combination of light weight and rigidity. The ability to integrate mounting points directly into the casting reduces assembly time in factory equipment.
Solar panel frames, wind turbine components, and battery enclosures benefit from the parts’ corrosion resistance and lightweight design, optimizing performance in outdoor environments.
Customized Aluminum Die Casting Parts are precision-engineered components manufactured through high-pressure die casting, a process where molten aluminum alloy is injected into prefabricated steel molds (dies) under controlled pressure. This method enables the production of complex, net-shaped parts tailored to specific design requirements, leveraging aluminum's inherent properties—low density (approximately 2.7 g/cm³), excellent thermal conductivity, and high machinability.
Available in various aluminum alloys such as ADC12, A380, and 6061, these parts balance structural integrity with lightweight performance, making them ideal for industries ranging from automotive to consumer electronics. The customization capability allows for adjustments in size, shape, and features, ensuring compatibility with unique assembly needs.
Parameter | Details |
Model | 0000260 |
Brand | JINBIANDA |
Port of Shipment | Shenzhen, China |
Production Capacity | 1000PCS |
Payment Terms | L/C, T/T, D/P, Western Union, Paypal, Money Gram |
Die casting facilitates rapid manufacturing cycles, with typical production rates of 50-500 parts per hour for medium-sized components. The reusable steel dies minimize setup time between batches, reducing per-unit costs for large-scale orders while maintaining consistent quality.
The process supports intricate geometries, including internal cavities, thin walls (as thin as 0.8mm for small parts), and integrated threads or ribs. This eliminates the need for multiple assembly steps, streamlining production and enhancing part durability by reducing joint points.
Customized aluminum die casting parts achieve dimensional accuracies of ±0.05mm for critical features, ensuring precise fitment in assemblies. This level of precision is maintained across production runs, critical for applications requiring interchangeable components.
Post-casting treatments such as anodizing, powder coating, or electrophoretic deposition (EPD) improve corrosion resistance and aesthetic appeal. Anodized surfaces, for example, can achieve a hardness of HV 300-500, enhancing wear resistance in high-contact applications.
Widely used in engine brackets, transmission housings, and heat management components, these parts reduce vehicle weight by 30-50% compared to steel alternatives, improving fuel efficiency without compromising structural strength.
In devices like smartphones, laptops, and home appliances, they serve as casings, heat sinks, and internal frames. Their thermal conductivity (100-200 W/(m·K)) helps dissipate heat from processors, extending device lifespan.
Pump housings, valve bodies, and robotic arm components utilize these parts for their combination of light weight and rigidity. The ability to integrate mounting points directly into the casting reduces assembly time in factory equipment.
Solar panel frames, wind turbine components, and battery enclosures benefit from the parts’ corrosion resistance and lightweight design, optimizing performance in outdoor environments.
