Product Description

Product Description

Business Type Manufacture
Materials Aluminum.
Processing CNC machining, CNC lathe/turning, 3/4/5 axis CNC milling, wire-cutting, EDM, grinding, Drilling, tapping etc.
Surface treatment Anodized, passivation, heat treatment, painting, power coating, black oxide, silver/gold plating, electrolytic polishing, nitrided, phosphating,
sandblasting, nickel/zinc/chrome/TiCN plated.
Application Industry Aerospace, automotive, medical, telecommunications, electronic, packing, sensors, optical instruments, computers, motorcycles, bicycles,scooter etc.
Quality control 100% full inspection for small QTY, ISO sampling inspection for mass productions.
Max Tolerance ISO8062-CT6; ISO2768-Mk
Certificates ISO9001;IATF16949  
Lead Time 1.Samples delivery:60-90 working days
2.Orders delivery:40-60 working days
Shipping Terms As per customized specifications
Packing Bubble wrap/pearl wool + Carton or Pallet; As per customized specifications.
Sea Port HangZhou
Payment terms T/T in advance, PayPal or Western Union is acceptable.
Trade Terms EXW, FOB, CIF, As per customer’s request
Drawing format PDF, DWG,CAD, DXF, STEP, IGS etc
Note All cnc machining parts are custom made according to customer’s design drawings or exsiting samples, we have no any ready parts in stock for sales.
If you have any cnc machining parts need to be made, please feel free to send your kind drawings/samples to us.

 

Certifications

 

 

Our Advantages

EMP Casting Advantage
1.We specialized in doing OEM/ODM products according to customers’ drawings or samples
2.You will save 20% cost with CHINAMFG fully automatic facility.
3.Prompt Molding and Sampling time less than 40 days,will make your clients happy.
4.Reliable product quality, IATF16949, certificate to insure in your projects. 
5.One-stop Service on your projects, Molding, Die Casting, Machining, Finishing, Coating.

 

Company Profile

About us
CHINAMFG is a global, full-service manufacturer of precision aluminum die casting products. With more than 20 years’ experience in research & development, manufacturing, and precision machining for the aluminum die casting industry, we are proud to work with some of the world’s top automotive, engineering, electronics, and telecommunications companies.

We provide experienced engineering, technical management, and quality assurance teams ready to support the most challenging projects. We have assisted clients with precision machined prototypes, die design, extensive product testing, and volume manufacturing.

Supporting nearly 500 employees, our 50,000 square meter campus is top-notch, with production areas that feature more than 20 advanced 160T-1600T die-casting machines, 50+ CNC machining centers, 3 large CMMs, and a host of other machines, including: x-rays, spectrometers, leak testers, and ultrasonic cleaners.  

We are certified ISO 9001, IATF 16949, and deliver an output of 5,000 tons of precision aluminum alloy products each year. We have dedicated over 15% of our staff to our quality control efforts and implement quality control in all phases of production. We manufacture a diverse range of products in the automotive, electronics, telecommunications, and electric motor markets.
We are located 1.5hrs west of the HangZhou Airport in HangZhou, China, in a region known for its world-class technical development and manufacturing capabilities, industrial facilities, and extensive logistics and transportation network.

Our team at CHINAMFG is committed to providing you the best result for your custom projects, utilizing the most advanced equipment and techniques available today. We’re here to turn your ideas into reality quickly, accurately and at a competitive price.
Our Mission

Delivering cutting-edge products through world-class die-cast manufacturing and unparalleled quality.

Our Vision

  1.Lead the way in precision die-cast manufacturing
  2.Earn respect CHINAMFG by surpassing expectations
  3.Deliver consistent results to our customers with our commitment to quality
  4.Foster an environment of learning and continuous improvement
  5.Invest in innovative technology and talent

Our Values

1.Innovation
    We are committed in finding new ways to deliver better results
2.Collaboration
    We take pride in working together to find the best solutions
3.Integrity
     We strive to earn and keep trust with everything we do
4.Drive
     We are motivated in bringing new ideas to life

FAQ

1.How to get a quote?
Kindly send us the drawing of your product,please. Including details as below: a.Materials b. Surface Finish c. Tolerance d. Quantity If you need solutions for your application, kindly send us your detail requirements, and we will have engineers to service you.
2.How does the payment process work?
Payment terms are flexible for us. We can accept different type payment way.
3.How do I know about the production?
We will double confirm your requirements and send you the sample before the mass production as you required. During the mass production,we will send you pictures and videos of the processing.
4.How do I know about the delivery?
Before shipment we will confirm with you about all the details including Cl and other attention issues.After ship out, we will inform you of the tracking number and keep updating the latest shipping information for you.
5.What will you do for after sales?
We will follow up and await your feedback. Any question related to our metal parts, our experienced engineers are ready to help. And welcome to contact for any supporting of your other application even if their is no relationship with our products.

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Application: Fastener, Auto and Motorcycle Accessory, Hardware
Machining: CNC Machining
Material: Aluminum Alloy
Surface Treatment: Sandblasting, Sanding, Deburring, Powder Coating
Design: 3D
Casting Tolerance: ISO8062-CT6; ISO2768-Mk
Customization:
Available

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cast aluminium

What is the impact strength of cast aluminium?

The impact strength of cast aluminium can vary depending on several factors. Here’s a detailed explanation:

The impact strength refers to a material’s ability to withstand sudden loads or shocks without fracturing or breaking. It is an essential property to consider, particularly in applications where the cast aluminium part may be subjected to impact or sudden loads.

The impact strength of cast aluminium is influenced by various factors, including the alloy composition, casting method, heat treatment, and microstructure. Here are some key points to consider:

  • Alloy Composition:
  • The specific alloy used in the casting process significantly affects the impact strength of cast aluminium. Different alloying elements and their concentrations can influence the material’s mechanical properties, including impact resistance. For example, some aluminium-silicon alloys, such as A356 or A413, are known for their good impact strength.

  • Casting Method and Process:
  • The casting method employed can affect the impact strength of cast aluminium. Certain casting processes, such as die casting or squeeze casting, can result in improved material density and reduced porosity, leading to higher impact strength compared to other methods like sand casting.

  • Heat Treatment:
  • Heat treatment processes, such as solution heat treatment and aging, can improve the impact strength of cast aluminium. Heat treatment helps refine the microstructure, enhance the material’s mechanical properties, and increase its resistance to impact loading.

  • Microstructure:
  • The microstructure of cast aluminium, including the size and distribution of grains and any present phases or inclusions, can influence its impact strength. A fine and uniform microstructure generally contributes to improved impact resistance.

  • Design Considerations:
  • The design of the cast aluminium part can also impact its impact strength. Factors such as wall thickness, geometry, and the presence of stress concentration points can affect the part’s ability to withstand impact loads. Proper design considerations, such as fillets, ribs, or reinforcement, can help enhance impact resistance.

It’s important to note that the impact strength of cast aluminium can vary among different alloy grades and even within the same alloy due to variations in casting and processing conditions. Therefore, it is advisable to consult specific material data sheets or conduct mechanical testing to determine the impact strength of a particular cast aluminium grade for a given application.

Additionally, the impact strength of cast aluminium is typically evaluated using standardized tests, such as the Charpy or Izod impact test. These tests involve subjecting standardized specimens to a sudden impact and measuring the energy absorbed during fracture. The results provide an indication of the material’s resistance to impact loading.

In summary, the impact strength of cast aluminium is influenced by factors such as alloy composition, casting method, heat treatment, microstructure, and design considerations. By selecting suitable alloys, applying appropriate casting techniques, considering heat treatment processes, optimizing the part design, and conducting mechanical testing, it is possible to achieve cast aluminium parts with the desired impact strength for specific applications.

cast aluminium

How does cast aluminium perform in high-temperature applications?

Cast aluminium can perform well in high-temperature applications, but its performance is influenced by several factors. Here’s a detailed explanation:

Aluminium has a relatively low melting point compared to other metals, which can lead to concerns about its performance in high-temperature environments. However, cast aluminium can still be suitable for many high-temperature applications due to its unique properties:

  • High Thermal Conductivity:
  • Aluminium has excellent thermal conductivity, meaning it can efficiently transfer heat away from the high-temperature areas. This property allows cast aluminium to dissipate heat quickly, reducing the risk of overheating and maintaining dimensional stability.

  • Lightweight:
  • Cast aluminium is lightweight compared to many other metals. This characteristic is advantageous in high-temperature applications where weight reduction is desirable, as it can help improve energy efficiency and ease of handling.

  • Oxide Layer Formation:
  • Aluminium forms a natural oxide layer when exposed to air, which provides a degree of protection against corrosion and oxidation at high temperatures. This oxide layer acts as a barrier between the metal and the surrounding environment, helping to maintain the integrity of the cast aluminium part.

  • Alloy Selection:
  • The choice of aluminium alloy is critical in high-temperature applications. Different alloy compositions can offer enhanced heat resistance, improved mechanical properties at elevated temperatures, and better overall performance. For example, aluminium-silicon alloys, such as A356 or A413, exhibit good high-temperature strength and stability.

  • Heat Treatment:
  • Applying heat treatment processes to cast aluminium can further enhance its high-temperature performance. Heat treatment can refine the microstructure, improve mechanical properties, and increase the material’s resistance to thermal fatigue and creep.

  • Design Considerations:
  • Proper design considerations, such as incorporating appropriate wall thickness, heat sinks, or insulation, can help manage high temperatures effectively. By optimizing the design, cast aluminium parts can withstand and function reliably in demanding thermal conditions.

Despite its favorable properties, there are limitations to consider when using cast aluminium in high-temperature applications:

  • Aluminium has a lower melting point compared to other metals, so it may not be suitable for extremely high-temperature environments where materials with higher melting points, such as refractory metals or ceramics, are preferred.
  • Excessive exposure to high temperatures can cause gradual softening and deformation of cast aluminium parts, leading to a decrease in mechanical strength.
  • Thermal expansion and contraction of cast aluminium can affect dimensional stability, especially in applications with significant temperature fluctuations. Proper allowances and design considerations are necessary to accommodate these thermal changes.

Overall, cast aluminium can perform well in many high-temperature applications, thanks to its thermal conductivity, lightweight nature, oxide layer formation, and suitable alloy selection. By considering the specific requirements of the application and implementing appropriate design and material considerations, cast aluminium can provide reliable and cost-effective solutions for high-temperature environments.

cast aluminium

Can cast aluminium be recycled, and how is it done?

Yes, cast aluminium can be recycled, and the recycling process involves several steps. Here’s a detailed explanation:

Recycling cast aluminium helps conserve resources, reduce energy consumption, and minimize waste. The recycling process typically follows these steps:

  1. Collection:
  2. Cast aluminium scrap is collected from various sources, including discarded products, manufacturing waste, and post-consumer items. This scrap is then transported to recycling facilities for processing.

  3. Sorting:
  4. At the recycling facility, the collected cast aluminium scrap is sorted based on its alloy composition. Different aluminium alloys may have varying chemical compositions and properties, so sorting helps ensure that the recycled material is used appropriately.

  5. Shredding and Melting:
  6. The sorted cast aluminium scrap is shredded into smaller pieces or chips to increase its surface area. Shredding facilitates the melting process and allows for efficient heat transfer during recycling. The shredded aluminium is then loaded into a melting furnace.

  7. Melting and Purification:
  8. In the melting furnace, the shredded cast aluminium is heated to high temperatures, typically around 660°C (1220°F), causing it to melt. During the melting process, impurities and contaminants are removed through various purification techniques. This helps ensure that the recycled aluminium meets the required quality standards.

  9. Casting:
  10. Once the molten aluminium is purified, it is cast into ingots or other desired forms. The molten aluminium is poured into molds and allowed to cool and solidify, forming new aluminium products or raw material for further processing.

  11. Fabrication:
  12. The cast aluminium ingots or recycled aluminium sheets can be further processed and fabricated into new products. This may involve techniques such as extrusion, rolling, forging, or machining to shape the recycled aluminium into desired forms.

  13. Reuse or Manufacturing:
  14. The recycled cast aluminium can be used for various applications. It can be incorporated into new products, such as automotive components, building materials, packaging, or consumer goods. Alternatively, it can be sold to manufacturers who require aluminium as a raw material for their production processes.

  15. Continued Recycling:
  16. Aluminium has the advantage of being infinitely recyclable without any loss in quality. Recycled cast aluminium can be recycled again and again, allowing for a sustainable and circular material flow.

The recycling of cast aluminium helps conserve natural resources, reduces the need for primary aluminium production, and reduces the environmental impact associated with mining and refining raw aluminium. It also saves energy, as recycling aluminium requires significantly less energy compared to producing aluminium from ore.

China Custom Made in China Customized OEM Aluminum Gravity Casting Auto Spare Parts Manufacturer  China Custom Made in China Customized OEM Aluminum Gravity Casting Auto Spare Parts Manufacturer
editor by CX 2024-04-10