We are experts in metal parts, for example Forging parts (hot forging and cold forging), casting parts (precision casting and die casting),Metal stamping parts, CNC machining parts, metal injection molding (MIM) parts,Plastic injection parts, sanitary valves, various hardware products, etc.
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AVAILABLE MATERIALS

1.Steel
Carbon Steel:
Carbon steel is widely used due to its strength and affordability. Low carbon steel (e.g., 1018) is easy to machine and ideal for general-purpose parts. Medium carbon steel (e.g., 1045) offers greater strength and hardness, making it suitable for stronger components.

Stainless Steel:
Known for its corrosion resistance, stainless steel is often used in environments requiring high strength and durability. Popular grades like 304 and 316 are used in applications such as food processing, medical devices, and marine environments.

Tool Steel:
Tool steel is highly durable and wear-resistant, making it ideal for cutting tools, molds, and dies. Common grades like D2, O1, and A2 are used where hardness and heat resistance are critical.

Alloy Steel:
Alloy steel, such as 4140, offers enhanced strength, toughness, and corrosion resistance through the addition of alloying elements like chromium, nickel, and molybdenum. It is used for high-strength mechanical components that require durability and impact resistance.
Primary benefits
1.Strength and Hardness
2.Machinability
3.Wear Resistance
2. Aluminum
Aluminum 6061:
6061 is one of the most popular aluminum alloys used in CNC machining. It offers a good balance of strength, corrosion resistance, and machinability, making it ideal for general-purpose use. Applications include structural components, aerospace parts, and consumer products.

Aluminum 7075:
Known for its high strength-to-weight ratio, 7075 aluminum is often used in applications that require superior strength, such as aerospace and military components. While it is more difficult to machine than 6061, it offers excellent mechanical properties.

Aluminum 2024:
2024 is a high-strength aluminum alloy commonly used in aerospace applications due to its excellent fatigue resistance. Although it is not as corrosion-resistant as other aluminum alloys, it is favored for components that experience high-stress conditions.

Aluminum 5052:
5052 is a versatile aluminum alloy with excellent corrosion resistance and good formability. It is often used in marine, automotive, and industrial applications. This alloy is particularly well-suited for sheet metal work and welding.

Aluminum 6082:
Similar to 6061, 6082 is known for its strength and corrosion resistance. It is widely used in structural applications, including bridges, cranes, and heavy-duty machinery.

Aluminum MIC-6:
MIC-6 is a cast aluminum plate that provides excellent flatness and stability, making it ideal for precision machining applications such as tooling and fixtures. It is commonly used in industries requiring high tolerances and precision.
Primary benefits
1.Lightweight
2.Good Machinability
3.Corrosion Resistance
3.Stainless steel
Stainless Steel 304:
304 stainless steel is the most widely used grade in CNC machining. It offers excellent corrosion resistance, good mechanical properties, and ease of fabrication, making it suitable for applications such as kitchenware, food processing equipment, and medical devices.

Stainless Steel 316:
Known for its superior corrosion resistance, especially in marine and chemical environments, 316 stainless steel is often used in applications exposed to harsh chemicals or saltwater. This grade is commonly found in marine equipment, chemical processing components, and medical implants.

Stainless Steel 303:
303 stainless steel is known for its excellent machinability, making it a preferred choice for complex CNC machining projects. While it has slightly lower corrosion resistance compared to 304 and 316, it is often used in manufacturing screws, bolts, and other precision parts.

Stainless Steel 430:
430 stainless steel is a ferritic alloy that offers good corrosion resistance and excellent formability. It is commonly used in kitchen appliances, automotive trim, and other applications where formability and cost-effectiveness are priorities.

Stainless Steel 17-4 PH:
17-4 PH is a precipitation-hardening stainless steel that offers excellent strength, hardness, and corrosion resistance. It is commonly used in aerospace and chemical processing applications, where high mechanical properties are essential.
Corrosion Resistance: 
Stainless steel's resistance to rust and corrosion makes it ideal for applications in harsh environments, including marine, chemical, and food processing industries.
Strength and Durability: 
Stainless steel offers excellent mechanical properties, including high strength and durability, making it suitable for components that require longevity and reliability.
Temperature Resistance: 
Many grades of stainless steel maintain their strength and resistance to oxidation at high temperatures, making them ideal for applications exposed to heat.
AVAILABLE MATERIALS

ADVANTAGES OF CNC DRILLING

1.High Precision Drilling

1.High Precision Drilling

 CNC drilling delivers consistently accurate holes, ensuring exact alignment and depth for critical components.
2.Versatile Material Capability

2.Versatile Material Capability

Works with a wide range of materials, including metals, plastics, and composites, offering flexibility for various industries.
3.Efficiency in Production

3.Efficiency in Production

Automated CNC drilling processes improve production speed, reducing lead times for both small and large-scale projects.
4.Cost-Effective Manufacturing

4.Cost-Effective Manufacturing

Reduces manual labor and minimizes errors, leading to lower production costs and increased profitability.
5.Repeatable Accuracy

5.Repeatable Accuracy

The computer-controlled process ensures that each drilled hole meets precise specifications, even in high-volume production.
6.Support for Complex Projects

6.Support for Complex Projects

CNC drilling can handle both simple and intricate drilling tasks, ideal for complex designs requiring high precision.
7.Ideal for Prototyping and Mass Production

7.Ideal for Prototyping and Mass Production

Suitable for both prototyping custom parts and large-scale production, offering scalability for various manufacturing needs.
8.Enhanced Product Quality

8.Enhanced Product Quality

Consistent drilling accuracy enhances the overall quality of parts, ensuring reliability and performance in final products.

1.What is CNC Drilling?

CNC drilling is an advanced machining process that utilizes computer-controlled drills to create precise holes in various materials like metals, plastics, and composites. This automated process ensures high accuracy, repeatability, and efficiency, making it ideal for both simple and complex drilling operations. 

2.What materials can be drilled with CNC Drilling?

CNC drilling works with a wide range of materials, including metals such as aluminum and steel, as well as plastics and composites. This versatility makes CNC drilling suitable for multiple industrial applications across different sectors.

3.What are the advantages of CNC Drilling?

CNC drilling offers several benefits, including high precision, consistency, and increased production efficiency. The automated process minimizes errors, reduces manual labor, and delivers repeatable accuracy, making it perfect for prototyping and large-scale production in industries like aerospace, automotive, and manufacturing.

4.Which industries benefit from CNC Drilling?

Industries such as aerospace, automotive, electronics, and manufacturing greatly benefit from CNC drilling technology. It is essential for producing high-quality holes in components where precision, accuracy, and durability are critical for the final product.

5.How accurate Is CNC Drilling?

CNC drilling provides exceptional precision, often achieving tolerances within fractions of a millimeter. This level of accuracy is crucial for applications that demand exact hole placement and consistent dimensions across parts.

6.What is the difference between CNC Drilling and Manual Drilling?

CNC drilling is an automated process, delivering superior precision and consistency compared to manual drilling. The computer-controlled system allows for intricate drilling patterns and repeatable accuracy, whereas manual drilling is more labor-intensive and prone to human error.

7.What are the lead times for CNC Drilling projects?

Lead times for CNC drilling projects vary depending on factors such as design complexity, material availability, and order size. Simple drilling tasks can often be completed in a few days, while more complex or larger orders may require additional time.

8.What post-processing Is required after CNC Drilling?

Post-processing for CNC-drilled parts may include deburring, cleaning, or applying surface treatments. These steps help ensure smooth edges and enhance the final product’s appearance and functionality, depending on the material and specific application needs.

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