Custom Precise CNC Machining Spare Part CNC Milling Turning Parts Stainless Steel

Custom High Precision Stainless Steel Parts OEM Milling Turning Parts

CNC Machining Parts Aluminum Brass

CNC (Computer Numerical Control) machining is an automated process that involves using a

machine to remove material from raw stock based on computer-generated instructions.

It is applicable to a wide range of materials, from expanded polyurethane foam to nickel

superalloys. Common applications for CNC machining include manufacturing, crafting ornamental

furniture, and producing turbine blades.

The cost of CNC machining is influenced by factors such as precision requirements, surface finish,

quantity, material selection, and the complexity of the part being produced.

Product Details

CNC machining can be used for a wide variety of materials, with the most common being

aluminum, steel, brass, ABS, Delrin, and nylon.

But really, almost any hard material can be CNC machined.

Post-processing and surface finishes for CNC machining

CNC-machined parts as they emerge from the machine often exhibit visible tool marks, a feature

that may not align with your specific part requirements.

Fortunately, there exists a multitude of post-processing techniques aimed at enhancing the surface

appearance and elevating attributes such as wear resistance, corrosion resistance, and chemical

resistance.

Methods like anodizing, bead blasting, and powder coating present viable options for refining the

final presentation of your custom parts, allowing you to achieve the desired surface quality and

performance characteristics.

Applications of CNC Machining

CNC machining offers a wide range of applications across various industries.

Here are some examples:

1. Woodworking
CNC machining is commonly used in woodworking to create intricate and cost-effective wooden

furniture. It allows for the production of complex designs that would be time-consuming and

expensive when done manually.

2. Lettering and Engraving
CNC machines can perform precise engraving and lettering tasks, whether for artistic purposes

or marking serial numbers and patterns on parts.

3. Electrical Industry
The electrical industry relies on CNC machining for tasks such as drilling mounting holes in

printed circuit boards and crafting heat sinks from aluminum or copper for electronic components

that generate heat.

4. Pharmaceutical Industry
In the pharmaceutical sector, CNC machines are employed to manufacture precision equipment

used in pharmaceutical production. This includes metering pumps, ingredient-dispensing nozzles,

and packaging machinery.

5. Food and Beverage Industry
The fast-moving consumer goods industry benefits from custom material-handling machinery,

often incorporating CNC machined parts. Additionally, CNC machining is used to create molds

for injection-molded food packaging materials.

Company Profile

FAQ's

1. Advantages of the CNC Machining Process

CNC machining offers several advantages when compared to other manufacturing and machining

methods.

1. Enhanced Precision and Accuracy
CNC machines excel in producing identical components with consistent dimensions, ensuring

precision at a level that manual machining cannot match.

The computerized controls allow for unparalleled accuracy in manufacturing.

2. Expedited Turnaround Times
CNC machining can significantly reduce production lead times. Unlike traditional machines that

require manual setup for each operation, CNC equipment can make adjustments swiftly by

modifying the computer program.

Furthermore, these machines can operate continuously for extended periods without the need

for breaks, resulting in faster order fulfillment.

3. Scalability
CNC machining is ideal for both prototyping and large-scale production.

Thanks to its reliance on CAD files rather than intricate machine setup, prototypes can be swiftly

and accurately produced.

Once a part design is approved, it can seamlessly transition into full-scale production.

4. Versatility
CNC machining is versatile and adaptable, accommodating diverse designs in various materials,

including metals and polymers.

This flexibility makes it a suitable choice for manufacturing a wide array of components and products.

2. General Cost Reduction Strategies

Achieving cost reduction in manufacturing requires a thoughtful approach that considers various

factors. Here are some general tips to help reduce production costs:

1. Material Selection:
Choose popular materials and compare prices across different types.
Keep in mind that harder materials like steel and stainless steel tend to be more expensive than

softer materials such as aluminum or plastic.

2. Design Simplification:
Opt for 2D parts made from sheet material instead of 3D parts from block material.
Consider stacking 2D parts or using bending techniques to create 3D shapes.
Design parts to be multi-functional to reduce the number of distinct part types.

3. Volume Optimization:
Increase the quantity of parts to take advantage of economies of scale and reduce the cost per part.

4. Tolerance Management:
Use the loosest applicable tolerance to avoid unnecessary precision, which can increase production

costs.

5. Finish Selection:
Choose common and simple finishes to minimize costs.
Avoid multiple finishing processes whenever possible.
Consider using materials that do not require additional finishing steps.

6. Component Separation:
Convert single complex parts into multiple simpler components that can be assembled.
For example, when creating a large disk with a thin rod protruding from the center, design the disk

and rod separately rather than as a single piece.
This approach can reduce material waste and production costs.

7. Hole Tapping Optimization:
When tapping holes, avoid depths exceeding three times the hole diameter, especially when the hole

and bolt are of the same material.
Deeper holes often do not add significant strength but can substantially increase costs.

By implementing these cost-saving strategies, manufacturers can optimize their production processes

and reduce overall manufacturing expenses.

Dongguan Yexin Intelligent Technology Co., Ltd.

Yexin Precision CNC Machining is a leading OEM CNC metal parts manufacturer headquartered in

Dongguan, China.

We specialize in the precision machining of non-standard components, offering on-demand

manufacturing and rapid prototyping services.

With a commitment to excellence, we provide quick quotes and deliver high-quality parts in record

time.

Our Expertise:

1. CNC Machining: We excel in CNC milling and turning services, ensuring precise and accurate results.

2. Diverse Materials: Our capabilities cover a wide range of materials, including brass, stainless steel,

aluminum, and more.

3. Cutting-Edge Equipment: Yexin is equipped with state-of-the-art CNC machining centers, turning

machines, engraving and drilling machines, lathes, and milling machines.

4. Precision and Tolerance: Our experienced team, coupled with advanced machinery, guarantees

repeated positioning accuracy within a remarkable tolerance of ±0.001mm.

Our Commitment:

At Yexin Precision CNC Machining, we are dedicated to surpassing our customers' expectations

throughout the entire manufacturing process.

We recognize our responsibilities to customers, employees, suppliers, and society, and we continually

strive to meet and exceed them.

Our Vision:

We continually invest in advanced production facilities to enhance efficiency, ensure high and

consistent quality, and reduce production costs.

Our ultimate goal is to provide reliable, cost-effective CNC machining parts and fast sample services,

contributing to the success of our customers' projects.

Choose Yexin Precision CNC Machining as your trusted partner for precision machining solutions.

Contact us today to experience excellence in CNC metal parts manufacturing and rapid prototyping.