CNC Services Custom CNC Turning And Milling Precision 316 Stainless Steel Parts

CNC, an acronym for computer numerical control, defines the technology behind CNC machining,

where various machining processes are directed and controlled by a computer. This computerized

automation facilitates the production of parts with increased speed, accuracy, precision, and the

ability to achieve more complex geometries compared to manual machining methods.

Additionally, CNC machining reduces the need for labor-intensive manual machining tasks that

would otherwise be carried out by humans. Although individuals are not physically machining each

part, their role is crucial in programming and operating the CNC machines, ensuring the seamless

execution of every operation.

Product Details

CNC machines excel at cutting a wide range of materials, including aluminum, bronze, copper,

ceramics, plywood, various steel types, stone, wood, zinc, and numerous engineering materials.

This versatility makes them perfect for crafting prototypes during product development.

With CNC milling, you can easily fine-tune and make precise adjustments until you achieve the

desired final product, offering accuracy and efficiency throughout the manufacturing process.

Here is a comprehensive overview of the most popular materials

Surface Finishing

We specialize in the production of custom-made products and offer surface treatment services

tailored to meet our customers' specific requirements and industry standards.

Our comprehensive solutions are both efficient and cost-effective, making us a one-stop destination

with the capacity and capability to provide integrated services.

Specialist Industries

The applications of CNC machining are expansive, offering solutions across diverse industries.

In the realm of woodworking, CNC machines revolutionize the production of wooden furniture,

providing efficiency in both time and cost. Intricate designs that once required master

craftsmanship can now be achieved with ease.

For lettering and engraving systems, CNC technology becomes a tool for marking patterns or text

onto surfaces, catering to artistic and serialized needs. The electrical industry benefits from CNC

machining for tasks such as creating precise component mounting holes in printed circuit boards

and manufacturing heat sinks for electronics.

CNC machines also play a crucial role in the pharmaceutical industry, producing precise equipment

like metering pumps, ingredient-dispensing nozzles, and packaging components. In the fast-paced

consumer goods industry, CNC machining contributes to the creation of custom material-handling

machinery for the food and beverage sector, as well as molds for injection-molded plastic used in

food packaging.

Company Profile

FAQ's

1. What's the general surface texture of CNC milled and turned parts?

In the realm of CNC machining, milled parts typically display a surface roughness of approximately

3.2μm (or 1.6μm for newer machines). In contrast, turned parts exhibit a finer surface texture with

a roughness of 0.8μm.

Importantly, this finer surface finish in turning is achieved without the need for adjusting machining

speeds.

2. The cost of CNC machining a part depends on a range of factors, some of which are

listed below:

1. Material: The choice of material impacts costs, with some materials, like aluminum, being more

cost-effective to machine than others such as Inconel, due to considerations like tool wear and

cutting speeds.

2. Complexity: Parts with intricate features tend to be more expensive to machine. The complexity

of surface shapes, for example, directly influences machining costs.

3. Tolerances: Tighter dimensional tolerances increase the cost of CNC machining. It's crucial to

balance precision requirements with cost considerations to optimize overall expenses.

4. Surface Finish: Attaining mirror finishes necessitates specialized tools and machining strategies,

contributing to increased machining time and associated costs.

5. Quantity: The production volume plays a significant role in cost considerations. Low-volume

production tends to be more expensive per part, as initial setup and programming costs are

amortized over a smaller number of parts.

3. What are you shipping terms?

Our standard shipping terms, applicable to both rapid prototyping and regular production orders,

are Ex Works (EXW). Under these terms, the customer assumes responsibility for shipping, customs

clearance, and all associated fees once the goods have left our premises.

For express shipments, we follow the Delivered Duty Unpaid (DDU) model, placing the onus on the

client to pay import duty upon the goods reaching their destination.