Dongguan Yexin Intelligent Technology Co., Ltd.
Precision in Every Part, Excellence in Every Detail
Add to Cart
CNC Machining Parts Custom CNC Precise Machine Service CNC Lathe Turning
Parts Copper
CNC machining operates through subtractive processes, signifying that the feedstock is shaped
into its final form by systematically removing material.
This involves drilling holes, boring lots and pathways, and molding metal stock into new
material with diverse tapers, diameters, and shapes.
In subtractive manufacturing, the desired shapes are achieved by material removal, setting
it apart from additive manufacturing methods where materials are added and layered to
attain a specified form.
It also differs from injection molding, which involves injecting material into a mold in a different
state of matter to achieve a specified shape. CNC machining's adaptability extends to various
materials, including metals, plastics, wood, glass, foam, and composite materials, making it a
favored choice for efficient and precise fabrication across industries.
Product Details
| Common Copper Materials | |
| No. | Properties |
| Copper C110 | Copper (C110) is a pure at 99.90% copper alloy, with universal for electrical applications high thermal conductivity and good corrosion resistance. |
| Copper C101 | Copper (C101), 99.99% pure, is a copper alloy with excellent conductivity and high corrosion resistance and toughness. |
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.
| Name | Machining Marks |
| As machined | Visible, light surface scratches |
| Smooth machining | Visible, light surface scratches |
| Fine machining | Slightly visible |
| Polishing | Removed on primary surfaces |
| Bead blasting | Removed for non-cosmetic, removed on primary surfaces for cosmetic |
| Brushing | Reduced for non-cosmetic, removed on primary surfaces for cosmetic |
| Powder coating | Removed |
CNC Machining Applications
1. Woodworking Industries:
CNC machining is extensively employed in the woodworking sector, particularly for the production
of wooden furniture. This application offers significant time and cost savings compared to manual
carving, enabling the creation of furniture with intricate geometries that might otherwise require
the expertise of a master woodworker.
2. Lettering and Engraving Systems:
CNC machining is utilized in applications where heavy-duty material removal is not necessary.
Instead, engraving tools are employed to mark patterns or text onto the surface of a part.
This versatile application is used for artistic purposes or for serializing parts.
3. Electrical Industry:
The electrical industry relies on CNC machining for a diverse range of applications.
This includes machining component mounting holes into printed circuit boards and creating
aluminum or copper heat sinks for heat-generating electrical components.
CNC machining ensures precision and efficiency in the production of crucial electrical parts.
4. Pharmaceutical Industry:
CNC machines play a crucial role in the pharmaceutical industry, manufacturing precise
equipment used in the production of pharmaceutical products. Applications range from
extremely precise metering pumps to ingredient-dispensing nozzles and packaging components.
5. Food and Beverage Industry:
CNC machining is integral to the fast-moving consumer goods industry, contributing to the
production of custom material-handling machinery. CNC-machined parts play a crucial role in
enhancing the efficiency and precision of these machines.
Additionally, CNC machining is involved in the creation of injection molds for food packaging,
ensuring high-quality and precisely molded packaging for food and beverage products.
Company Profile
FAQ's
1. What formats of the files can you accept?
We can accept most of the 3D file formats like SolidWorks
(.sldprt)/ ProE(.prt) / IGES(.igs) / STEP (.stp).
We can also use 2D drawing (.pdf) or AutoCAD (.dwg) for quote against the parts with simple
structure. All the other files formats are not listed above but can be read in
AutoCAD/ProE/SolidWorks/ will be also fine for us.
2. What measures are in place to ensure the confidentiality of my design?
Rest assured, we are prepared to sign and strictly adhere to any non-disclosure or
confidentiality agreement you require. Moreover, our factory strictly enforces a policy
prohibiting the capture of photographs of a customer's product without explicit consent.
Our commitment to maintaining confidentiality is underscored by our track record of working
with an extensive array of unique designs over many years, during which we have consistently
safeguarded proprietary information from disclosure to third parties.
3. How does the pricing of We stack up against other suppliers?
Although making direct comparisons is not straightforward, We's prices are usually 25-45% lower
for plastic injection mold tools and CNC machined/turned parts when compared to suppliers in
North America and Europe.
In contrast to Chinese suppliers, our strategy is not to compete solely on price. Instead, we
prioritize delivering the highest levels of quality, swift response times, and professional results.
4. How fast can I expect to receive my parts?
Assuming you provide us with complete 2D and 3D CAD models, we can produce high-quality
parts in as little as two weeks. However, for more complex parts that require additional features,
the production timeline may extend.
For accurate lead times based on your project, please request a quote.
In terms of shipping, our primary mode is air freight, typically taking a few days for transit from
China to Europe or North America.