CNC Milling Services
China’s top CNC milling supplier and manufacturer – Minghe provides affordable, fast and high-precision customized CNC milling services to global customers, providing a variety of materials to meet the needs of different industries!
- DHL.FEDEX.UPS Free Shipping
- Fastest delivery in 10 days worldwide
- Prototype processing as fast as 1 day.
- 50+ metal and plastic
- Tolerance down to +-0.001mm
- ISO 9001:2015, CE:SHBST100665461231
- 8 RMS or higher. With the right speed and feed, the KLH can CNC mill an 8 RMS surface finish.
Advanced Precision CNC Milling Services – China Top CNC Milling/Milling Parts Manufacturer
Located in China, Minghe Metal Manufacturing Co., Ltd. is a professional CNC company that provides precision and advanced CNC milling services, with advanced machines including CMC milling centers and milling machining centers, from general 3-axis to 5-axis and skilled machinery division. Our operators are experienced and competent in using the best methods to produce low cost CNC milled parts and assemblies of unmatched quality for our customers. With strong capabilities and extensive experience, we can provide top-tier and cost-effective custom CNC milling services, including 3-axis CNC milling and 5-axis for high-speed CNC manufacturing, rapid prototyping and precision CNC milling and mill-turn. We The high-quality fast CNC milling products produced involve automation design, auto parts processing, mechanical milling, national defense industry, medical equipment, agricultural equipment processing and other fields. What are you waiting for? Tell us your needs or send your drawings.
Custom CNC Machining Materials
Materials provided by Minghe
Aluminum
Brass
Copper
Plastics
Steel / Titanium / Zinc
Aluminum 5052
Brass C360
EPT Copper C110
ABS
Alloy Steel 4130, 4140
Aluminum 7075 & 7075-T6
Brass 260
Copper 101
Acetal [Delrin]
ASTM A36
Aluminum 5052
C932 M07 Bearing Bronze
Acrylic
Stainless Steel 15-5, 17-4, 18-8, 303
Aluminum 7050-T7451
C932 M07 Bearing Bronze
G-10 Garolite
Stainless Steel 303, 304, 316/316L
Aluminum MIC-6
Nylon 6/6
Stainless Steel 416, 420
Aluminum 6061-T6
PEEK
Steel, Low Carbon
Aluminum 2024-T3
Polycarb onate
Steel A36
PTFE [Teflon]
Titanium Grade 2, Titanium 6Al-4V, Zinc Sheet Alloy 500
Polypropy lene
Ultra-High Molecular Weight Polyethy lene
Minghe CNC Milling Surface Finishing – Surface Finishing Process for Milled Parts
Here you can choose from a variety of metal finishing services for machining CNC milled parts to improve part appearance, surface smoothness, corrosion resistance and other characteristics.
As Machined
Description
As machined
Standard finish with a surface roughness of 0.8 μm (126 μin).
Smoothing
The standard smoothing surface roughness (Ra) is 0.2 μm (63 μin).
Painting
Spraying paint, pigment, or color to a solid surface as a colored protective layer.
Passivation
Remove ferrous contaminants or use a light coat of protective material to create a shell.
Powder Coating
A functional and decorative finish that is applied as a free-flowing, dry powder.
Anodizing
Type II (anodizing color or clear) or Type III (anodizing hard coat)
Polishing
Produce a smooth and shiny surface.
Black Oxide
Forming a black conversion coating on metal parts.
Bead Blasting
Removing surface deposits by applying fine glass beads at a high pressure.
Abrasive Blasting /Sandblasting
Smoothing and cleaning a hard surface by forcing solid particles across that surface.
Electroplating /Plating
Form a thin coherent metal coating on an electrode.
Brushing
Polishing the metal with grit resulting in a unidirectional satin finish.
Chromate Conversion Coating
Increase the corrosion resistance while maintaining conductive properties.
Contact us if you require unconventional materials and custom finishes.
CNC Milling FAQs
1. What parts can be processed by CNC milling?
Modern CNC milling machines can be configured as horizontal or vertical machining centers and produce different components using plastics, ceramics, composites and metals. Automatic tool changers, tool carousels and magazines, cooling systems and housings are among the technical elements.
2. What is the difference between CNC turning and CNC milling?
Turning operations are performed by rotating the workpiece and using a fixed cutting tool while milling operations are performed by rotating the cutting tool and locking the workpiece in place.
3. What types of materials do CNC mills use?
The most common materials used in CNC milling are metals such as brass, titanium, aluminum or steel, and plastics such as PVC, ABS, polycarbonate and polypropylene.
Simply put, a tolerance is a measurement that indicates the level of precision required for the part you want to manufacture. Specifically, machining tolerances represent how much variation is allowed in the final dimensions or measurements of a part.
5. What kind of finish does CNC machining leave behind?
Due to the rotational motion created by the CNC milling tool, the surface finish of a CNC machined part will have visible tool marks. If you need a smooth, blemish-free finish on your parts, we recommend choosing a secondary finish: grained or powder coated.
Yes, we offer CNC turning (lathes), as well as CNC machining with 5-axis, 3-axis and CNC routers.
Advantages of CNC Milling
Rapid Turnaround
High Precision Tolerances
Scalability
Material Selection
Rapid Turnaround
Minghe uses the latest CNC machining capabilities to produce high precision, fast turned parts in as little as 1 day. We also quote CNC machined parts instantly, reducing the days of your RFQ process.
High Precision Tolerances
High precision tolerances from +/-0.001″ – 0.005″ are available according to customer specifications. We are experts in making parts that are truly custom and ready to use.
Scalability
The CNC machining process is ideal for prototyping and producing CNC parts. Minhe at scale can help you scale from the testing phase to production runs of 100,000 or more parts.
Material Selection
Choose from over 50 metal and plastic materials. CNC machines are available in a variety of certified materials.
CNC Milling Tolerances and Standards
Description
General Tolerance or Standard
Maximum Part Size
Milled parts up to 196” x 48” x 24” (5000 x 1,219 x 610 mm).
Distance Dimension
For features of size (length, width, height, diameter) and position (location, concentricity, symmetry) +/- 0.0005”.
Orientation and Shape Dimensions
0-12″ +/- 0.0005″, angled 1/2 degree. For 24″ and above, please consult Xometry’s manufacturing standards.
Close Tolerance
Minhe can manufacture and check to tight tolerances to your drawing specifications, including GD&T callouts.
Minimum Feature Size
0.020 inches (0.50 mm). This may vary depending on part geometry and selected material.
Threads and Tapped Holes
Minhe can accommodate any standard thread size. We can also machine custom threads; these will require manual quote review.
Surface Finish
Standard finish is as machined: Ra0.8 or better. Additional collation options can be specified when obtaining a quote.
Edge Condition
By default, sharp edges will be broken off and deburred. Critical edges that must remain sharp must be noted and specified on the printout.
Overview: What is CNC Milling?
Basic knowledge of CNC milling machine
A CNC milling machine is an automatic cutting machine that uses a rotating spindle head to cut unwanted material. CNC mills come in many sizes and with different axis configurations. This manufacturing process is primarily used for cutting harder metals, but is also suitable for workpiece materials ranging from plastic and aluminum to stainless steel and titanium.
How CNC Milling Works
CNC mills excel at contour cutting harder materials. Like all CNC machines, CNC mills are controlled by G-code created through CAM software. The Gg code instructs the machine where to move the tool head, how fast to rotate the tool, how deep to cut, how to move the workpiece, and other factors related to speed, feed rate, and coordination. The complexity of the G-code depends on the number of axes of the milling machine.
Milling machines can still be used for contour cutting of softer materials, but are not as cost-effective as CNC routers for this purpose. The main difference between these machines is that with a CNC router, the workpiece remains stationary while the router cutting head is oriented around the workpiece, whereas a CNC milling machine can move both the tool head and the workpiece. While CNC milling machines are primarily used in industrial manufacturing, CNC milling is more commonly found in low-volume manufacturing such as woodworking.
Types of CNC Mills
The most widely used type of CNC milling machine. Full utilization of the X, Y and Z directions makes the 3-axis CNC mill suitable for a variety of jobs.
This type of router allows the machine to rotate on a vertical axis, moving the workpiece to introduce more continuous machining.
These machines have three conventional axes and two additional rotary axes. Thus, a 5-axis CNC router is able to machine 5 sides of a workpiece on one machine without removing the workpiece and resetting it. The workpiece rotates, and the spindle head can also move around the workpiece. These are bigger and more expensive.
Other Benefits of the CNC Milling Process
CNC mills are built for precision manufacturing and repeatability, making them ideal for rapid prototyping and low-volume production runs. CNC mills can also machine a variety of materials, from basic aluminum and plastic to more exotic materials like titanium—making them ideal machines for just about any job. Learn more about the differences between milling machines and lathes, and when milling is the best process to use.
CNC Milling Operations (Types) – What CNC Milling Machines Do
CNC milling service is a type of CNC machining service ideal for manufacturing CNC milled parts with high precision and tight tolerances in prototype and small/high volume production, which is achieved by the following common CNC milling operations.
- Face milling: also known as face milling or slab milling, refers to the milling process that uses a peripheral toothed face milling cutter for cutting. The rotation axis of the tool is parallel to the surface of the workpiece.
- Face milling: An operation in which a milling cutter has teeth on both the perimeter and face, with the axis of rotation of the cutter perpendicular to the surface of the workpiece, generally used to machine planes and contours.
- Form milling: Use of form cutting tools or flying tools for specific purposes, including convex and concave tools, often used to create irregular surfaces and contours such as curved surfaces.
- Angle milling: also written as angle milling, mills a plane that is neither parallel nor perpendicular to the tool axis.
- Gear Milling: The milling process used to manufacture gears.
- Thread Milling: Thread milling cutters interpolate around or within a workpiece to create the desired threads, requiring a machine capable of simultaneous movement in the X, Y, and Z axes.
- Profile milling: Rough or finish milling of vertical or inclined surfaces, continuous toolpath.
- Span Milling: Machining two or more parallel vertical surfaces in one cut.
Other milling operations: Row milling, side milling, end milling, saw milling, helical milling, cam milling, keyway milling, grooves and grooves.
https://youtu.be/0PGlCynUE8w
- Form milling: Use of form cutting tools or flying tools for specific purposes, including convex and concave tools, often used to create irregular surfaces and contours such as curved surfaces.
- Angle milling: also written as angle milling, mills a plane that is neither parallel nor perpendicular to the tool axis.
- Gear Milling: The milling process used to manufacture gears.
- Thread Milling: Thread milling cutters interpolate around or within a workpiece to create the desired threads, requiring a machine capable of simultaneous movement in the X, Y, and Z axes.
- Profile milling: Rough or finish milling of vertical or inclined surfaces, continuous toolpath.
- Span Milling: Machining two or more parallel vertical surfaces in one cut.
Other milling operations: Row milling, side milling, end milling, saw milling, helical milling, cam milling, keyway milling, grooves and grooves.
Other Benefits of the CNC Milling Process
CNC mills are built for precision manufacturing and repeatability, making them ideal for rapid prototyping and low-volume production runs. CNC mills can also machine a variety of materials, from basic aluminum and plastic to more exotic materials like titanium—making them ideal machines for just about any job. Learn more about the differences between milling machines and lathes, and when milling is the best process to use.
CNC Milling Operations (Types) – What CNC Milling Machines Do
CNC milling service is a type of CNC machining service ideal for manufacturing CNC milled parts with high precision and tight tolerances in prototype and small/high volume production, which is achieved by the following common CNC milling operations.
- Face milling: also known as face milling or slab milling, refers to the milling process that uses a peripheral toothed face milling cutter for cutting. The rotation axis of the tool is parallel to the surface of the workpiece.
- Face milling: An operation in which a milling cutter has teeth on both the perimeter and face, with the axis of rotation of the cutter perpendicular to the surface of the workpiece, generally used to machine planes and contours.
https://youtu.be/0PGlCynUE8w
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