Low MOQ Customized Non-Standard CNC Milling machined Parts for
PhotoGear products
Brief Profile of ZCM_compressed.pdf
Product Description:
Material | Aluminum, Stainless Steel, Steel alloy, Titanium, Brass, Copper, etc. |
Surface treatment | zinc/nickel/chrome/tin plating(color or natural), Galvanization,
anodizing, oil spraying, powder coating, polishing, passivate,
brush, wire drawing, painting, etc. |
Material processing | Tooling making, Prototype, Cutting, Stamping, Welding, Tapping,
Bending and Forming, Machining, Surface treatment, Assembly |
Specification | OEM/ODM, as required |
Software | Auto CAD, Solidworks, PDF,IGS,etc |
Product tolerance | Stamping parts: 0.01-0.1mm, CNC machining parts: 0.1-0.002mm |
Application | The Custom vehicle, Car, Electronic, Farming Machinery parts, and
so on |
Package | Plastic bag, carton, wooden case, as required |
Surface treatment for CNC Machining part:
1 | Zinc/nickel/chrome plating |
2 | hot galvanized |
3 | painting |
4 | powder coating |
5 | Anodized Oxidation, or with colors: like silver, blue, red, etc. |
6 | plating, silver-plated, Gold-plated, etc |
7 | polishing |
8 | electrolytic polishing |
9 | sank without electricity nickel |
Feel like to get a quick quotation from us? Act now!
- Please send us your 3D drawing/2D drawing for us to check all
dimensions.
- Specify the required material, finish, quantity information in the
email, we will handle it for you once receiving it soon!
Note: Workable 3D Drawing Formats: STEP/IGS/X_T/STL/SOLIDWORKS etc,
2D Drawing with PDF will do.
CNC Milling Machining:
Milling is an important technique used in CNC precision machining
having applications for medical, aerospace, optical, as mechanical
parts. Milling uses rotary cutters to remove material from a
workpiece by feeding the workpiece at an angle to the axis of the
tool. The axes that a milling machine has, determines the type of
work and the locations in which it can be done on the workpiece.
WHAT IS 3-AXIS MACHINING?
3-axis milling evolved from the practice of rotary filing, and is a
milling process that operated on two axes, the X & Y axis. In
three axis machining, the workpiece remains still while the cutting
tool moves along the 3 axes to mill the part. 3-axis machining
still one of the most widely used techniques to create mechanical
parts, and can be used for automatic/interactive operation, milling
slots, drilling holes, and cutting sharp edges. Because 3-axis
machining only operates on the 3 axes, it’s relatively simple and
allows the material to be removed in these 3 axes represented by
back to front, side to side and up and down.
While it is a more basic machining process, 3-axis machining may be
ideal for your machining project depending on the size of your
production run, the workpiece requirements, accuracy and finish
constraints, materials used, and your holding capabilities.
WHAT IS 4-AXIS MACHINING?
4-axis milling involves the same processes involved in 3-axis
machining, where a cutting tool is used to remove material from a
piece to create the desired shape and profile. However, in the case
of 4-axes machining, milling is performed on an additional axis. A
4-axis CNC machine operates on the X,Y and Z axes like a 3-axis
machine, but it also includes rotation around the X-axis, which is
called the A-axis. This is the 4th axis that’s added to our
machining process. In most cases, the workpiece will be rotated to
allow for cutting to occur around the B-axis.
4-axis milling is useful when holes and cut-outs need to be made in
the side of a piece or around a cylinder. They can provide quick
and efficient work based off computer numerical inputs for precise
results.
WHAT IS 5-AXIS MACHINING?
5-axis machining involves all the axes of 4-axis machining, with an
additional rotational axis. 5-axis milling machines are the best
CNC milling machines available today, capable of creating precise
and intricate parts for artificial bones, aerospace products,
titanium pieces, oil and gas machine parts, car molds, medical,
architectural, and military products. The 5th axis in 5-axis
milling machine is around the B-axis, which rotates around the
Y-axis in the X-Y-Z plane. This multidimensional rotation and tool
movement allows for B-axis unparalleled precision, finish and speed
in the production of a piece. 5-axis machining can create very
complex parts, which is why it is so important for high level uses,
such as aerospace applications.
However, 5-axis machining is also becoming more popular because it
offers the option for single-step machining (reducing lead time),
allows better access to part geometry, and improves the tool life
and efficiency of the process by tilting the table for the ideal
cutting position.
So which type of machining should you choose for your project. It
all comes down to your unique requirements, budget and timeline.
For expert advice, talk with one of our professional precision
engineers to find the right match for your needs.