Titanium CNC machining services in China
Our titanium CNC machining services are ideal for creating custom parts for various industries, including aerospace, automotive, medical, food processing, and more. We can work with small batches or larger volumes depending on the needs of our customers. With years of experience in titanium machining combined with our advanced technologies, we can guarantee you the highest quality finished product possible.
CNC machining titanium service
Our CNC titanium machining process includes milling, cutting, turning, wire EDM, and grinding. The process is highly accurate, allowing for close tolerances to be achieved.
It is relatively quick and efficient, meaning that it can produce quantities of parts in a short amount of time. So you can’t go wrong with our company.
CNC milling Titanium
CNC Milling titanium is the process of machining titanium into various shapes and sizes. Titanium is a complex material to mill due to its hardness and tendency to break or chip. As a result, milling titanium requires special care. When milling titanium, it is essential to use a sharp cutting tool and take shallow cuts.
We should use high-pressure coolant injection to prevent tool and workpiece overheating. And we need to slow the milling process to a safe speed that can keep heat accumulation under control, increase tool life and produce a better product.
CNC turning titanium
In general, turning titanium shapes metal parts using lathes. CNC turning produces parts that are highly resistant to wear and tear. Additionally, this process can manufacture parts with a very smooth finish. When turning titanium, it is vital to use high-speed steel tools because standard carbon steel tools will quickly become dull.
Titanium turning is a specialized process, we have experience and knowledge to produce titanium parts that meet the highest standards.
Types of titanium alloys
Titanium alloys are metals that contain a mixture of titanium and other chemical elements. The addition of alloying elements typically raises the hardness of titanium. Such alloys have high strength and durability, making them ideal for various applications. The most common alloys are grades two and five. If you need titanium alloy machining service, we can help.
Titanium Grade 1
Titanium Grade 1 (CNC) is a commercially pure metal with excellent corrosion and impact resistance and good machinability and weldability.
Titanium grade 2
Titanium Grade 5 | 3.7164 | Ti6Al4V
Grade five titanium is more robust and is commonly suitable for high-stress applications such as aerospace engineering. Grade 5 is also easier to weld and fabricate than other grades.
Surface finishes for machined titanium
Some different surface finishes can apply to machine titanium. The most common are anodizing, polishing, sandblasting, brushing, painting, powder coating, and electrophoresis. Each of these finishes has advantages and disadvantages, so choosing the right one for the specific application is vital.
Anodic oxidation is the process of forming a protective layer on a metal surface.This layer helps resist corrosion and wear and gives the titanium a unique appearance.
Polishing gives the metal a smooth, shiny finish. This finish is easy to clean and maintain, but it is also more susceptible to scratches and damage.
Sandblasting gives the alloy a rougher, more textured surface. It can help reduce glare and provide more grip, making it ideal for applications where titanium might come into contact with skin or be exposed to direct sunlight.
Brushing gives the alloy a textured finish that can help to hide imperfections. It also provides some protection against corrosion and wears.
Powder coating is a process where powder particles are applied to the titanium surface and then fused. It provides a durable and high-quality surface finish that can resist wear and tear.
Electrophoresis is a process in which an electric current deposits powder onto the titanium surface. It creates a thicker layer that can provide more protection against scratches and nicks.
Why choose our cNC machining titanium service in China?
We provide high-quality titanium processing services. We’re confident that we can provide the best possible service for your specific needs. If you have any ideas about titanium processing, please come to us.
Related Precision Machining Metals
Applications of CNC machining titanium
Titanium is highly valued for its combination of properties and is used in various applications.
Aerospace industry– One common application is in the aerospace industry, where titanium is used extensively in aircraft and spacecraft construction.
Medical field-Titanium components are also used in the medical field, where they can apply for implants and other devices that need to be resistant to corrosion.
What is wire EDM titanium?
Wire EDM is a type of machining that uses wire to cut through the alloy.
This machining process is often used for titanium because it is less likely to damage the wire than other metals.
The wire is fed through a series of small holes in the titanium, and the metal is melted away by the wire.
This process leaves a clean, smooth finish on the titanium.
Wire EDM is often used for precision machining and can create complex shapes that would be difficult to cut with other methods.
How to cut titanium sheet?
Laser cutting is a process that can be performed using various methods.
The most common method is to use a cutting torch, which uses a high-powered flame to heat the titanium and cause it to melt. However, this method can produce harmful fumes, so it is essential to ventilate the area well.
Another option is to use an abrasive cutting wheel to grind through the titanium. This method produces fewer fumes but can be slower than a cutting torch. Using a sharp tool and lubricant can help reduce chipping.
Whichever method you choose, cutting titanium can be a challenging task because of the metal’s high melting point.
Machining Titanium FAQs
Grinding titanium refers to using abrasive grinding tools to roughen the surface of the titanium.
It is usually done to prepare the titanium for further processing or to create the desired finish.
Standard grinding tools include grinding wheels, sandpaper, and abrasive belts.
The grinding process usually produces a lot of heat and noise, so using the proper safety equipment is essential.
When done correctly, grinding can produce a smooth finish on titanium.
When it comes to machining, we can use a wide variety of materials. However, one of the most popular choices is titanium alloy.
Titanium alloy is prized for its durability and resistance to corrosion. It is also non-magnetic, making it ideal for use in sensitive environments.
In addition, titanium alloy has a high melting point, making it ideal for high-temperature applications.
As a result, titanium alloy machining is an excellent choice for many applications.
Thanks to its unique material properties, titanium alloy can help to improve the quality of the finished product and extend tool life and machine life.
One of the most vital advantages of CNC titanium is its corrosion resistance.
Titanium is often used in environments where it will be exposed to salt water or other corrosive materials, and it can withstand these conditions without suffering any damage.
In addition, titanium is non-toxic and hypoallergenic. It has the highest strength-to-weight ratio of any metal and a relatively low modulus of elasticity.
Therefore, it is ideal for medical implants and other applications where human contact is likely.
Finally, titanium has a very high melting point, meaning that it can apply to applications where heat resistance is required.
When it comes to processing titanium, the advantages are clear.
This versatile metal offers exceptional strength, durability, and corrosion resistance, making it an ideal choice for many applications.
The affordability and accuracy of the CNC machine have made it the go-to manufacturing technique for titanium components.
Titanium is a notoriously tough alloy to work with, but CNC machines can easily handle the material.
The other primary manufacturing techniques for titanium – casting and lost wax casting – are more expensive and less accurate than CNC machines.
In addition, lost wax casting requires a vacuum chamber, which adds additional complexity and expense.
For these reasons, CNC machining is the clear choice for most manufacturers in making titanium components.
While titanium is a strong and lightweight alloy, it isn’t easy to work with.
The metal is prone to both chipping and work hardening, which can quickly damage tools and cause production delays.
Machining titanium, therefore, requires special tools and training.
In most cases, it is best left to experienced professionals.