We have two factories with a workshop area of 5,000 square meters and 78 sets of CNC machining centers, including 11 sets of 5-axis and more than 50 sets of 4-axis. We can customize the production of products according to the drawings provided by customers.It can be customized to process stainless steel,aluminum,brass, nickel and other metals.
At COKO HARDWARE CO.,LTD , we understand that high-quality CNC machined parts are crucial for your business operations. That’s why we adopt strict quality control measures throughout the entire CNC machining process. Our team follows the ISO/TS 16949 quality management system standard, which is widely recognized in the industry.
|cnc machined medical parts
|Place of Origin
|Bronze,Stainless steel,Hardened Metals,Copper,Steel Alloys…etc
|3/4/ 5 Axis Machining, turning, milling
|CNC Machining or No
|France,Spain,Oman,Micronesia, Federated States of,Mongolia,Saint Vincent and the Grenadines…etc
|Medical devices,Electronic,Aerospace,Furniture accessories
|Customized OEM CNC Machining
|Lead time (days)
|7-15 (To be negotiated)
Please note: The above table data is for reference only. For specific information, please contact us.
We offer various high quality cnc machined medical parts mold process services.We have bending molds,forming molds,punching and shearing molds,compression molds,etc.
cnc machined medical parts refer to the components produced using this technology. These may include complex geometries such as gears or intricate designs like aerospace components,medical devices parts or automotive parts – Whatever the application may be, CNC machining provides an accurate way to deliver precision parts every time.
By choosing a reliable supplier with experience in CNC machining services you can ensure your project produces quality end-products within tight tolerances while minimizing waste material during the production process.
At COKO Hardware, we have a proven track record of delivering high-quality CNC machined parts to customers worldwide. With our state-of-the-art facilities, experienced team, and commitment to quality and reliability, we are the preferred partner for all your CNC machining needs.
Our plastic parts for medical devices are made with high-quality and medical-grade materials, ensuring their safety and reliability. We manufacture parts for medical equipment, diagnostic devices, and other applications.
cnc machined medical parts—FAQs Guide
1.What is the load-bearing capacity of cnc machined medical parts, and can they handle radial, axial, or composite loads?
The load-bearing capacity of CNC machined parts depends on the material used and the design of the part. Generally, CNC machined parts can handle radial, axial, and composite loads, but the exact load-bearing capacity will depend on the specific part.
2.Do cnc machined medical parts have high strength and rigidity, suitable for high load applications?
Yes, cnc machined medical parts can have high strength and rigidity, making them suitable for high load applications. CNC machining is a subtractive manufacturing process that uses computer-controlled cutting tools to remove material from a workpiece. This process can produce parts with tight tolerances and excellent surface finishes, making them suitable for high load applications.
3.Are there cnc machined medical parts suitable for applications under extreme conditions, such as deep-sea or space exploration?
Yes, cnc machined medical parts can be designed and manufactured to withstand extreme conditions. For example, CNC machined parts can be made from materials such as titanium, stainless steel, and aluminum alloys that are resistant to corrosion and can withstand extreme temperatures. Additionally, CNC machined parts can be designed with special coatings to further protect them from extreme conditions.
4.What is the reliability of cnc machined medical parts and is there a spare parts supply plan?
The reliability of cnc machined medical parts depends on the quality of the parts and the skill of the machinist. Generally, CNC machining parts are reliable and durable. As for spare parts supply plan, it depends on the specific needs of the customer. Some companies may offer a spare parts supply plan, while others may not.
5.Are cnc machined medical parts subjected to heat treatment or surface treatment to enhance their performance?
Yes, cnc machined medical parts can be subjected to heat treatment or surface treatment to enhance their performance. Heat treatment is used to alter the physical and sometimes chemical properties of a material, while surface treatment is used to improve the appearance and/or corrosion resistance of a material.
6.About cnc machined medical parts,How about the lead time?
It depends on quantity, generally around 20-30 days after receipt of deposit (may vary depending on specific items and item quantities)
7.Can cnc machined medical parts be used for safety critical applications that require high reliability? Like aircraft engines or medical devices?
Yes, cnc machined medical parts can be used for safety critical applications that require high reliability. CNC machining parts are highly precise and can be made to exact specifications, making them ideal for use in aircraft engines and medical devices. CNC machining parts are also highly durable and can withstand extreme temperatures and pressures, making them suitable for use in safety critical applications.
8.As a cnc machined medical parts manufacturer,can you make custom parts based on my sample?
Yes, you can send the sample to us by express and we will evaluate the sample, scan the features and draft 3D drawing forproduction.
9.How to manage the supply chain of cnc machined medical parts to ensure timely delivery and inventory management?
We have established a good reputation and reliable partnerships within the cnc machined medical parts industry.
1. Establish a clear timeline: Establish a timeline for each step of the supply chain process, including when parts need to be ordered, when they need to be received, and when they need to be shipped.
2. Monitor inventory levels: Monitor inventory levels closely to ensure that parts are available when needed.
3. Utilize technology: Utilize technology such as inventory management software to help track and manage inventory levels.
4. Establish relationships: Establish relationships with suppliers to ensure that parts are delivered on time and in the correct quantities.
5. Monitor quality: Monitor the quality of parts to ensure that they meet the required specifications.
6. Utilize automation: Utilize automation to streamline the supply chain process and reduce the need for manual intervention.
7. Monitor costs: Monitor costs closely to ensure that the supply chain is cost-effective.
10.What is the relationship between the cost and performance of cnc machined medical parts, and how to conduct a cost-benefit analysis?
The cost and performance of cnc machined medical parts are closely related. The cost of CNC machining parts is determined by the complexity of the part, the material used, and the time required to produce the part. The performance of CNC machining parts is determined by the accuracy and precision of the part, the surface finish, and the strength of the part.
To conduct a cost-benefit analysis, you should first determine the cost of the CNC machining parts, including the cost of materials, labor, and any other associated costs. Then, you should compare the cost of the CNC machining parts to the performance of the parts. If the performance of the parts is worth the cost, then the CNC machining parts are a good investment. If the performance of the parts is not worth the cost, then the CNC machining parts may not be a good investment.
11.What is the corrosion resistance of cnc machined medical parts and are they suitable for applications with corrosive media?
cnc machined medical parts are generally made from materials such as aluminum, stainless steel, and brass, which all have good corrosion resistance. Depending on the specific material used, CNC machining parts can be suitable for applications with corrosive media. However, it is important to consider the environment in which the parts will be used and the specific corrosive media that will be present.