High Precision Tungsten Carbide Punch Mold Components for Forging Fastening Spring Bearing Drawing Roller and More
High Precision Tungsten Carbide Punch Mold Components for Forging Fastening Spring Bearing Drawing Roller and More
Application Field:
Tungsten Carbide widely used in molds and dies. Classify as below:
| Classification | Application |
|---|---|
| Forging Die | Molds for automotive components processed through hot forging, cold forging, and precision forging processes. |
| Fastening Die | Used for fastening products across industries such as automotive, construction, home appliances, and aerospace. |
| Spring Tool | Tools designed for the precision processing of springs used in automotive and high-end electronic products. |
| Bearing Tool | Tools for processing bearing products, including the forming of bearing balls, wheels, and rings. |
| Powder Metallurgy Die | Used for various precision gear parts in automotive, motorcycles, and electronic products. |
| Roller | Various roller products for wire forming and the front portion of production. |
| Drawing Die | Tools used for diameter reduction and the forming of wire and tubes. |
| Optical Mold | High-precision molds for the photovoltaic industry, specifically for processing aspherical glass lenses for mobile phones and security cameras. |
| Can Making | Tools for seamless tin forming, providing solutions for punching, stretching, and retracting processes. |
Product Details — Carbide Drawing Dies
- Surface Roughness: RZ ~ 0.2 µm / F1.0 mm/min
- Accuracy: ±0.001 mm
- Customization: Fully customizable. This series of products does not have standard stock; only non-standard orders are accepted. Please attach CAD or 3D drawings with your inquiry. Thank you!
- Material: Made from virgin tungsten carbide with added cobalt elements, featuring the following properties:
| Material | Material Properties |
|---|---|
| Carbide | Cemented carbide is a powder metallurgical composite made up of one or more hard material phases (e.g., tungsten carbide) and a binding material (e.g., cobalt). It is an extremely hard material characterized by high wear resistance and thermal stability. This makes it suitable for various applications requiring particularly wear-resistant tools or components. Although it is more difficult to machine and has a higher material cost compared to die steel, its service life is often several times longer. |
Involve Machining Technology:
- Involve Production Technology: Cylindrical grinding, internal circular grinding, optical profile grinding, flat grinding, thread machining, middle speed wire cutting, low speed wire cutting, mirror discharge machining and so on.
Why Choose Us
- Advanced Technology: We can quickly form complex shapes and various structures while maintaining precision.
- Efficient Processing: Our short production cycle and rapid delivery ensure that shipments adhere to the scheduled delivery dates.
- Product Quality: We guarantee consistent quality with high accuracy, achieving tolerances of up to ±0.003 mm.
- Confidentiality System: We implement triple confidentiality measures to protect your information. If needed, we can sign a Non-Disclosure Agreement (NDA) for added assurance.
- High-End and Fully Equipped: We have outstanding processing capacity, multiple production lines, advanced equipment, and professional supporting facilities.
- Cost-Effective: Our reasonable design and material selection enable us to offer competitive pricing, helping you secure favorable prices for products of the same quality level.
Kinyet is committed to the research and development of tungsten-related materials. By continuously introducing new technologies and investing in high-end production equipment, we provide mold solutions with an exceptional quality-to-price ratio—featuring high precision, longer tooling life, and cost-effectiveness. We are excited to announce our merger with Drow, and together, we believe we will create even better products for consumers in the future!
Quality Criteria
- Wear Resistance
- Precision
- Corrosion Resistance
- Impact Strength
- Toughness
- Modulus of Elasticity and Rigidity
- Transverse Rupture Strength, etc.
FAQ
Q1: Do you produce special punch molds or punch die components?
A: Yes, we specialize in customized mold fabrication and can transform the most complex punch die concepts into reality. Our punch mold components are designed and tailored for various demanding applications and materials.
Q2: Do you accept low-volume sample orders? What’s your MOQ for customization?
A: Yes, we do. For sample orders, we accept a minimum order quantity of one piece. Please attach CAD or 3D drawings with your inquiry. The sample lead time is 10–15 days, and this can be negotiated for special requirements.
Q3: If we want to cooperate with you, can we ensure confidentiality?
A: Absolutely! All your information, including company details, drawings, and purchase order specifics, will be kept confidential. We can sign an NDA (Non-Disclosure Agreement) if desired.
Q4: What are your payment terms?
A: We require a 30% deposit via T/T, with the remaining 70% due before delivery. We will provide photos of the products and packaging before you pay the balance.
Q5: What products can you buy from us?
A: We offer carbide inserts, carbide end mills, carbide drills, carbide boring tools, cutting tools, and customized carbide precision molds.
Get in Touch
Have questions about our products or want to discuss a custom order? Our team is ready to help you.