Stamping Die, also known as cold stamping die, is widely used in various industries, including home appliances, electronic communications, and automobiles. It can be classified into the following categories: blanking die, bending die, drawing die, and forming die.
| Home Appliance Industry | Stamping Die |
|---|---|
| Refrigerator | Refrigerator Panel Stamping Die |
| Washing Machine | Washing Machine Panel Stamping Die |
| Air Conditioner | Air Conditioner Stamping Die |
| Microwave Oven | Microwave Oven Stamping Die |
| Dishwasher | Dishwasher Stamping Die |
| Blender | Blender Housing Stamping Die |
| Electronics Industry | Stamping Die |
|---|---|
| Electronic Components | Electronic Component Stamping Die |
| Connectors | Connector Stamping Die |
| Heat Sinks | Heat Sink Stamping Die |
| Battery Cases | Battery Case Stamping Die |
| Printed Circuit Boards | PCB Stamping Die |
| Shielding Cases | Shielding Case Stamping Die |
| Automotive Industry | Stamping Die |
|---|---|
| Automotive Parts | Stamping Die for Automotive Parts |
| Car Body | Car Body Stamping Die |
| Automotive Panels | Automotive Panel Die |
| Chassis | Chassis Stamping Die |
| Bumpers | Bumper Stamping Die |
| Fenders | Fender Stamping Die |
| Hoods | Hood Stamping Die |
| Door Panels | Door Panel Stamping Die |
| Material | Material Properties |
|---|---|
| Carbide | Cemented carbide is a powder metallurgical composite consisting of one or more hard material phases (e.g., tungsten carbide) and a binding material (e.g., cobalt). It is extremely hard, characterized by high wear resistance and thermal stability. It is used in various fields that require tools or components to be particularly wear-resistant. Compared to die steel, it is more difficult to machine and has a higher material cost, but its service life is often several times longer. |
| Ceramic | Ceramic materials exhibit excellent high-temperature resistance and are critical for applications operating continuously from 180 °C to over 1200 °C. Compared to metallic materials, oxide ceramics are highly resistant to chemical attack, particularly in acidic and alkaline environments. Common types include alumina, zirconia, silicon carbide, and silicon nitride ceramics. |
| HSS | High-speed steel (HSS) offers superior abrasion resistance and toughness for general use. It is primarily employed in small batch production or in fields with high material toughness requirements. |
Kinyet is committed to the research and development of tungsten-related materials. By continuously introducing new technologies and increasing investments in high-end production equipment, Kinyet provides mold solutions with an exceptional quality-to-price ratio, featuring high precision, longer tooling life, and cost-effectiveness. We are thrilled to announce our merger with Drow; together, we believe we will create even better products for consumers in the future!
Q1: Do you produce special punch molds or punch die components?
A: Yes, we specialize in customized mold fabrication and can translate the most complex punch die concepts into reality. Our punch mold components are designed and tailored for various demanding applications and materials.
Q2: Can you send products to our forwarder in China?
A: Yes, if you have a forwarder in China, we will be glad to send the products to them.
Q3: If we want to cooperate with you, is confidentiality guaranteed?
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 you wish.
Q4: What are your payment terms?
A: We require a T/T payment structure of 30% as a deposit and 70% balance before delivery. We will provide photos of the products and packaging before you pay the balance.
Q5: Who are we?
A: We are based in Guangdong Province, China, and started in 2010. We sell to Western Europe (10%), North America (20%), Eastern Europe (20%), Southeast Asia (40%), and Africa (10%). Our factory employs approximately 51-100 people.
