Custom Metal Stamping Services in China Supplier

Experience unprecedented precision with our metal stamping services (also known as metal pressing). Using state-of-the-art presses and tools, we guarantee stringent tolerances and rapid production, from small batch customization to large-scale production runs of millions.

Advantages of Metal Stamping Parts

1
Supreme Cost Efficiency
2
Unwavering Precision and Uniformity
3
Lightning-Fast Production Speeds
4
Enhanced Structural Integrity

Precision Metal Stamping Parts and Products

Precision metal stamping is used to create a wide range of parts and products across various industries. The specific parts produced can vary greatly in size, shape, and function depending on their intended application.

Types Of Metal Stamping

Here’s a detailed exploration of various CNC turning techniques, each suited for specific machining requirements and designed to achieve high precision and quality in manufactured parts:

Progressive Die Stamping
Metal is shaped by passing through multiple stations in one go, performing different operations like cutting and bending.
Four-Slide Stamping
Uses multiple tools to simultaneously bend and twist metal into complex shapes.
Deep Draw Stamping
Forms deep, hollow parts by drawing metal into a mold using a punch.
Fine Blanking
Produces very smooth and precise parts, ideal for high-precision components like gears.
Transfer Stamping
Moves parts between different stations in a single machine for complex assembly processes.
Compound Die Stamping
Simultaneously performs multiple operations in one press stroke, efficient for simple parts.
Hot Stamping
Heats metal before forming it into strong, lightweight parts, often used in automotive structures.
Embossing
Creates raised or indented designs on metal surfaces for decorative or strengthening purposes.
Bending
Changes the shape of metal by creating bends along straight lines.
Stretching
Increases the surface area of metal parts by stretching them in a press, commonly used in deep drawing.

Materials of Sheet Metal Stamping

 

Aluminum

Aluminum is a lightweight, corrosion-resistant metal ideal for applications requiring a high strength-to-weight ratio and good thermal conductivity. It’s easy to machine and extensively used in aerospace, automotive, and consumer electronics. Common types of aluminum alloys like 6061 and 7075 offer enhanced mechanical properties, such as improved toughness and hardness.

 

  • Price: $$
  • Lead Time: 10 days
  • Wall Thickness: 0.75 mm
  • Tolerances:+/-0.125mm (±0.005″)
  • Max part size: 200 x 80 x 100 cm
 
aluminum

Copper

Copper is highly conductive to both heat and electricity, making it popular in electrical applications, heat exchangers, and automotive parts. It is relatively easy to machine and provides a unique combination of ductility, strength, and thermal conductivity. Its natural resistance to corrosion and aesthetic appeal also make it a choice material for decorative applications.

 

  • Price: $$$
  • Lead Time: =10 days
  • Wall Thickness: 0.75 mm
  • Tolerances: plusmn;0.125mm (±0.005″)
  • Max part size: 200 x 80 x 100 cm
 
copper

Brass

Brass is an alloy of copper and zinc, known for its machinability and corrosion resistance. It’s often used for decorative items, plumbing fixtures, electrical components, and musical instruments. Brass provides a balance between strength and ductility and can be easily machined into complex shapes.

 

  • Price: $$$
  • Lead Time: < 10 days
  • Wall Thickness: 0.75 mm
  • Tolerances: ±0.125mm (±0.005″)
  • Max part size: 200 x 80 x 100 cm
 
Brass

Stainless Steel

Stainless Steel is renowned for its corrosion resistance and strength. It’s widely used in food processing equipment, medical devices, and general metal fabrication. Stainless steel alloys, like 304 and 316, offer a good balance of corrosion resistance, machinability, and cost-effectiveness. It’s a versatile material suitable for a wide range of applications.

 

  • ?Price: $$
  • ?Lead Time: < 10 days
  • ?Wall Thickness: 0.75 mm
  • ?Tolerances: ±0.125mm (±0.005″)
  • ?Max part size:200 x 80 x 100 cm
 
Stainless Steel

Titanium

Titanium is known for its exceptional strength, lightweight, and high corrosion resistance. It’s often used in aerospace, medical implants, and high-performance automotive applications. Titanium is challenging to machine but offers superior mechanical properties and a very high strength-to-weight ratio, making it ideal for advanced engineering applications.

 

  • ?Price: $$$$$
  • ?Lead Time: < 10 days
  • ?Wall Thickness: 0.75 mm
  • ?Tolerances: ±0.125mm (±0.005″)
  • ?Max part size: 200 x 80 x 100 cm
 
Titanium

 

 

Metal Stamping Examples

Take a look at our collection of metal stamping examples and explore the vast array of designs and applications we offer. Push the boundaries of what’s possible with metal!
Stamping-1
Stamping parts

Sheet Metal Stamping Process: Custom and Support

Machining Quote sheet metal stamping process not only focuses on manufacturing but also on ensuring a seamless and supportive customer experience from initial consultation to after-sales care.

PhaseActivitiesValue-Added Services
Concept Phase

Needs Analysis

Technical Consulting

Expert advice on material and process selection

Cost optimization strategies

Design Phase

Process Selection

Tool and Die Design

Use of CAD and simulation technologies

Design optimization for manufacturability

Production Phase

Precision Manufacturing

Quality Control

- In-process inspections

- Final quality checks to ensure standards compliance

Implementation Phase

Post-Production Support

Logistics and Supply Chain Management

Assembly, finishing, packaging

Timely delivery and inventory management

After-Sales Services

Technical Support

Maintenance Services

Ongoing troubleshooting support

Regular maintenance and servicing

Post Processing Services for Sheet Metal Stamping Parts

Revolutionize your CNC turned parts with our comprehensive post-processing. Ensure top-tier performance and standout aesthetics for demanding industrial uses.

Cleaning: Removing any lubricants, debris, and residues from the stamping process to prepare for further finishing or assembly.
Deburring: Smoothing the edges of stamped parts to remove any sharp edges or burrs that could pose handling hazards or affect assembly.
Painting: Applying paint for aesthetic enhancement and corrosion resistance.
Powder Coating: Providing a durable and protective layer that is thicker than conventional paint.
Plating: Adding a metal coating, such as zinc or nickel, for increased corrosion resistance or electrical conductivity.
Anodizing: Used for aluminum parts to form a hard, protective outer layer that is also decorative.
Heat Treating: Altering the metallurgical properties of the stamped parts to improve their strength, hardness, or ductility.
Assembly: Assembling multiple stamped components into more complex assemblies or adding non-metal components like plastic or rubber parts.