Advanced Sheet Metal Stamping Solutions
- Electrical connectors
- Precision washers
- Heat dissipation components
- Vehicle trim pieces
- Appliance outer casings
- Locking mechanism parts
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STEP | STP I SLDPRT I IPT I PRT I SAT FLES
Advanced Manufacturing Capabilities
Integrating Engineering Expertise, Advanced Manufacturing Processes, and Flexible Production Capabilities to Support Product Development from Initial Prototypes to Scalable Production.
Single-Operation Die Stamping
Performs one forming or punching operation per press stroke, providing flexibility for simple parts, rapid tooling changes, and cost-effective production with consistent dimensional accuracy.
Progressive Die Stamping
Employs automated multi-stage dies for high-volume production, enabling simultaneous feature creation with reduced cycle time, lower costs, and excellent repeatability.
Compound Die Stamping
Combines operations in a single press cycle, enabling efficient small/medium batch production with precise forming and excellent dimensional stability.
Metal Stamping Mass Production
Supports scalable metal stamping with automated workflows, delivering dependable output, optimized manufacturing efficiency, and stable supply for large-volume production.
Our Powerful Metal Stamping Parts
Single-Operation Die Stamping Parts
- 10+ Years of Metal Stamping Services
- Tolerances as tight as ±0.0012 in.(0.03mm)
- Part size: ≤3000MM*1500MM
- Lead times as fast as 3 working days
Progressive Die Stamping Parts
- 10+ Years of Metal Stamping Services
- Tolerances as tight as ±0.0012 in.(0.03mm)
- Part size: ≤3000MM*1500MM
- Lead times as fast as 3 working days
Compound Die Stamping Parts
- 10+ Years of Metal Stamping Services
- Tolerances as tight as ±0.0012 in.(0.03mm)
- Part size: ≤3000MM*1500MM
- Lead times as fast as 3 working days
Metal Stamping Materials
Metals
Lightweight, high thermal conductivity, Excellent Machinability, Superior Dimensional Stability, Tight-Tolerance Capable, Perfect for Complex CNC Milling and Turning.
Price: $0
Lead Time: < 5 days
Tolerances: ±0.005″ (±0.125mm)
Max part size: 200 cm x 80 cm x 100 cm
Extremely lightweight (67% aluminum density), good vibration damping, requires surface treatment.
Price: $0
Lead Time: < 10 days
Tolerances: ±0.005″ (±0.125mm)
Max part size: 200 cm x 80 cm x 100 cm
Excellent malleability, corrosion-resistant, decorative finishes, suitable for intricate stamped panels.
Price: $0
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High electrical conductivity, soft yet work-hardening, requires annealing during multi-stage forming.
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Cost-effective formability, high strength-to-weight ratio, requires anti-rust coating for exposed edges.
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Corrosion-resistant, retains strength after welding, maintains integrity in harsh environments.
Price: $0
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Aerospace-grade strength, biocompatible, seawater corrosion resistance, difficult to machine.
Price: $0
Lead Time: < 10 days
Tolerances: ±0.005″ (±0.125mm)
Max part size: 200 cm x 80 cm x 100 cm
Lightweight, high thermal conductivity, Excellent Machinability, Superior Dimensional Stability, Tight-Tolerance Capable, Perfect for Complex CNC Milling and Turning.
Price: $0
Lead Time: < 5 days
Tolerances: ±0.005″ (±0.125mm)
Max part size: 200 cm x 80 cm x 100 cm
Plastics
Fast-flowing melt, low shrinkage (0.4-0.7%), requires pre-drying (80°C/4h), ideal for automotive dashboards and consumer electronics housings.
Price: $0
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High melt viscosity (300-350°C processing), moisture-sensitive (0.02% max), optical-grade clarity for LED lenses and medical device components.
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Crystallization-sensitive cooling (80-120°C mold), high dimensional stability, precision gears and fuel system valves.
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Moisture absorption (2.5-3.5%) requires post-molding annealing, self-lubricating bushings and automotive cable ties.
Price: $0
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Extreme processing temps (380-400°C), low shrinkage (0.1-0.3%), aerospace bushings and surgical sterilization trays.
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Heat distortion resistance (150°C), electrical insulation, glass-fiber reinforced automotive connectors.
Price: $0
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Aerospace-grade strength, biocompatible, seawater corrosion resistance, difficult to machine.
Price: $0
Lead Time: < 10 days
Tolerances: ±0.005″ (±0.125mm)
Max part size: 200 cm x 80 cm x 100 cm
Lightweight, high thermal conductivity, Excellent Machinability, Superior Dimensional Stability, Tight-Tolerance Capable, Perfect for Complex CNC Milling and Turning.
Price: $0
Lead Time: < 5 days
Tolerances: ±0.005″ (±0.125mm)
Max part size: 200 cm x 80 cm x 100 cm
Low melt strength (LDPE: 160-240°C), high flow rate for thin-wall containers and chemical-resistant pipeline fittings.
Price: $0
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Low density (0.9g/cm³), living hinge capability, disposable syringes and automotive HVAC ducts.
Price: $0
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High mold temperature (60-80°C) reduces internal stress, low warpage, replaces glass in automotive taillights and cosmetic packaging.
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Sheet Metal Stamping Tolerances and Standards
Surface Finishes by Material
Different materials require different finishing processes. Explore the most suitable surface finishes for aluminum, stainless steel, titanium, brass, copper, engineering plastics, and more to achieve the ideal balance of protection, appearance, and performance.
What is CNC Stamping?How Does CNC Stamping Work?
CNC Stamping is a computer-controlled metal forming process that uses programmed commands to drive stamping presses or dies, shaping sheet metal into precise components. Combining CNC (Computer Numerical Control) technology with traditional stamping, it produces high-volume parts like brackets, connectors, and automotive panels with consistent accuracy. Common materials include steel, aluminum, and copper alloys, with thicknesses ranging from 0.1 mm to 6 mm.
- Design & Programming:CAD software creates a 3D model of the part, which is translated into CNC-compatible code (e.g., G-code) using CAM software.Parameters like press force, stroke speed, and tool paths are optimized for material properties.
- Die Setup:Custom dies (punch and die sets) are mounted onto the CNC stamping press, aligned using laser calibration for precision.
- Stamping Process:The CNC system automatically feeds sheet metal into the press.Hydraulic or mechanical force drives the punch to cut, bend, or emboss the material in a single or progressive operation.Sensors monitor alignment and force to prevent errors like misstrikes or material slippage.
- Post-Processing:Parts undergo deburring, coating, or heat treatment to meet functional or aesthetic requirements.
Success Stories of Metal Stamping Projects
FAQs
What dimension works best for sheet metal stamping?
20-24 gauge sheet metals (0.8-1.2mm thickness) represent the ideal range for stamping operations. This includes brass, copper, and sterling silver variants,
offering optimal formability while maintaining structural integrity during high-volume production.
What factors should be considered in the design of sheet metal stamped parts?
Effective stamped part design requires strategic material choice, geometric optimization, tolerance analysis, appropriate draft angles, and bend radius
specifications. Implementing DFM (Design for Manufacturability) methodologies ensures production efficiency while reducing manufacturing constraints.
What are the key steps involved in the metal stamping process?
The metal stamping workflow comprises: engineering design consultation, material specification, precision die fabrication, blanking operations,
forming processes (bending/drawing), secondary machining (piercing/threading), quality verification, and surface finishing treatments.