die stamping support
steel, stainless, copper and brass
blanking, bending and piercing
repeatable hardware production
Strip layout, carrier design, bend sequence and station count are reviewed before progressive die fabrication.
Brackets, contacts, clips, shields and plates can be stamped for stable dimensions and production cost.
Burr direction, edge quality, hole position and bend angle are planned around assembly requirements.
| Process scope | Mold design, mold making, injection molding, trial samples and production supply. |
|---|---|
| Materials | Engineering plastics, common thermoplastics and silicone materials confirmed by use case. |
| Part types | Housings, clips, covers, internal supports, sealing parts and custom molded components. |
| Mold review | Gate position, shrinkage, draft angle, wall thickness and assembly fit are checked before tooling. |
| Secondary options | Insert assembly, surface finishing, trimming, inspection and packaging. |
| Material and thickness | Specify sheet grade, temper, thickness, coating and grain direction requirements. |
|---|---|
| Critical dimensions | Call out hole location, bend angle, flatness, burr limits and fit-critical edges. |
| Production volume | Progressive die economics depend on annual demand, batch size and tool life expectation. |
| Surface condition | Confirm pre-plated, post-plated, passivated or coated requirements before tooling decisions. |
| Packaging | Stamped parts often need burr protection, orientation control and bulk or tray packaging. |
Review sheet material, strip layout, bend sequence and tolerance risk.
Build stamping tooling and run trial parts for dimensional review.
Tune press settings, burr direction and forming behavior.
Stamp production lots with inspection, finishing and packing.
Carrier design, feed pitch and station sequence are reviewed for stable repeat production.
Cut edges and burr orientation are managed for assembly safety and functional fit.
Springback and forming behavior are checked during tooling trials and production runs.
Pierced holes, slots, flatness and mounting surfaces can be inspected by drawing requirement.
Die stamping route for repeat parts
Edge and direction planning for assembly
Stable high-repeatability production lots

Formed steel, stainless or aluminum brackets with holes, bends and mounting features.

Copper, brass or plated contact parts requiring repeatable profiles and edge quality.

Spring clips, shielding plates, covers and hardware parts for assemblies.

Stamped components with plating, passivation, polishing, coating or deburring support.
It is best for repeat sheet-metal components where volume, stable geometry and tooling investment justify automated production.
Steel, stainless steel, aluminum, copper, brass and project-specific sheet metals can be reviewed.
Material thickness, bend angle, hole location, burr direction, flatness and coating requirements should be clearly marked.
Yes. Plating, passivation, coating, polishing, cleaning and packaging can be coordinated.
Tooling design, punch condition, die clearance and burr direction planning help reduce burr-related assembly risk.
Yes. Tooling review, die fabrication, trial stamping and batch production support are available.
Simply upload your product blueprints. Our engineering division will analyze your files and provide a Free DFM report and pricing quote within 24 hours.