lun-sab 8:00-18:00 (GMT+8)
Metal stamping assembly line showing welding and joining operations for stamped components

metala stampado Welding and Assembly Gvidilo

Short answer: stampitaj partoj often need welding, riveting, clinching, or threaded fasteners as secondary operations to become finished assemblies. Ofta stamped-part welding methods include resistance projection welding, laser welding, MIG/TIG, and stud welding. Joint design, material compatibility, plating, and heat-affected zone control determine the right method.

This guide is for design engineers and sourcing teams who buy stampitaj partoj that will be welded into assemblies. Understanding how stampado geometry, material, and surface finish affect weld quality helps avoid costly rework and strength failures.

Sendu your assembly drawing and weld specifications through the RFQ form. For related assembly topics, see stamped metal assemblies and secondary operations and metala stampado plating and passivation guide.

Resistance projection welding

The most common method for stamped assemblies. A projection (embossed dimple, ridge, or ring) is coined into one stamped part. Current passes through the projection, which collapses under pressure, creating a fused nugget. Avantaĝoj:

  • No filler material needed
  • Fast cycle time (0.5-3 seconds per weld)
  • Consistent nugget size when projection geometry is controlled
  • Can weld multiple points simultaneously
  • Suitable for low-carbon steel, stainless, galvanized, and aluminum with proper electrode tuning

Design recommendations for weldable stampitaj partoj

  • Projection geometry: dimple diameter 2-4 mm, height 0.3-0.8 mm for 1-2 mm material
  • Materialo thickness ratio: ideally 1:1 to 3:1 between joined parts
  • Plating: zinc plating above 8-12 microns can cause weld expulsion; consider selective plating or weld-before-plating sequence
  • Edge distance: projection center should be at least 2x material thickness from any edge
  • Materialo compatibility: weld low-carbon to low-carbon, stainless to stainless; avoid welding stainless to galvanized steel
  • Burr direction: parts should be stacked with burr facing inward to avoid interference with weld interface

Laser welding for precision stamped assemblies

Laser welding is used for hermetic seals, small components, and assemblies where minimal heat input is critical. Typical applications:

  • Battery kontakto plates and busbar assemblies
  • Medical device stamped components requiring clean welds
  • Sensor housings and electronic shields
  • Thin foil or shim stacks (0.1-0.5 mm per layer)

Fastener insertion for stamped assemblies

Many stampitaj partoj receive self-clinching fasteners (PEM nuts, studs, standoffs) or threaded inserts for bolted connections:

  • Clinching nut installation: requires hole size within 0.05 mm of spec, material hardness below HRB 80
  • Weld nuts: projection or spot weld types for thicker material or post-plating assembly
  • Helical inserts: for aluminum or soft stampitaj partoj needing reusable threads
  • Stake and rivet: malvarma formado or orbital riveting for permanent joints

Design checks before welding or assembly

Assembly problems often start in the stampado print. A flange that is too narrow, a hole placed too close to a bend, or a coating specified before welding can make a good stamped part difficult to join. Recenzo the assembly sequence while the die design is still flexible, especially when the stamped part will be plated, passivated, powder coated, or packed as a ready-to-install subassembly.

  • Weld access: leave room for electrodes, clamps, shielding gas, or laser path access. Tight return flanges may need fixture pockets.
  • Flatness and coplanarity: welded brackets and shields need kontakto surfaces controlled before joining; see the coplanarity guide.
  • Burr direction: keep burrs away from weld interfaces, sealing faces, and fastener seating surfaces.
  • Finish sequence: decide whether the part is weld-before-plate, plate-before-assembly, passivate-after-weld, or locally masked.
  • Fixture datums: define the surfaces used to locate the assembly during welding so dimensional inspection matches the build process.

What to include in an assembly RFQ

Sendu the stamped part drawings, the finished assembly drawing, material grades, thicknesses, weld callouts, finish requirements, annual volume, inspection expectations, and packaging needs. If the assembly has failed in production before, include the failure mode, such as weld pull-out, distortion, cosmetic burn marks, nut torque-out, or thread damage.

Useful companion pages include clinching and self-clinching fasteners, hardware insertion for stampitaj partoj, stamped metal assemblies, and packaging and shipping for stampitaj partoj.

Oftaj Demandoj

Can stampitaj partoj be welded after zinc plating?

Yes, but zinc plating above 8-12 microns can cause weld spatter and inconsistent nugget formation. For best weld quality, specify weld-before-plate or mask the weld area during plating.

What is the minimum flange width for projection welding?

Minimum flange width for a 2-3 mm projection is typically 6-8 mm from the weld center to the part edge. Narrower flanges risk electrode alignment issues and inconsistent nugget formation.

How does burr affect stamped part welding?

Burr on the weld interface side creates inconsistent kontakto resistance, causing variable weld nugget size. Specify burr direction away from the weld interface or include a deburring step before welding.

Submit your assembly RFQ

Sendu your assembly drawing, weld specifications, plating requirements, and annual volume through the RFQ form. Include the material grades, thicknesses, and plating of each component in the assembly.

Petu Citaĵon

Name
Please describe your project: material, dimensions, tolerances, annual quantity.
Ricevu Senpagan Citaĵon
Scroll to Top