Laser Welding & Structural Assembly

Precision Welding & Assembly in Singapore

Laser welding and TIG / MIG structural assembly for stainless steel, aluminium, carbon steel and more. Minimal distortion, narrow heat-affected zone, and clean cosmetic welds — from precision medical enclosures to heavy structural frames, all from our Singapore facility.

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Welding & Structural Assembly Samples

Explore welding and structural assembly samples for stainless steel, aluminium, sheet metal parts, frames, brackets, enclosures, equipment housings, and custom fabricated structures. Our welding and assembly service supports clean joints, stable structures, small-batch fabrication, and integrated finishing for industrial, architectural, marine, and equipment manufacturing projects in Singapore.

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Welded angle metal profile for frames, brackets and custom structures
Laser welding equipment for custom metal welding and structural assembly projects
Welded steel frame structure for custom fabrication and load-bearing assembly
Welded circular metal component with clean joint and finished surface
Welded stainless steel tube part for pipe, frame and assembly applications
Welded sheet metal tray for enclosure, housing and equipment assembly
Welded metal bracket assembly for precision fabrication and structural support

What We Do

Welding Capabilities

We offer three welding processes under one roof — laser welding for precision and cosmetic joints, TIG for high-quality visible welds, and MIG for structural volume work. The right process is selected per application.

0.1 – 0.8mm

Laser Weld Bead Width

bead width; material and thickness dependent

Narrow bead width minimises distortion on thin sheet and precision enclosures. Ideal where adjacent surfaces must remain flat.

2000×1000 mm

Max Assembly Size

max assembly envelope

Welded assemblies up to full structural frame size. Large jigs available for long linear welds and box structures.

Up to 12mm

Single-Pass Penetration

laser single-pass; TIG/MIG up to 25mm+

Deep penetration without multiple passes reduces heat input and distortion. Thick plate uses multi-pass TIG or MIG.

All types

Joint Types

butt · lap · T-joint · corner · fillet

Butt, lap, T-joint, corner, edge, and fillet welds. Laser welding especially suited to butt and lap joints on thin sheet without filler.

Laser + TIG + MIG

Processes Available

all three in-house — process selected per job

Fibre laser welding for precision and cosmetics. TIG (GTAW) for high-quality visible joints. MIG (GMAW) for structural volume production.

Custom jigs

Jigged Assembly

built in-house for each assembly type

Custom weld jigs and fixtures hold parts in dimensional position during welding — critical for angular accuracy and repeat consistency across batch.

Materials

Metals We Weld

10+ weldable alloys processed in-house. Filler rod selection, shielding gas, and pre/post-weld treatment are matched to each material to ensure full-strength, defect-free joints.

Stainless steel 304 and 316 material for welding frames, enclosures, brackets and clean metal assemblies
Most Popular

Stainless Steel 304 / 316

TIG / Laser

Austenitic SS — full penetration TIG welds for structural joints; laser welding for cosmetic and precision enclosure seams. Post-weld passivation available.

Mild and carbon steel material for welding structural frames, brackets, bases and fabricated parts
Structural

Mild / Carbon Steel

TIG / Laser

S275, S355. MIG for structural frames and high-volume fabrication; TIG for cleaner visible joints. Welded assemblies up to 25 mm plate.

Aluminium 5052 and 6061 material for welding lightweight frames, panels and custom assemblies
High Demand

Aluminium 5052 / 6061

TIG / Laser

AC TIG with pure argon shielding. Enclosures, frames, marine brackets. 6061-T6 heat-affected zone managed with pre-heat sequencing.

Stainless steel 316L material for hygienic welding of food, medical and cleanroom equipment parts
Semiconductor

Stainless Steel 316L

TIG / Laser

Semiconductor process tubes, optical windows. Requires specialised CO₂ parameters.

Duplex stainless steel material for TIG welding of offshore, chemical plant and corrosion-resistant assemblies
Electrical

Duplex Stainless Steel

TIG

2205, 2507. High strength and corrosion resistance for offshore and chemical plant. Inter-pass temperature control critical to maintain duplex microstructure.

Tool steel and hardened steel material for laser repair welding of mould cavities, die edges and hardened fixtures
HVAC / Infra

Tool Steel / Hardened Steel

Laser

Repair welding on mould cavities, die edges, and hardened fixtures. Laser welding minimises HAZ and avoids annealing of the surrounding hardened zone.

Aluminium 7075 and 2024 aerospace alloy material for laser welding of high-strength precision joints
Tooling

Aluminium 7075 / 2024

Laser

High-strength aerospace alloys — difficult to TIG weld due to hot-cracking. Laser welding with tight parameter control achieves sound joints.

Copper and brass materials for laser welding of bus bars, brass fittings and precision conductive components
Precision

Copper & Brass

Laser

High thermal conductivity makes TIG/MIG difficult. Laser welding delivers focused energy for clean lap and butt joints on copper bus bars and brass fittings.

Working with a dissimilar metal joint or an unusual alloy? Send us your drawing and material spec — we’ll advise on the most suitable welding process and filler selection.

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Typical Applications

Where Welding & Assembly is Used

Welding is the bridge between cut parts and finished assemblies — from precision medical enclosures that must be hermetic to structural offshore frames designed for decades of service.

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Industrial Automation

Machine Frames & Structural Assemblies

Machine bases
Gantry frames

Equipment stands

Welded mild and stainless steel machine bases, gantry frames, conveyor structures, and equipment mounting frames. MIG welding for structural volume; TIG for visible joints and stainless finishing.

Semiconductor & Electronics

Precision Enclosures & Chambers

Vacuum chambers Precision enclosures

Laser-welded stainless steel enclosures, vacuum chamber sections, and shielded housings. Narrow bead and minimal distortion preserve dimensional accuracy for mating flanges and sealing surfaces.

Marine & Offshore

Structural & Pipe Fabrication

Pipe spools
Structural brackets
Module frames

316L stainless and duplex steel pipe spools, structural brackets, and module support frames. Purge-back TIG welding for full-bore pipe joints; weld maps and inspection documentation available.

Medical & Cleanroom

Hygienic Welded Assemblies

Medical trolleys
Instrument trays
Equipment frames

316L SS trolleys, equipment frames, and instrument trays with continuous crevice-free welds. Ground and polished to Ra ≤ 0.8 μm for cleanroom and food-grade surface requirements.

Architecture & Interiors

Architectural Metalwork & Furniture

Handrails
Feature staircases
Furniture frames

Stainless steel handrails, feature staircases, custom furniture frames, and architectural screens. TIG welding produces smooth, undetectable joints that blend seamlessly into polished and brushed finishes.

Food & Beverage

Food-Grade Processing Equipment

Tanks & hoppers
Food conveyors
Processing surfaces

316L SS tanks, hoppers, conveyors, and food contact surfaces. Continuous internal welds ground flush and electropolished. Hygienic design compliant with EHEDG and 3-A sanitary standards.

From Drawing to Delivery

Six steps, transparent at every stage. Most orders quote within 24 hours.

Upload drawing for custom metal cutting quote

Upload Drawing

DXF, DWG, PDF, or STEP. We accept most 2D/3D formats.

Engineering review before metal cutting production

Engineering Review

We check tolerances, material fit, and flag any DFM issues before quoting.

Quotation step for custom metal cutting projects

Quotation

Detailed quote within 24h — material, thickness, quantity, finish noted.

Metal cutting production based on approved drawings

Production

Cutting run on our CO₂ laser. Parameters selected per glass type and thickness.

Quality check for laser cut metal parts

Quality Check

Dimensional verification. First-off approval for new jobs; batch sampling for repeats.

Delivery support for finished metal cutting projects

Delivery

Same-day dispatch for in-stock jobs. Local Singapore delivery or self-collect.

Why Choose Us

What Makes Our Welding & Assembly Different

Welding quality is invisible until it fails. We design the process — jig, sequence, parameters, post-weld treatment — to ensure joints that hold for the life of the assembly.

Fit-up review before welding to improve joint alignment and assembly accuracy

Cut, Bend and Weld from One Supplier

Our laser cutting, CNC bending, and welding are all in-house. Laser-cut and bent components go directly to welding — no inter-supplier dimensional variation, no re-measurement, no split delivery. Your assembly is dimensionally consistent because every upstream operation is ours.

Clean welded metal surface prepared for finishing, polishing or inspection

Jigged for Dimensional Accuracy Across Batches

For repeat assemblies, we build custom weld jigs that locate every component in the correct position before the first arc is struck. This eliminates angular variation and ensures every unit in a batch is dimensionally identical — critical for assemblies that must mate with customer equipment in the field.

Controlled structural assembly for welded frames, brackets and fabricated parts

Laser Welding for Precision & Cosmetic Joints

Laser welding produces a bead as narrow as 0.1 mm with minimal heat input — far less distortion than TIG on thin sheet. For precision enclosures, cosmetic visible seams on brushed stainless steel, and joints near heat-sensitive components, laser welding is the correct process. We recommend it where dimensional stability and appearance matter most.

Weld finishing support for smoother surfaces and production-ready metal assemblies

Post-Weld Treatment Included

We don't just weld and ship. Depending on your application, we offer weld spatter removal, slag grinding, weld bead dressing, passivation for stainless steel, and surface finishing to Ra ≤ 0.8 μm. The right post-weld treatment is included in the quote — you don't need to find a separate finisher.

Process Comparison

Laser Welding vs TIG vs MIG — When to Use Each

All three processes are available in-house. The right choice depends on material, thickness, joint access, and finish requirements.

Criterion Laser Welding TIG (GTAW) MIG (GMAW) Spot Welding
Weld bead width 0.1–0.8mm 2–6mm typical 4–8mm typical N/A (nugget)
Distortion on thin sheet
Very low
Moderate
Higher heat input
Low
Cosmetic finish Excellent — minimal dressing Good with skill Requires grinding Visible indentation
Deposition rate / speed
Very fast (automation)
Slow
Fast
Very fast
Suitable material thickness
0.1–12mm
0.5–25mm+
1.5–25mm+
0.3–4mm (overlap)
Filler rod required
Not always (autogenous)
Usually yes
Always
No

Featured Projects

Welding & Assembly Work We've Delivered

A selection of recent welding and structural assembly projects — from precision cleanroom enclosures to heavy marine structures.

View All Welding & Assembly Projects →

Laser-Welded Vacuum Enclosure

316L SS · Laser weld · Leak-tested · 20 units

Offshore Module Support Frame

316L SS · TIG weld · Weld map · 8 assemblies

Cleanroom Equipment Trolley

316L SS · TIG · Ra ≤0.8μm · Passivated

Pair With

Services That Work Well Together

Welding is the final fabrication step — everything upstream feeds into it.

Metal cutting support before welding for accurate profiles, plates and structural components
Before welding

Metal Cutting

Laser-cut all components in-house before welding — consistent dimensions, no inter-supplier errors.

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CNC bending support before welding for accurate brackets, panels and formed sheet metal assemblies
Before welding

CNC Bending & Folding

Form cut blanks into enclosure sides and channels before welding into finished box assemblies.

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Grinding and polishing support after welding to remove weld marks and improve surface finish
After welding

Polishing & Grinding

Dress weld beads, blend seams, and achieve specified Ra surface finish on completed assemblies.

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Laser cleaning support before welding to remove oxide, oil and surface contamination
After welding

Laser Cleaning

Remove weld oxide discolouration and heat tint from stainless steel without abrasive methods.

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FAQ

Welding & Assembly Questions

These are some of the common questions customers ask before sending drawings or requesting quotation.

Choose laser welding when you need minimal distortion on thin sheet (under 3 mm), a very narrow weld bead for cosmetic or precision joints, high-speed welding on repeat production runs, or when the joint is in a location where TIG torch access is limited. TIG is better for thicker material, joints requiring filler rod for gap-bridging, and when a wider, more robust bead is acceptable. For most precision enclosures and thin-wall stainless steel work, laser welding is the correct choice.

Yes. We offer visual weld inspection per ISO 5817, dimensional inspection reports, and weld maps for structural assemblies. For marine and offshore customers we can provide material traceability certificates and mill certificates for base material and filler rod. Dye penetrant (DP) testing and pressure/leak testing are available on request. Please specify your documentation requirements when quoting so we can include them in the scope.

Yes. Aluminium TIG welding uses AC current with pure argon shielding to break the oxide layer. We weld 5052, 6061, and 1100 series regularly. 6061-T6 loses strength in the heat-affected zone — for structural applications where strength is critical, we can advise on post-weld heat treatment or design changes that minimise the HAZ impact. 7075 and 2024 are prone to hot cracking with TIG; for these alloys we recommend laser welding with controlled parameters.

We offer weld spatter removal, weld bead grinding and blending, passivation of stainless steel (citric acid or nitric acid per ASTM A967), electropolishing for hygienic surface finishes, and surface grinding to specified Ra values. For food-grade and pharmaceutical assemblies, we can achieve Ra ≤ 0.8 μm on weld zones. All treatments are included in the quote — you receive a finished assembly, not a raw welded part that needs further processing elsewhere.

Both approaches work. For full-service jobs, we laser cut, CNC bend, and then weld in-house from your 3D model — one supplier, one delivery. If you have parts already cut elsewhere, we can receive them and weld to your assembly drawing. For batch repeat assemblies, supplying your own cut parts is also fine — just ensure parts arrive deburred and dimensionally verified to your drawing before delivery.

Some dissimilar metal combinations are weldable with the right filler selection — for example, 304 SS to mild steel using austenitic filler (ER309), or copper to stainless using laser welding with a transition layer. Others, such as aluminium to steel, are generally not weldable by fusion methods due to intermetallic compound formation. If you have a dissimilar metal joint requirement, send us the material combination and joint geometry and we’ll advise on feasibility and the recommended approach.

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Welding & Assembly Work We've Delivered

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Send your drawing or project requirement for review. We can discuss materials, related processing needs and a practical next step for your project.

 

Confidentiality Note

We understand the value of your design files. The information you submit will be used only for project evaluation, quotation and production communication. We take customer confidentiality, data security and intellectual property protection seriously.