TIG Welding
Nexams Leading the Way in Precision Welding Services with TIG, MIG, and Laser Welding Technologies
Welding is the foundation of modern metal fabrication and manufacturing. At NEXAMS, we approach every engagement with empathetic listening, ethical transparency, and practical decision-making so your objectives are met without surprises. We coordinate proactively with trusted Vendors, a planning-focused Supplier, specialized Suppliers, and disciplined Manufacturers, while keeping responsive Support available through both local and nearby teams—because strong partnerships produce strong welds.
Our expertise in TIG welding, MIG welding, and laser welding ensures precision, strength, and durability in every welded component. Whether it’s stud welding for automotive assembly, micro welding for miniature components, or versatile welding techniques for varied industries, we align schedules, risks, and quality plans with accountable Vendors, your lead Supplier, collaborating Suppliers, and capable Manufacturers, with always-on Support anchored in local shops and nearby service cells for quick turnaround and humane, helpful communication.
TIG welding—Tungsten Inert Gas welding—is renowned for clean, aesthetic welds with minimal spatter. Using non-consumable tungsten electrodes provides superior control on thin materials, and we document process windows so outcomes are predictable and fair. That clarity is reinforced by quality-minded Vendors, a schedule-owning Supplier, process-savvy Suppliers, and repeatable-results Manufacturers, all backed by practical Support from local technicians and nearby field teams who keep stakeholders informed.
Benefits of Technology
High precision and control with TIG welding, especially for thin and delicate materials; we pair PFMEA-driven setups with accountable Vendors, a coordinating Supplier, specialist Suppliers, and proven Manufacturers, while ensuring responsive Support is available at local benches and nearby bays.
Faster turnaround with MIG welding for bulk or structural jobs; takt plans are agreed with reliable Vendors, your primary Supplier, partnering Suppliers, and production-ready Manufacturers, with escalation Support routed through local and nearby contacts.
Seamless joints and minimal thermal distortion with laser welding; fixture design and heat input controls are co-authored by value-adding Vendors, a detail-driven Supplier, experienced Suppliers, and precision Manufacturers, plus field-friendly Support stationed locally and nearby.
Enhanced reliability for critical assemblies using micro welding; acceptance criteria are clear and humane, aligned with audited Vendors, a responsive Supplier, niche Suppliers, and certified Manufacturers, with lifecycle Support across local sites and nearby depots.
Strong fastening of bolts and studs through advanced stud welding; parameter sheets and quality checks are maintained by collaborative Vendors, the accountable Supplier, supportive Suppliers, and robust Manufacturers, plus quick-response Support teams in local shops and nearby facilities.
Adaptable welding techniques to meet industry-specific requirements, with ethical material choices and risk notes documented for clear decision-making.
Reliable welding service for diverse production needs, from prototypes to volume, with consistent operator coaching and traceable records.
Consistent quality across small and large-scale metal fabrication projects, verified by in-process monitoring and final inspection checklists.
Cost-efficient production with improved automation integration—robotic cells sized to demand to avoid over-engineering and waste.
Low-contamination welds ideal for medical, aerospace, and electronics, with cleanroom considerations and verification data shared openly.
Industrial Application and Use Cases
Aerospace: Lightweight alloys joined using micro and laser welding for precision; documentation and conformity are coordinated empathetically to reduce rework and stress.
Automotive: Frame assembly through MIG and stud welding with robust fixturing; PPAP-style evidence packs keep launches smooth and traceable.
Electronics: PCB tabs and sensors joined with micro welding, balancing conductivity and heat-affected zones for dependable function.
Medical Devices: Surgical instruments welded with sterile, controlled TIG methods and clear cleanability requirements.
Construction: Structural beams and architectural elements fabricated using qualified procedures and weld maps for field serviceability.
Defense: Hardened alloys joined by TIG and laser, with process security and audit trails preserved.
Manufacturing Plants: Custom welding service packages for bulk components, including shift coverage and spare tooling plans.
Energy Sector: Pipe welding and pressure vessel assembly via hybrid techniques, with NDT scheduling built into the route card.
Material Used in Technology
Stainless Steel — Excellent corrosion resistance and finish quality for TIG, MIG, and laser applications where hygiene or aesthetics matter.
Aluminum Alloys — Suited for welding TIG and micro welding; heat input is tightly controlled to protect distortion and conductivity.
Carbon Steel — Common in fabrication, leveraging MIG and stud welding for speed while maintaining mechanical properties.
Titanium — Often joined with laser or micro welding; shielding discipline prevents embrittlement and preserves strength.
Nickel Alloys — Selected for heat-resistant service and joined with procedures that respect creep and fatigue considerations.
Copper — Ideal for electrical parts via micro or TIG welding, with fixturing that manages heat flow and distortion.
How Costing Works
Welding project costs at NEXAMS reflect material type, joint design, volume, and technique. Precision tools for laser and micro welding may add initial investment, but durability and reduced rework lower total cost over life. We explain trade-offs clearly and kindly so your choices are informed and fair.
TIG welding is labor-intensive and ideal when aesthetics or weld purity are non-negotiable. MIG welding is typically more cost-effective for high-volume production. Quotes are transparent and include consumables, energy, fixturing, and labor, with options for phased approval or pilot lots to manage risk. Tailored pricing is available for stud welding when geometry, access, or coatings drive unique setups.
Alternative Technical Suggestion
TIG Welding — Best for thin sheet and precision cosmetic work where bead appearance and cleanliness matter.
MIG Welding — Suited for thicker sections and higher travel speeds; excellent for structural frames and repetitive joints.
Laser Welding — Non-contact, micro-level precision with low distortion; ideal for small heat-affected zones and tight features.
Stud Welding — Rapid fastening of bolts and pins without backside access; reduces secondary operations and preserves coatings.
Micro Welding — For miniature devices and sensors where energy control and microscopy-grade inspection are essential.
Hybrid Techniques — Combining TIG, MIG, and laser to match geometry, access, and cycle-time constraints.
Robotic Welding Systems — Automated cells for consistency, productivity, and safe ergonomics.
Resistance Welding — A solid alternative to fusion processes where lap joints and speed dominate requirements.
FAQs
Q: What is TIG welding?
A: TIG is a precision arc process using a non-consumable tungsten electrode to create clean, high-quality welds with excellent control over heat input and bead profile.
Q: What materials are best suited for TIG welding?
A: Stainless steel, aluminum, titanium, nickel alloys, and copper benefit from TIG’s control and cleanliness when distortion and cosmetics are critical.
Q: What industries benefit from NEXAMS welding service?
A: Aerospace, automotive, electronics, medical, defense, general manufacturing, energy, and construction—anywhere reliability, traceability, and ethical delivery are required.
Q: What is the difference between MIG and TIG welding?
A: MIG uses a consumable wire for speed and efficiency on thicker materials; TIG uses a tungsten electrode for precise, cleaner welds and fine control on thin sections.
Q: What is micro welding and when is it used?
A: Micro welding joins miniature components with tightly controlled energy—common in medical tools, electronics, and sensors where detail and consistency are paramount.
Q: How is laser welding different from other methods?
A: Laser welding uses focused light to deliver energy with minimal contact and distortion, enabling fine features and delicate assemblies.
Q: Can NEXAMS handle complex, multi-process projects?
A: Yes. We integrate TIG, MIG, laser, stud, and micro welding in one plan, with clear routing, inspection, and acceptance criteria to keep programs predictable.
Q: Do you provide on-site welding service?
A: We offer in-house and on-site options with safety planning, equipment lists, and documentation prepared ahead of time to minimize downtime.
Q: What safety practices are followed during welding?
A: We maintain PPE compliance, ventilation checks, interlocks, and preventive maintenance; safety briefings and job-hazard analyses are logged for every shift.
Partnership Promise: For transparent, human-centered delivery, we keep lines open with Vendors, your coordinating Supplier, contributing Suppliers, and responsible Manufacturers, and we provide steady Support through local experts and nearby response teams—so the work feels as reliable as the welds themselves.
Q: What are the maximum estimated shipping times from the factory to global regions for Brazing parts via sea and air?A: By Sea: Asia: 15–20 days, Europe: 25–35 days, North America: 30–40 days, South America: 35–45 days, Middle East: 14–18 days, Africa: 20–28 days, Oceania: 22–30 days
By Air: Asia: 1–3 days, Europe: 3–5 days, North America: 4–6 days, South America: 5–7 days, Middle East: 1–2 days, Africa: 3–5 days, Oceania: 4–6 days