Browse by Editorial Category
Browse by Edition Date

September 2024

Skip Navigation Links.
Expand Applying TechnologyApplying Technology
Collapse Current NewsCurrent News
Benefits of Laser Welding
Assistive Scheduling Solution for Automotive Suppliers
Allways Precision LLC Announces Major Business Expansion
Research Paper Discusses Importance of Lightweighting Via AM
AMSOIL Acquires Aerospace Lubricants
Armstrong International Breaks Ground on Manufacturing Wing
Baker Industries Adds EMCO MECOF Powermills
BIG DAISHOWA Opens Facility to Increase Manufacturing Capacity
Brooklyns Tactical Solution to Close the Manufacturing Skills Gap
CHIRON Open House in Charlotte
CLOOS Opens New North American Headquarters
High-Precision Gear Cutting of the E-Car Rotor Shaft in a Fast Cycle
EMUGE-FRANKEN USA Celebrates 40th Anniversary
FABTECH 2024 Heads to Orlando
FANUC America Unveils New $110 Million Robotics and Automation Campus
Automatic Reverse Stop Makes Cleaning Easier
Contain-It Kits for More Efficient Shop Clean-Up
Heater Specialists Acquires ParFab Industries
Wisconsin Ultra-High-Precision Shop Expands
Hexagon Enters Strategic Partnership with Paperless Parts
Expanded PCD Offering
Achieving Standardization in Robot Programming
IMTS 2024 Conference Sessions Announced
Rethinking Supply Chain Operations
Lucas Oil Opens New Grease Plant
Air Gauging Catalog Available
Marotta Controls Unveils State-of-the-Art Facility
Best Buy Filter Kits
MASABA Announces Expansion
Florida Mfg. Technology Oktoberfest 2024
U.S. Senator Tina Smith Visits MITGI
Moxa Joins the Mitsubishi Electric e-Factory Alliance Program
MODIG and IBARMIA Enter into Partnership
OptiPro Systems Breaks Ground on Building Addition
Pat Mooney Saws Celebrates 75 Years
2024 PRI Show Registration Opens
Steel Turning Grade for High-Feed Roughing
Solutions for Optimized Part Processing
Solara Automation Acquired by AAE to Expand Factory Automation Solutions
Sugino andamp; Dynamic Machine Distribution Agreement
SwRI New Hypersonic Engine Research Facility
Modular Turning Tool System for Swiss Machines
Enhanced Insert Clamping for Heavy Grooving Operations
Value Chain Transformation
Milling Cutters for Ceramic Inserts
CBN Inserts for Hard Machining
West Ohio Tool Certified for Government Defense and Aerospace Contracts
Expand FABTECH ShowFABTECH Show
Expand IMTS Product PreviewIMTS Product Preview
Expand People In The NewsPeople In The News
Expand Quality ControlQuality Control
Expand WeldingWelding
Expand WorkholdingWorkholding

show all editions →

Click here to watch Tutorial Videos >

SST ConsumablesSST ConsumablesIscarIscar

Benefits of Laser Welding



When it comes to metal fabrication and industrial welding, TIG welding has long been unmatched for its versatility and quality, until now. New on the scene, high-powered laser welding uses a highly-concentrated heat source to weld metal with intricate precision. But, what is all the fuss really about? Does laser welding really live up to the hype?

Let us start at the beginning. What is the definable difference between TIG welding and laser welding? Two different methods for joining materials, in this case metals, TIG welding has long been the go-to for welders. Using a combination of heat and filler metal, TIG welding melts and bonds seams together. This traditional method is used for a reason. It is cost-effective, enables detailed welds and most machine operators are familiar with the techniques. Laser welding, on the other hand, uses a laser beam to direct a concentrated blast of energy at one point until it reaches its melting point and bonds. A versatile method, laser welding does not require filler, produces less heat and provides a high-quality weld.

What is so much better about laser welding? For one, while it takes years to become proficient in TIG welding, laser welding requires less training time and less experience. Even a novice welder should be able to use a laser welder to produce a finished fabrication build with minimal to no defects.

Secondly, the turnaround speed for projects that use laser welding can be as much as 25% faster when compared with traditional TIG welding. The main reason for this is that laser welding limits the chances of thermal deformation and gets rid of any need for pre- or post-weld processing steps, such as pre-brushing metals.

Thirdly, laser welding has wider material compatibility. With its high-heat generation, TIG welding is not great for all materials, some of which include aluminum and stainless steel. On the other hand, laser welding is compatible with both of those materials, as well as carbon steel, brass and even plastics. Plus, it handles thicker materials with ease, providing better weld penetration depth.

"One of only five laser welders in the nation, at Acosta Sheet Metal Manufacturing, we have seen the effectiveness of laser welding for ourselves," said a company spokesperson. "Since we invested in our laser welder in 2021, not only have we seen a dramatic increase in productivity, but we have also seen how its use positively impacts the efficiency of our workflow. The ability to deliver consistent, high-quality products in less time is invaluable to us and our customers. We are lucky to also have the support of the Sheet Metal Workers' Local 104 and the Bay Area Industry Training Fund, which continues to invest in the next generation of welders. In the future, laser welding is going to be vital for industries like sheet metal manufacturing, automotive manufacturing, medical device manufacturing, aerospace and more."

Authored by Acosta Sheet Metal Manufacturing

For more information contact:

Acosta Sheet Metal Manufacturing

930 Remillard Court

San Jose, CA 95122

408-275-6370

www.acostamfg.com

< back