Tag Archives: Laser Welding

The Top Five Reasons Why Laser Professionals are LIA Members

Posted on by
Reply

Laser Institute of America offers myriad opportunities for laser professionals to expand their education, professional network, and develop their laser careers.

Did you know that becoming an LIA member increases these opportunities exponentially?

Here are just five of the many reasons why laser professionals enjoy the benefits of LIA membership. If you are already a member, this blog will help you uncover how to get the most out of your LIA membership now and in the future.

1. LIA Members Receive Unprecedented Access to Industry Publications and Sources

Stay on top of the latest in lasers! LIA members receive a complimentary subscription to our renowned bi-monthly newsletter. Available in print or online, LIA TODAY features critical details such as information about upcoming conferences and events and features on interesting developments within the laser community.

Members also receive a complimentary subscription to the peer-reviewed Journal of Laser Applications. This internationally recognized publication features articles on specific laser applications and is known as an invaluable resource for laser professionals. In addition, LIA members enjoy special member rates on LIA publications available in the online store.

Lasers Today is the trusted source for blogs and articles regarding the latest in lasers and breaking LIA updates. Subscribe to the blog for email updates on the LasersToday.com home page, or follow us on Facebook for updates posted socially.

LIA TODAY features critical details such as happenings within LIA, information about upcoming conferences and events, and as well as features on interesting developments within the laser community.

2. LIA Members Receive Discounts on Educational Materials

Special member rates are available to LIA members for the purchase of essential laser applications publications and safety training guides and videos. These resources are great for any laser professional looking to improve upon their technical or safety knowledge.

LIA members also receive discounts on our Laser Safety Training Courses. Members can take advantage of special rates on Laser Safety Officer training and other fundamental courses, giving each participating LSO a leg up on their laser safety knowledge. This can mean major savings in the long run, should you wish to continue your laser safety training over time (and we recommend you do!).

LIA members also receive discounts on our Laser Safety Training Courses.

3. LIA Members Enjoy Reduced Registration Costs for Conferences and Seminars

One of LIA’s major cornerstones is its involvement and leadership in industry conferences and seminars. While these events are worth every penny, members receive significant discounts on registration costs.

With the inaugural Industrial Laser Conference and ICALEO® right around the corner, it has never been a better time to become a member. LIA conferences and seminars are known for their informational panels and networking opportunities, with many guests returning year after year. You do not want to miss out on the opportunity to be in attendance (and save a few dollars!) this year.

With the inaugural Industrial Laser Conference and ICALEO® right around the corner, it has never been a better time to become a member.

4. LIA Members Receive Networking Opportunities

Any event, conference, or seminar associated with LIA will likely bring you face to face with the foremost industry leaders, researchers, and notable figures involved in lasers. The Laser Additive Manufacturing Workshop (LAM®), ILSC®, and other occasions throughout the year help to connect the dots within the industry, and allow you to put a face with a name.

Most of LIA’s conferences have specific networking features, providing built in time where professionals can mingle and connect in between formal sessions. Who knows? Perhaps you will find your next star employee, research partner, or valuable mentor at one of our events!

5. LIA Membership Can Advance Your Career as a Laser Industry Professional

By attending LIA events, taking advantage of available courses, and reading industry publications, your laser knowledge will expand with your LIA membership. LIA also offers ample volunteer opportunities that may land you face time with future employers, colleagues, and partners. The LIA name carries weight within the laser community. The affiliation alone could potentially lend you credibility as a laser professional. You never know who you may meet at ICALEO or LME leading to life-changing opportunities.

By attending LIA events, taking advantage of available courses, and reading industry publications, your laser knowledge will expand with your LIA membership.

Interested in joining the premier educational and networking resource for laser professionals? To learn more about LIA membership, fill out an application, or find information on individual membership costs, please visit us at www.lia.org/membership .

 Be sure to check out information about upcoming conferences, including the Industrial Laser Conference and ICALEO, through our Lasers Today posts.

LIA Introduces Three Laser Safety and Welding Publications to its Online Store

Posted on by
Reply

For Immediate Release

ORLANDO, FL (August 9, 2016) – Laser Institute of America (LIA) is proud to announce the release of three laser publications now available for purchase in its online store (https://www.lia.org/store), the laser industry’s one-stop-shop for the most valuable and current laser safety and practical applications resources. The publications, which include Laser Safety Tools and Training, Laser Welding, and Hybrid Laser-Arc Welding, represent a handful of several ongoing additions to the critical laser safety and applications publications already available in LIA’s easy-to-navigate online marketplace.

Laser Safety Tools and Training 2nd Edition covers the fundamentals of laser safety information, including the use of critical lasers. Students, entry level users, and laser experts can all benefit from the information found within. The text, written by a laser safety professional, considers the safety of the self, as well as others. Providing materials surrounding laser research standards, lab design, accidents, and protected eyewear.. New to the second edition is the inclusion of Z136.8 Research Laser Standard. Eye exposure limits, new case studies, lab designs, and laser disposal are also covered in the new edition. Laser Safety Tools and Training 2nd Edition is available in the LIA store here: https://www.lia.org/store/LSAFPUB/240

Laser Welding helps to provide a practical understanding of laser welding. Covering basic welding principles, industrial applications, as well as laser welding safety, Laser Welding is ideal for the laser professional looking to expand their knowledge of real world welding-based laser applications. Included in the publication are chapters on welding sheet metal parts, performance control and monitoring, installing and operating a laser, as well as glossary of common terminology.  Laser Welding is available in the LIA store here: https://www.lia.org/store/LSAFPUB/238

Hybrid Laser-Arc Welding (HLAW) provides a comprehensive look at hybrid laser-arc welding practices and technology. This publication is essential for anyone who uses welding technology or wants to learn more about this method that combines laser welding and arc welding. Part One of the text focuses on HLAW characteristics, specifically the properties of joints created by hybrid methods. Assessing the quality of a weld is also covered. Part two discusses the applications pertaining to specific metals such as aluminum, steel, and magnesium alloys. This section will also provide information pertaining to hybrid laser-arc welding applications for ships and automobiles. Hybrid Laser-Arc Welding is available in the LIA store here: https://www.lia.org/store/LSAFPUB/239

To purchase these learning and safety tools, along with a variety of regularly-updated laser safety and practical applications content, please visit www.lia.org/store   — and check back often for more publications and resource updates.

About LIA

The Laser Institute of America (LIA) is the professional society for laser applications and safety serving the industrial, educational, medical, research and government communities throughout the world since 1968. www.lia.org, 13501 Ingenuity Drive, Ste 128, Orlando, FL 32826, +1-407-380-1553.

Why Was the Industrial Laser Conference Created?

Posted on by
Reply

Why was the Industrial Laser Conference created, who is it for, and how can it help advance your industrial manufacturing career? This blog explains it all.

Registration is now open for Laser Institute of America’s inaugural Industrial Laser Conference, to be held at the International Manufacturing Technology Show on September 13, 2016 at the renowned McCormick Place in Chicago. All the buzz about this new conference by LIA may have you wondering why the Industrial Laser Conference was created, who it’s designed for, and most importantly, how it can help advance your manufacturing career. These four pillars of the conference say it all:

1. It’s Designed for the Manufacturing Professional: Designed exclusively for the industrial manufacturing professional, the conference will showcase laser applications that are driving the evolution of manufacturing. From manufacturing directors to automation engineers to production specialists, every member of the industrial manufacturing workforce can benefit from attending this conference, learning over the course of a full day how to leverage lasers into their manufacturing processes in a high-tech, high-demand market.

2. It Was Created to Meet Industry Demands: As Industrial Laser Conference Program Chair Elizabeth Kautzmann of FANUC America Corporation explains, these innovative techniques are emerging and revolutionizing the industry to meet market demands, all rooted in the field’s collective understanding of conventional machining. “Just as significant as discussions about technology, are the means by which legacy manufacturers can incorporate and powerfully exploit the versatility of the technology,” Kautzmann said. “We can now migrate conventional subtractive processes into realms where newer approaches, which combine innovative and fresh perspectives based on solid manufacturing building blocks, are already in place.”

3. It Provides Laser and Manufacturing Professionals with the Tools They Need to Succeed: This event is perfect for both industrial manufacturing professionals who want to improve their laser program – and those who have considered lasers as part of their processes before, but haven’t made the leap just yet. From the novice to the expert, every member of the industrial manufacturing spectrum can benefit from this future-forward event that is 100 percent focused on your individual and collective success.

4. It Covers All Industrial Applications of Lasers: The event covers industrial applications of lasers, such as: Additive Manufacturing, Cutting, Welding, Marking and more. Most importantly, we will show you how to apply lasers to increase your profits & efficiency.

Inspired yet? Learn even more about the Industrial Laser Conference – and why you should be there in our Five Things to Know blog. You can also sign up today: Click to register. If you have any additional questions, we’d be happy to help. Contact our Conference Team: conferences@lia.org, or +1.407.380.1553.

Five Things You Should Know About LIA’s Industrial Laser Conference

Posted on by
Reply

There’s more to this inaugural conference than you think. 

Have you heard the buzz about our inaugural Industrial Laser Conference?  This one-of-a-kind industrial laser event is presented by Laser Institute of America and will be held at the September 2016 International Manufacturing Technology Show (IMTS) in Chicago. It is the foremost way for you and your team to learn how to incorporate lasers into your manufacturing processes, so you can stay competitive – and grow – in the current high-tech market.

Debuting on Tuesday, September 13, 2016 at the world-renowned McCormick Place, the Industrial Laser Conference will cover the spectrum of industrial applications of lasers, such as Additive Manufacturing (AM), Cutting, Welding, Marking, and more. Most importantly, the experts at the conference will show you exactly how to apply lasers to increase your organization’s profits and efficiency.

We couldn’t possibly pack every engaging detail about the conference in one Lasers Today blog post, but we can share with you our five favorite things about the first-annual event. Here are the top five things you can expect at the Industrial Laser Conference – and this is just the beginning:

1. The Industrial Laser Conference will be held at the famous IMTS

IMTS will run in its entirety from September 12-17, 2016, and will showcase over 2,000 exhibiting companies and more than 114,000 attendees.

If you’re already attending IMTS – the Industrial Laser Conference is a great complement to inspiring your skill set and furthering your company. Enjoy the entirety of the IMTS event, plus the Industrial Laser Conference – or travel to Chicago to learn about leading edge industrial laser manufacturing over a course of a day.

 2. The conference is perfect for Production Pros, Manufacturing Engineers, Directors of Manufacturing, Design Engineers, Technicians – and more.

From manufacturing directors to automation engineers to production specialists, every member of the industrial manufacturing workforce can benefit from attending this conference, learning over the course of a full day how to leverage lasers into their manufacturing processes in a high-tech, high-demand market.

 3. It is chaired by FANUC America Corporation’s Elizabeth Kautzmann

Take it from us – Industrial Laser Conference Program Chair Elizabeth Kautzmann of FANUC America Corporation is ready to kick off this future-forward inaugural event. As Kautzmann explained to us in a recent interview, the innovative techniques on center stage at the Industrial Laser Conference are emerging and revolutionizing the industry to meet market demands, all rooted in the field’s collective understanding of conventional machining. You can read more about what this industrial laser leader has to say about the conference here.

 4. It’s Industrial Laser Content-Packed

Anyone who works in industrial laser manufacturing can benefit from this event. From the “Tracking Trends in Lasers” program that will discuss today’s industrial laser opportunities in depth, to the latest advances in Additive Manufacturing, Hybrid Manufacturing, and Kautzmann’s favorite, “Trends in the Trenches,” there is something for everyone at the Industrial Laser Conference. View the full program here.

5. It’s Future-Forward – and Focused on You

This event is perfect for both industrial manufacturing professionals who want to improve their laser program – and those who have considered lasers as part of their processes before, but haven’t made the leap just yet. From the novice to the expert, every member of the industrial manufacturing spectrum can benefit from this future-forward event that is 100 percent focused on your individual and collective success.

Learn More about the Event – Sign Up Now! Click to register. If you have any additional questions, we’d be happy to help. Contact our Conference Team: conferences@lia.org, or +1.407.380.1553.

The Laser Seam Stepper (LSS): A New Fiber Laser Welding Tool

Posted on by
Reply

By Michael Wiener

In today’s automotive industry — and its high-volume production environment — laser welding has become a well-established joining technology. High productivity, low heat input, and fast welding speed are some of the main advantages of laser welding compared to conventional joining technologies — such as gas metal arc welding (GMAW) or resistance spot welding (RSW).

The Laser Seam Stepper (LSS), developed by IPG Photonics Corporation, combines the advantages of RSW and conventional laser welding. The parts are pressed together by one (Poker) or two (C-Gun) pressure pieces, with a controlled clamping force up to 3000 N (Figure 1). Laser welding then takes place inside the pressure pieces, providing a Class 1 safety enclosure. In this way, no additional safety enclosure or clamping fixture is necessary, saving cost and valuable floor space.

Total weld length can be selected from 1 to 40 mm, with or without an additional weave. The frequency of the weave can be programmed between 1 and 25 Hz. An additional fume exhaust makes sure that all fumes are extracted from the process. If it is desired to achieve welds free of oxidation, shield gas (e.g., argon and nitrogen) can also be added to the process. To move the LSS to each weld location, it can be mounted on a six-axis robot (minimum 30 kg handling capacity) or gantry system.

Figure 1. The Laser Seam Stepper (LSS) is available in two versions: The C-Gun version for two-sided access (a) and the Poker version for one-sided access (b)

Laser Beam Oscillation
For overlap joints, the strength of the weld is mainly determined by its width. When conducting thick material welding or applications where increased weld strength is required, the LSS has the option to oscillate the laser beam in order to widen the weld. Figure 2 shows the comparison of two high-strength steel welds which were welded with and without beam oscillation. By weaving the laser beam the weld interface width was increased from 0.4 mm to 2.4 mm, which resulted in a shear tensile strength increase from 8.5 kN to 28 kN.

Figure 2. LSS beam oscillation comparison

Body-in-White Applications
Laser welding offers significant advantages over resistance spot welding, especially in body-in-white (BIW) applications:

  • Higher process speeds (shorter cycle time);
  • Increased component strength by longer seams with higher torsional stiffness;
  • Smaller flange width;
  • Single-sided access;
  • Repeatable high-quality weld results; and
  • Low heat input (low distortion).

The implementation of high-strength materials in the automotive industry and the increasing demand for higher stiffness and rigidity require larger weld interface areas and low heat input during welding. In many cases, this cannot be achieved by conventional resistance spot welding, mainly due to the recommended minimum distance between spot welds and the high heat input, which negatively affects the characteristics of the welded material.

On Volkswagen’s current Golf VII model, LSS welding was implemented in various applications (Figure 3). Twenty-six resistance spot welds were replaced by nine laser seam stepper welds joining the B-pillar to the rocker panel. On the roof frame, four laser welds are now applied where 10 RSW used to be required. Besides the more than 50 percent cycle time reduction, crash-test performance was also significantly improved due to the low heat input and bigger weld interface.

Figure 3. LSS welding of triangle window (a) and roof frame (b)

To meet federally mandated fuel economy standards, car manufacturers are using more and more aluminum for body panels, engine components and structural parts, to dramatically reduce vehicle weight. Due to the high thermal and electrical conductivity of aluminum compared with steel, RSW requires much higher welding currents and contact pressure, resulting in high contact heat between the electrodes and the part to be welded. Thus, the electrode tips rapidly deteriorate, affecting the quality of the weld if not frequently dressed or replaced.

In high-volume production, this can be a crucial problem. With the LSS, excellent weld results can be achieved on aluminum. The quality of the welds is very repeatable and not dependent upon the condition of the tip. Figure 4 shows a 3-T lap joint welded with the LSS. The laser power can be precisely programmed to either result in a full- or partial-penetration weld.

Figure 4. 3-T aluminum joint, with each layer measuring 1.5 mm (1); high-strength steel weld (2); aluminum weld (3); and stainless steel weld (4)

Based on the experience of more than five years in production within a fully automated car plant, various new applications with different material combinations were developed with the LSS. Typical materials can be zinc-coated or high-strength steel, as well as stainless steel or aluminum. Overlap welds can be performed in stacks of multiple layers and are not restricted to 2-T configurations. The unique design of the upper and lower pressure pieces allow a reduction of the flange width from 15 mm (required for RSW) down to 10 mm, or even 6 mm.

Assuming a total contour length of 14,200 mm on all four door frames on a midsize car, a flange reduction by 6 mm will result in a weight reduction of approx. 4 percent and an approx. increase of the entrance area by 8 percent.

Large Part Implementations
In some industries where large metal sheets are welded, the single-sided seam stepper holds a big advantage over conventional welding technologies. Implemented in several rail car, agriculture and shipyard applications, LSS showed excellent weld results due to the low distortion and elimination of any post-processing on the backside of the part, which in many cases is visible. Boat hulls are currently manufactured using the one-sided access picker version by a European ship manufacturer welding 4 mm thick stiffening structures to the outer skin panel.

This process used to be performed with metal inert gas (MIG) welding, where a costly clamping fixture and post-processing was required. Due to the implementation of laser welding, this was eliminated and the overall weld quality significantly improved (Figure 5).

Figure 5. LSS-welded boat hull (a) and railway carriage panel (b)

Railway carriages are mostly made of mild steel, stainless steel or aluminum sheet panels with reinforced profiles on the inside. These reinforcements are commonly welded to the panels using GMAW, resulting in clearly visible and significant distortion. An additional complex straightening post-process is necessary. When this manufacturing process is performed with the LSS, it can be mounted on a robot or gantry system to move the weld head to each weld location. The picker then presses the reinforcement onto the panel and starts the welding process inside the light-tight pressure piece.

Besides serving as a hold-down device to minimize the gap, the pressure piece is the safety enclosure for deflected laser radiation. Additional light tight safety cells or post-processing is not required.

As a result of close cooperation with different manufacturers, the LSS has become a highly reliable laser welding tool with an uptime availability of 99.9 percent. Due to the high repeatability of the complete system (fiber laser and LSS module), excellent production quality can be guaranteed without the need for any rework or post-processing.

Michael Wiener is a Sr. Applications Engineer with IPG Photonics.

Keep exploring the latest thought leadership from LIA and Lasers Today. Read David Belforte’s recent article on Industrial Lasers outperforming Machine Tool Sales Growth here

Take Advantage of LIA’s upcoming inaugural Industrial Laser Conference, held this year at IMTS in Chicago! For more information, including how to Register, please click here