Archive: Mar 2016

Growing Demand for Advanced Technology Drives the Laser Industry

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The demand for advanced technology and, specifically, the use of lasers in new applications, has been quickly growing across the defense and security, industrial, and medical industries. According to the research firm MarketsandMarkets, the global laser technology market is set to become a $17 billion industry by 2020.

image 1The combination of downward pressure on manufacturing costs, emerging innovative applications, and technological advancements in each of these three markets is a driving force behind this revolution. The laser systems industry is already beginning to see huge growth opportunities that are sure to continue in the near future.

Defense and Security

There has been an increased demand for laser system technology in the defense and security industries; more military applications now require laser weapons, and technology is shifting from lamp-pumped range finders to diode-pumped solutions.

In terms of quantity, laser range finders are the highest demand application in the defense industry. Compared to conventional weapons, high-power lasers have the ability to reduce cost per shot, and new classes of lasers will continue opening more opportunities for additional growth within the industry.

Industrial

In the industrial sector, we are seeing growth in both macro and micro machining applications, such as direct diode and fiber laser-based cutting. Lasers can reduce costs as well as provide more benefits, capabilities, and new manufacturing processes than traditional non-laser material processing techniques.

Continued laser price reductions will help with the reliability and lifespan of equipment in the industrial market. Overall, improved machined part quality and cost will also create more opportunities in the industrial manufacturing sector.

Medical

Lasers are steadily replacing non-laser technologies in the medical industry because they produce stronger results for patient outcomes, such as the popular use of femtosecond lasers in LASIK eye surgery. When a laser’s wavelength is matched with human tissue absorption, it can result in less bleeding and faster healing.

An increasing number of medical applications — from disease diagnosis and dentistry, to cosmetic procedures and tattoo removal — would benefit from the advancement of laser processing technology. Improved laser technology and resulting patient successes create a heightened demand for these procedures.

Laser Technology Advancements

Lasers have been used in National Lab particle accelerators for many years. However, recent technological advancements have broadened laser capabilities to include particle expansion, which can be used in operational systems ranging from no-risk, nonintrusive beam diagnostics to elaborate applications with high technical readiness levels, such as photo injectors providing high brightness electron beams.

Another recent and impactful development in the attempt to create smaller lasers has been one that works off room temperature and the light from telecommunications. These lasers, one-fifteenth the size of the light they produce, operate more efficiently by carrying large amounts of data at a much faster rate than semiconductor electronics.

Laserage Technology Corporation follows and adapts to changing industry demands as new technologies continue to emerge. Laser size, energy efficiency, and output stability are all factors that customers cannot necessarily see, but can greatly affect cost and equipment consistency. At Laserage, we recognize the importance of these shifting trends and have tailored our services to maximize processing flexibility with these laser capabilities in mind.

For more information about our full-service laser technology solutions, please visit our Resource Library.

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The 5 Advantages of Laser Welding for Aerospace Applications

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laserwelding_siteLaser welding serves a wide range of industries, including aerospace, industrial, medical and nuclear, among many others. For the aerospace industry in particular, laser welding capabilities have played an integral role in everything from flight components to airport security procedures. Because laser-enabled welding provides precision from start to finish, it serves as an effective process for not only an impressive array of industry projects, but especially for materials used in proven aerospace applications.

The 5 major advantages of laser welding are:

1. Strength – Laser welding technology is durable enough to make high strength welds. Lasers provide quality and clean processing, which is why they’re favored among manufacturers.

2. Consistency – Laser welding is not only a faster and more versatile process compared to other techniques, but it also provides more consistency. Therefore, laser welding is the ideal option for handling material when repeatability is needed, all without compromising cost.

3. Precision  Laser welding offers strong accuracy and control. Precision small laser beams can be used for welding even the tiniest of parts together, all without creating any damage to any of the parts.

4. Complex Joins Handling – Unlike traditional welding techniques, laser welding makes it possible to weld varying materials that do not have to be similar to one another.

5. Low Heat Application – With minimal heat input, laser welding noticeably reduces any improper alterations to components. Because of this, laser welding is the preferred method of welding options for meeting the high-demanding needs of the aerospace industry to achieve effectiveness.

Laserage meets the regulations required in compliance with ISO as well as the International Traffic in Arms Regulations (ITAR), ensuring that we provide quality services with a “focus on excellence” to all industries we serve, including aerospace engineering. Laserage successfully meets the rigorous demands of the aerospace industry by having over 35 years of expertise in working with materials such as stainless steel, titanium, Nitinol, Inconel, aluminum, MP35N and more.

We utilize state-of-the-art laser machines to fulfil the needs of a range of applications for the aerospace industry. Some of those applications include pressure vessel welding, orifice drilling, proximity sensors welding, leading-edge hole drilling, battery welding and sensitive electronics glove box welding. The glove box welding process consists of welding under an inert gas shield while sealing packages in a low atmosphere. Sometimes heating or bake out is required and ESD procedures are part of the process.

Speak with a representative today to learn more about how our laser welding capabilities can benefit your project.

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