Created in conjunction with Approaches Unlimited, and with type from Industrial Laser Alternatives magazine, Laser Focus Planet’s gross annual review and prediction for the industry, shows exciting trends, challenges, and a bird’s eye look at the laser scenery, focusing on emerging professional and consumer innovations in the market. According to one insider, in a similar manner that steam fomented the professional revolution, and petroleum drove the nascent automobile industry, photons are started become the new ‘fuel’ of the twenty first century. This is credited in no small part due to greater efficiencies in materials processing they support. Laser innovations are in charge of medical and materials technology breakthroughs that are not only making the laserlight industry but auxiliary companies more competitive and profitable. see it on their website here
For example, by 08, many had arrived at the evident conclusion that femtosecond lasers were a much better means to fix professional and surgical processes, scheduled to their ability to outperform Ho: YAG, DPSS equivalents, and other lasers. The effect of photonics on an variety of sectors led one insider to predict that by 2050 photonics companies could be the most significant companies in the world, specifically, to laud fibers lasers for their role in helping revitalize and invigorate the renaissance of American manufacturing.
When Laserlight Focus World checked their crystal ball last 12 months, they predicted that new applications would create new inroads that would permit the industry to achieve double-digit growth in certain lazer sectors (Source: “Laser Market place 2014: Lasers forge twenty-first century innovations”, LaserFocusWorld). Definately not hyperbole, in 2013 worldwide laser sales hit $8. 806 billion dollars (growing by 1. 7% from the previous year) and it’s expected that sales will reach $9. 334 billion dollars in 2014.
The 2014 forecast and the forecasted market amounts to 2017 included in the Strategies Unlimited quantitative laser market report should please laser manufacturers participating in some emerging industries.
Material Innovation through Lasers
Single professional laser systems can process a vast variety of materials, which is particularly useful given the rapid development of new materials in developing. Prior to 2013, hi-strength steel and aluminum, for aircraft assemblies and motor vehicles were the up-and-coming materials. Now it’s carbon fiber-reinforced plastic (CFRP), half the weight of steel and 30% lighter than lightweight aluminum, which has as much if not more power than its predecessors. The sole drawback with CFRP is the fact, for the present, it is somewhat more expensive than aluminum and high-strength steel. Research teams are working, however, to reduce the expenses of CFRP in mass production. This kind of is particularly timely, given that McKinsey Global Start predicts that CFRP demand will increase by even just the teens through 2030.
According to Magnus Bengtsson, director of strategic marketing at Logical, lasers can shield manufacturers from some of the costs of mechanical techniques and implements, such as drills and knives, because they do not show the same wear and tear they do. This kind of results in “higher makes and even more predictable processes”. Growing materials, such as organic and natural films, ultrathin glasses, and some semiconductor materials, are optimally processed by lasers.
Achieving a desired power-per-area parameter can be done in any materials-processing laser, either by fiber, DPSS-based, or other custom beam-delivery optics, which permits lasers to meet customers at their maximum price point. For these reasons, professional processes and materials uniquely suited to lasers should still push laser sales.