Wednesday, October 12, 2016
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A quarterly newsletter focused on the latest advancements in and applications for industrial lasers - from materials processing to metrology.
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sponsor
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Laser Welding Joins the Lightweighting Trend
To return the Cadillac brand to the global prestige luxury stage, General Motors threw as much as it could — 13 materials in all — into the sedan’s body to make it the lightest vehicle in its class. And then to join this “crazy quilt of aluminum, steel, magnesium and plastic,” as one industry watcher called it, GM employed the auto industry’s most comprehensive and advanced mixed-materials manufacturing techniques, which are deployed by an army of 28 robots that weld the inner and outer frames of the vehicle.
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Landscape Shifting for Laser Materials Processing
Not long ago, laser materials processing was characterized by four basic manufacturing operations: surface treatment, marking, removal and welding. Buoyed by advances in additive materials deposition, the proliferation of laser annealing for thin films, and the evolution of 3D printing for rapid prototyping, the laser materials processing market in 2016 is undergoing seismic change — not only in Europe but in APAC countries such as India, Japan, South Korea and China.
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Testing the Limits of Excimer Lasers: Annealing for Advanced Displays
Low-temperature polycrystalline silicon is increasingly used as the thin-film transistor material on the glass backplanes of high-performance displays, particularly for smartphones. These thin films are fabricated on large glass panels that then are singulated into hundreds of individual screens. Mass production of LTPS on these panels is uniquely enabled by excimer lasers, moreover excimer lasers with extremely high pulse energies.
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DLIP Quickly Changing Surface Functionalization
A wide range of products — from LEDs to solar cells to medical implants — can be improved through the use of micro- and nanostructures that significantly influence the physical properties of their surfaces. Such topographies can be utilized to functionalize surfaces and adjust their friction, wear, light management, biocompatibility or other properties to the specific requirements for a certain application.
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Manufacturing solutions provider Trumpf GmbH & Co. KG has founded Trumpf Venture GmbH, a venture capital company to fund technology startups. The company aims to fund promising young companies that want to play a major role in shaping the future of industry.
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Laser materials processing developer Universal Laser Systems Inc. has been granted a patent for its MultiWave Hybrid technology. The MultiWave Hybrid technology combines beams from multiple lasers into a single, hybrid laser beam. Users can leverage this technology to combine a number of different laser power levels and wavelengths.
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100W Industrial Pulsed Fiber Laser
Nufern
The 100 W, air-cooled NuQ pulsed fiber laser is ready to take on your toughest engraving and marking challenges from decorative marking to deep engraving for permanent engraving on firearms or industrial equipment. The NuQ family offers single-mode beam quality and both spatial and temporal Gaussian pulse shape.
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IDL165-BL Industrial Linear Stages
Newport Corporation
The mid-travel IDL165-BL industrial linear stages feature a ballscrew and brushless motor drive for high duty cycle and high throughput applications. Side bands and positive air purge prevent debris entry and further increases reliability.
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Industrial Fiber Lasers
SPI Lasers UK Ltd.
SPI Lasers has announced the QUBE high-brightness, KW class, continuous wave industrial fiber lasers, with initial launch products ranging in power levels from 500 W to 6 kW. A pierce detection feature maximizes the efficiency of sheet metal cutting.
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Laser Additive Manufacturing
Thu, Jan 12, 2017 1:00 PM - 2:00 PM EST
Join us for a free webinar! Wayne Penn, applied physics consultant and former president of Alabama Laser Systems, will provide an introduction to laser additive manufacturing (LAM) and open source 3D printing. Penn will discuss ways in which 3D printing is being used in additive manufacturing (AM); the challenges of AM, including quality control; and the role of laser welding and cladding technology in AM. He will present examples of industrial applications showing the use of laser welding, cladding and rapid manufacturing techniques in AM, and conclude with a look at future initiatives in the area of LAM. Penn has over 40 years of experience with lasers. For more than two decades he did laser business development and applications R&D for NASA. He was president of Alabama Laser Systems from 1997 to 2016. His current focus includes the R&D of metal deposition and bonding with an emphasis on additive manufacturing.
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Industrial Photonics Magazine
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Industrial Photonics is your global resource on lasers, sensors, machine vision and automation systems for materials processing, process control and production.
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Photonics Media is currently seeking technical feature articles on a variety of topics for publication in Industrial Photonics. Please submit an informal 100-word abstract to our online submission form www.photonics.com/submitfeature.aspx.
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