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Laser Beam Marking
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Laser processing equipment uses high-powered lasers to cut, trim, perforate, weld, or join a variety of materials in plate or sheet form.
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Supplier: TELOPS, Inc.Description: The laser scriber performs scribe lines on wafers using a UV pulsed laser in the dicing process. The optimization of laser power and optical components yields the best scribing results on GaN wafers.
- Pulsed / Q-switched: Yes
- Materials Processed: Semiconductors / Electronics
- Unit Type: Work Station
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Supplier: Videojet Technologies Inc.Description: The Videojet 7210 (10 Watt) and 7310 (20 Watt) pulsed fiber laser marking systems are the most compact, versatile and low maintenance solid-state marking systems available.
- Type: Complete / Turnkey System
- Options / Components: Galvanometer Scanner, Laser Optics / Beam Delivery
- Process / Operation: Laser Marking
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive, Semiconductors / Electronics, Tissue / Medical
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Supplier: Videojet Technologies Inc.Description: The Videojet 3430 laser marking system is the fastest laser marker in its class and is ideal for high-speed applications or those requiring permanent, high quality, multi-line codes.
- Type: Complete / Turnkey System
- Options / Components: Galvanometer Scanner, Laser Optics / Beam Delivery
- Process / Operation: Laser Marking
- Materials Processed: Plastics / Non-conductive
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Supplier: Trotec Laser, Inc.Description: The SpeedMarker CL controls the position of the laser beam via rotating mirrors. Text, bar codes, data matrix codes and logos can be applied to a variety of materials. Typical cycle times can be less than 1 sec!. The SpeedMarker CL is best integrated into production lines.
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Supplier: GT Schmidt Marking SystemsDescription: Schmidt's MicroLase Systems adds two new laser markers to cover a greater range of marking applications. In addition to our DPSS (Diode Pumped Solid State) lasers, we now offer our new generation of 10 watt (specs) and 20 watt (specs) double clad fiber laser marking systems.These powerful marking
- Type: Complete / Turnkey System
- Options / Components: Fiber Optic / Cable Beam Guide, Laser Optics / Beam Delivery
- Process / Operation: Laser Marking
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive, Semiconductors / Electronics, Other
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Supplier: Epilog Laser Corp.Description: The FiberMark Laser Series is truly a unique product in the metal and plastic marking industry. The combination of flying-optic design and the highest quality engraving results provide a one-of-a-kind solution for your metal marking and engraving needs.
- Laser Type: Fiber Laser
- Materials Processed: Metal / Conductive Materials
- Unit Type: Work Station
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Supplier: KEYENCEDescription: MD-H9800 Series
- Laser Type: Nd:YAG / Solid State, Diode
- Pulsed / Q-switched: Yes
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive, Semiconductors / Electronics, Soft / Fibrous (Wood, Foams, Textiles)
- Unit Type: Specialty/Other
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Supplier: LasitUSA/LaserCutDescription: 100-50.000 Hz Q-Switch mode, red diode aiming beam
- Laser Type: Diode
- Pulsed / Q-switched: Yes
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive
- Unit Type: Benchtop
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Supplier: FOBA North AmericaDescription: , glasses, bottles and packaging of all kinds. The special feature here is: fast-moving products – such as in beverage lines – are coded by the ALLMARK APS faster than with any other laser marker. Individual products can be marked in 1 to 2 microseconds in the highest marking quality
- Laser Type: CO2, Other
- Materials Processed: Semiconductors / Electronics, Soft / Fibrous (Wood, Foams, Textiles), Tissue / Medical
- Unit Type: Handheld
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Supplier: MECCO Marking & TraceabilityDescription: Water cooled, 50, 85, 100 and 150W models, 5 lenses for 2"-12" field sizes
- Laser Type: Nd:YAG / Solid State
- Pulsed / Q-switched: Yes
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive, Soft / Fibrous (Wood, Foams, Textiles)
- Unit Type: Benchtop
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Supplier: Gravograph-New HermesDescription: Air cooled, easy job programming, compact solution
- Laser Type: Diode
- Pulsed / Q-switched: Yes
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive, Semiconductors / Electronics, Tissue / Medical
- Unit Type: Work Station
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Supplier: All-Marks, LLCDescription: Features 50,000-100,000 hrs MTBF, operates btwn 0-45°C (32-113°F)
- Laser Type: Fiber Laser
- Pulsed / Q-switched: Yes
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive, Semiconductors / Electronics, Other
- Unit Type: Benchtop, Work Station
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Supplier: Panasonic Electric WorksDescription: The latest evolution in FAYb laser markers, the LP-V10 features super high speed marking capability, more accurate marking, deeper marking and higher definition marking on tiny objects.
- Beam Delivery Component: Beam Expander, Beam Shutter / Dump, Beam Switching / Galvo Mirror, Fiber Optic Beam Delivery, Galvanometer Scanner, Guidance Module (Flying Optics), Laser Head / Focusing Unit, Pointing Diode / Beam Injector, Reflection Isolator
- Lens Focusing Optics: Yes
- Monitoring Sensors / System: Yes
- Laser Type: Fiber Laser, Other
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Supplier: ElectroxDescription: Yb:Fiber laser marking system, unrivalled beam quality & stability
- Type: Complete / Turnkey System
- Options / Components: Laser Optics / Beam Delivery, Laser System Enclosure
- Process / Operation: Laser Marking
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive
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Supplier: Matthews Marking ProductsDescription: The new e-SolarMark fiber laser marking system provides on-the-fly or stationary permanent, high quality small character marking of metalized materials, such as packaging foils and metals. With no consumables and an average life of 30,000 working hours, this new air-cooled laser marking system
- Beam Delivery Component: Fiber Optic Beam Delivery
- Monitoring Sensors / System: Yes
- Laser Type: Fiber Laser
- Process / Operation: Laser Marking
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Supplier: Synrad, Inc.Description: An effective solution for OEMs and Systems Integrators alike, the FH Series “Flyer”, marks at speeds up to 450 characters per second in either static (index) or dynamic (tracking) laser-marking applications. A simple mounting kit is all that is required to pair FH Flyer with any Synrad
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Supplier: Universal Laser Systems, Inc.Description: HPDFO – High Power Density Focusing Optics (HPDFO) uses a patented method to expand the laser beam within the focusing carriage. This expansion allows the beam to be focused into a much smaller focal spot, suitable for intricate, tight-tolerance engraving and for direct marking on some metals
- Laser Type: CO2
- Process / Operation: Laser Marking
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Supplier: Panasonic Electric WorksDescription: SUNX is pleased to introduce a revolutionary new laser marker system, the LP-F10 series. It's the world's first laser marker to use 100% air-cooled pulse type fiber laser technology, developed from the telecommunications industry.
- Beam Delivery Component: Beam Expander, Beam Shutter / Dump, Beam Switching / Galvo Mirror, Fiber Optic Beam Delivery, Galvanometer Scanner, Guidance Module (Flying Optics), Laser Head / Focusing Unit, Pointing Diode / Beam Injector, Reflection Isolator
- Monitoring Sensors / System: Yes
- Laser Type: Fiber Laser, Other
- Process / Operation: Laser Marking, Tube Processing
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Supplier: Panasonic Electric WorksDescription: The high performance LP-400 series is the flagship of the SUNX CO2 laser marker line. Featuring super high speed marking up to 710 characters per second, and a powerful 30 Watt laser, the LP-400 series is adaptable to various applications, allows for multiple installation options and comes
- Beam Delivery Component: Beam Expander, Beam Shutter / Dump, Beam Switching / Galvo Mirror, Galvanometer Scanner, Guidance Module (Flying Optics), Laser Head / Focusing Unit, Pointing Diode / Beam Injector
- Lens Focusing Optics: Yes
- Monitoring Sensors / System: Yes
- Laser Type: CO2
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Supplier: Universal Laser Systems, Inc.Description: Our exclusive line of patented CO2 Free-Space Gas Slab Lasers is designed specifically for the needs of laser cutting, engraving, graphic imaging and marking applications. Our lasers produce an excellent quality beam with even power distribution and good near and far field characteristics. We
- Laser Type: Carbon Dioxide Lasers
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Supplier: Panasonic Electric WorksDescription: The latest evolution in FAYb laser markers, the LP-V10 features super high speed marking capability, more accurate marking, deeper marking and higher definition marking on tiny objects.
- Process / Operation: Laser Cutting
- Materials Processed: Metal / Conductive Materials, Plastics / Non-conductive, Semiconductors / Electronics, Soft / Fibrous (Textiles, Foams, Paper), Other
- Laser Type: Fiber Laser, Other
- Automation / Control: CNC Control, Windows / PC Control, Manual Workstation
Featured Products for Laser Beam Marking Top
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configuration is extremely easy and only a keyboard and a display screen are required. Connection to the laser is available through USB connection. CO2 laser systems can be used to mark 2d barcodes, 2d data matrix, logos, or any sequence of characters and numbers on your parts and products. Marking data can be input manually, bar code scanned, or downloaded from your mainframe computer or network system. Laser Head Configuration. Air cooling (Support 100% duty). Beam Expander 2x (3x or 4x optional). OEM... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for GT Schmidt Marking Systems -
The new Telecentric MD-T1000, 532nm green wavelength laser marker, introduced by KEYENCE, joins the company's product line of high performance laser marking systems as its most innovative marker to date. Combining high peak power, a telecentric lens, 532nm green wavelength laser and a 20um diameter beam make the MD-T the ideal choice for a wide array of marking applications. In the electronics, semiconductor and medical industries, discrete marking of identification codes, trimming of resistive... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for KEYENCE
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FiberStar Laser Marking Systems offer state-of-the-art technology with the highest laser beam quality and more than 50,000 hours of maintenance-free operation. High precision laser markings are achievable on almost any type of material including gold, platinum, silver, brass, stainless steel, carbide, copper, titanium, aluminum, as well as a wide variety of medical-grade alloys and plastics. Identification text, serial numbers, corporate logos, 2-D data matrix, bar coding, graphic and digital... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for LaserStar Technologies Corporation
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FiberStar Laser Marking Systems offer state-of-the-art technology with the highest laser beam quality and more than 50,000 hours of maintenance-free operation. High precision laser markings are achievable on almost any type of material including gold, platinum, silver, brass, stainless steel, carbide, copper, titanium, aluminum, as well as a wide variety of medical-grade alloys and plastics. Identification text, serial numbers, corporate logos, 2-D data matrix, bar coding, graphic and digital... (read more)Browse Marking and Engraving Equipment Datasheets for LaserStar Technologies Corporation
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The FiberMark metal marking laser system highlights all of the features users need most, including: Low Cost - Fiber lasers are up to 30% less in cost than comparable YAG metal marking lasers for a more affordable marking process. Open Architecture - The OpenArc ™ driver interface lets you send your projects from almost any Windows® based software, including AutoCAD, Illustrator, CorelDRAW or the software you are already using. This translates into lower training costs for you... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for Epilog Laser Corp.
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Featuring a generous 12" by 24" engraving table and open software architecture, the FiberMark allows users to quickly and easily incorporate permanent marking solutions into their business. The innovative flying optics motion control system delivers a high quality beam over the entire work surface. Incorporating the highest quality components the FiberMark is a long lasting, industrial laser system. Mark 2D and data matrix bar codes, serial numbers, logos and text directly on metal and plastics... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for Epilog Laser Corp.
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FiberStar Systems offer state-of-the-art technology with the highest laser beam quality and more than 30,000 hours of maintenance-free operation. High precision markings are achievable on almost any type of material including gold, platinum, silver, brass, stainless steel, carbide, copper, titanium, aluminum, as well as a wide variety of medical-grade alloys and plastics. Identification text, serial numbers, corporate logos, 2-D data matrix, bar coding, graphic and digital images, or any... (read more)Browse Marking and Engraving Equipment Datasheets for LaserStar Technologies Corporation
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The Videojet 3430 laser marking system provides best-in-class marking speeds, maximum production throughput with 50 watts of power and an IP65-rated housing for increased reliability, even in dirty and wet environments. Products can be coded at 72,000 per hour with marking speeds up to 2,000 characters per second. Flexible system components like an articulated arm and a small marking head provide seamless integration in tight production line areas. Exceptional code quality at high print speeds... (read more)Browse Marking and Engraving Equipment Datasheets for Videojet Technologies Inc.
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beam deflectors. This means that even complicated marking tasks can be carried out. Laser beams can be emitted at an angle of 0 degrees (i.e. straight) or even 90 degrees. There is also a wide selection of lenses and flexible user interfaces available... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for Videojet Technologies Inc.
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. The marking area of the ML-Z is 7 times that of conventional laser markers. This capability eliminated the need to use multiple marking heads. High-speed 30W output-best-in-class. 12,000 mm/sec ensures that the ML-Z can match the speed of any fast moving production line. Fine cuts can be made over a wide area with extreme accuracy. The ML-Z Marker employes a finely focused laser beam to ensure stable energy density throughout the cut. Deep or rounded cuts are difficult for traditional systems... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for KEYENCE
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resolution scan head, a choice of beam orientations, and two power levels. • Powerful software lets you create marking messages with automatically updated content (e.g. date, time, shift), symbols, graphics, foreign language fonts and import your illustration or engineering fi les. Superior reliability. • Ultra-reliable fiber laser source eliminates conventional pump chamber maintenance. • High effi iency fiber laser source (less than 300VA) is internally fan cooled, eliminating... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for Videojet Technologies Inc.
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KEYENCE once again raises the bar in laser marking technology with the release of their new 3-axis MD-F3000 Fiber Laser Marker, representing a significant advancement in the evolution of direct part marking. Full 30W Power on Marking Surface. Surpassing the competition, the MD-F delivers a full 30 watts of power directly on the target surface ensuring that dense, hard metals can be permanently marked and etched in a matter of milliseconds. The ultra-small head offers the smallest footprint... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for KEYENCE
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SpeedMarker CL - CO2 Galvo laser system offering Productivity and Flexibility... The SpeedMarker CL controls the position of the laser beam via rotating mirrors. Text, bar codes, data matrix codes and logos can be applied to a variety of materials. Typical cycle times can be less than 1 sec!. The SpeedMarker CL is best integrated into production lines. High marking speed. Can be easily integrated mechanically and electrically into existing production environments. Active stabilization of laser... (read more)Browse Marking and Engraving Equipment Datasheets for Trotec Laser, Inc.
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3-Axis Beam Control Revolutionizes Laser Marking. Introducing the KEYENCE MD-V9900 series, a high-speed, high quality YVO4 laser marker that has the ability to mark not only in the X and Y direction, but also in the Z direction. This unique 3-axis motion allows for a multitude of advantages, such as a 42-mm variable focal length, distortion-free 300x300mm marking area, and the ability to clearly mark on difficult shapes (cylinders, cones, inclined planes). The MD-V9000 also offers a Dual End... (read more)Browse Laser Engraving and Laser Marking Machines Datasheets for KEYENCE
Conduct Research Top
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Laser Beam Welding
penetration. Because the beam can be reflected from mirrored surfaces (reflective at the laser wavelength) it follows that beam manipulation is almost unlimited. It is this feature that makes marking or engraving lasers possible. Holes can be drilled or cut as square, round, any geometric pattern
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Fiber Laser Marking of Plastic
itself in a non contact process. With laser marking, there is no direct contact with the plastic other than through the laser beam. Laser marking is the most flexible way of marking plastics and yields legible, sharp and indelible images. Lasers can mark products with various geometries in a fully
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Laser-Marking Technology (.pdf)
such as. The laser beam is focused on the material for marking,. electronics. Engraving is typically done at high power. and the interaction with the surface produces a change. densities and high peak power (low frequency). in the material. The change can be related to either color. or material removal
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Laser Marking Fundamentals (.pdf)
with very little inertia, and, therefore, can write marks at high. circumferential welding. speeds. The beam is focused using an F-Theta lens. How a Laser Marks. Benefits. The laser marks (ablates, melts, vaporizes, or removes) materials using a fine spot. diameter which ranges from 0.002" 0.01
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The Progress of Industrial Laser Marking (.pdf)
in the last several years. Laser markers are now being designed for specific purposes according to wavelength, beam spot diameter, pulse width and frequency. Not only has the technology advanced significantly, but the number of uses for laser marking has spread into nearly every sector of manufacturing
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Fiber Laser Marking - Colour Marking
. The specific material grades and surface finishes can have an impact on the marking process as can the thickness of the material. 1997 Profile. Fiber Laser Marking - Colour Marking. Introduction: Benefits of Laser Marking: The use of lasers for colour marking is not new. Lasers offer some clear advantages over
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Laser Marking Of Integrated Circuits
and ink jet printing. The most common problems associated with ink based marks are associated with resolution and smearing/removal. Microsoft Word - laser_marking_of_integrated_circuits_final. Fibre Laser Marking Of Integrated Circuits. Introduction. determined by the size of the beam focus. Due
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High Contrast Fiber Laser Marking of Silicon Carbide
. Figure 3: 55% power at 15 kHz. 0.35 m/sec, 1st pass. as well as for tooling applications. 55% power at 35Khz. 0.35 m/sec, 2nd pass. Set-up: Wave Form = 0. Laser: SPI 20W Pulsed Laser. Machining head: X-Y Galvo Scanner Head (max. speed 7.0 m/sec). Focal. length: 163mm, 2x variable beam. expander. A beam
Engineering Web Search: Laser Beam Marking Top
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Laser - Wikipedia, the free encyclopedia
through the output being a narrow beam which is diffraction-limited, often a so-called "pencil beam." Laser beams can be focused to very tiny spots,
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Laser pointer - Wikipedia, the free encyclopedia
A laser pointer or laser pen is a small portable device with a power source (usually a battery) and a laser diode emitting a very narrow coherent
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Laser Marking | Industrial Laser Marking Systems | Laser...
Laser Marking, Desktop, and Workstation (Two-Position Rotary Table) Systems Learn More >>
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laser marking machine - offers from laser marking machine...
laser marking machine manufacturers, exporters, suppliers, factories and distributors related to laser marking machine
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Laser Cutting, Engraving and Marking Equipment, Machines...
Laser Engraving Laser Marking The laser beam modifies the material
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OSHA Technical Manual (OTM) - Section III: Chapter VI: Laser...
Nonbeam Laser Hazards Biological Effects of the Laser Beam SECTION III: CHAPTER 6 LASER HAZARDS Contents:
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Co2 laser technology from Synrad
Laser Model Information Marking Heads FH Flyer Laser Marking FAQs Power Meters Power Wizard Power Meter
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Laser Barcode Marking | Laser Marking Systems | Videojet
Marking with heat Using an RF signal, carbon dioxide (CO2) is stimulated electronically inside the laser tube, generating a laser beam.
