We delivered a lots of compact fiber laser cutting systems in past 6 months. And we released some new attractive laser patterning systems to promising application fields.
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https://www.laserlife-ezlaser.com/custom_77201.html SLB-025025-100~1000W Fiber SLB-025025-100~1000W Fiber SLB-025025 Laser Workstation for Laser Scribing , Laser Drilling and Laser Cutting( Working Area : 025 cm X 025 cm ; Single or Dual 100 W ~ 1000 W  CW , QCW or Pusle Fiber Laser Inside )   1. Laser Scribing + Laser Drilling + Laser Cutting for Alumina and other Ceramic Substrates Alumina (Al2O3) is the most common material, but we can also process other ceramics, including zirconia, aluminium nitride and boron nitride.Ceramic Drilling with fiber laser2. Laser Drilling + Laser Cutting for MetalsLaser drilling has become a widely used manufacturing solution in many industries. The primary advantage of laser drilling is that it is a non-contact process and hence mechanical wear of the drilling tool is not an issue. Other benefits include the flexibility to drill almost any material, the ability to change hole size, shape and approach angle instantaneously, the low heat input to the parent material and excellent hole-to-hole dimensional repeatability. In addition, the laser has the ability to drill small diameters not possible with conventional drilling techniques. Holes in the 10 micron region are possible with fiber laser technology. The common techniques used in drilling are percussion hole drilling and trepanning. Percussion drilling is a process where multiple pulses are applied per hole to achieve the desired results. On-the-fly drilling is a sub-set of percussion drilling where the target surface moves at high speed with respect to the laser beam and the laser is continuously pulses to produce holes. Trepanning is a process that allows cutting of large diameter holes or contoured shapes. Hole taper can be carefully controlled in the trepanning process. Lasers can rapidly switch from trepanned hole drilling to percussion drilling on-the-fly to produce a wide range of hole sizes in one part.The advantages of laser drilling have been accepted many years ago by the aerospace industry. Today, quasi-continuous wave (QCW) fiber lasers are rapidly superseding older flashlamp pumped technology for drilling large holes (0.2 - 1 mm). This type of hole can be made in a wide variety of aerospace components such as nozzle guide vanes, blades and cooling rings and combustors. QCW fiber lasers have a unique combination of high peak power and high pulse energy making them ideal for applications requiring multi-joule pulses in the millisecond regime. The flexible QCW laser can also be rapidly reconfigured for CW operation for cutting larger details.The microelectronics industry has employed laser drilling for a wide range of applications such as drilling alumina ceramic substrates. Drilling of small holes with diameter less than 10 μm is required at very high speeds, up to several thousands of holes per second. In this case, high peak power q-switched type fiber lasers or shorter variable pulsed fiber lasers are employed with pulse repetition rates up to 1 MHz and pulse lengths as short as 1.5 ns.High power fiber lasers are also currently used for rock drilling applications and for oil and gas exploration industries. The high peak powers and energy pulses are also used for drilling thick metals.Types of Metals : Stainless Steels / Carbon Steels / Gold & Silver / Aluminum / Tool Steels / Nickel Alloys / Brass & Copper / Titanium1.1 Ceramic Drilling with QCW fiber laser1.2 Percussion Drilling with QCW fiber laser1.3 Metal Microdrilling with nanosecond pulsed fiber laser 1.4 Shaped Hole with single 12 ms pulse  via following link to get the catalog:
https://www.laserlife-ezlaser.com/custom_116212.html ATPSB-030030 - 100W ~ 1000W Fiber ATPSB-030030 - 100W ~ 1000W Fiber ATPSB-030030 Laser Patterning SystemWorking Area : 030cm X 030cm ; Scan Lens : 70mm X 70mm100 W ~ 1000 W Fiber Laser Inside       1. Laser Drilling Laser drilling has become a widely used manufacturing solution in many industries. The primary advantage of laser drilling is that it is a non-contact process and hence mechanical wear of the drilling tool is not an issue. Other benefits include the flexibility to drill almost any material, the ability to change hole size, shape and approach angle instantaneously, the low heat input to the parent material and excellent hole-to-hole dimensional repeatability. In addition, the laser has the ability to drill small diameters not possible with conventional drilling techniques. Holes in the 10 micron region are possible with fiber laser technology. The common techniques used in drilling are percussion hole drilling and trepanning. Percussion drilling is a process where multiple pulses are applied per hole to achieve the desired results. On-the-fly drilling is a sub-set of percussion drilling where the target surface moves at high speed with respect to the laser beam and the laser is continuously pulses to produce holes. Trepanning is a process that allows cutting of large diameter holes or contoured shapes. Hole taper can be carefully controlled in the trepanning process. Lasers can rapidly switch from trepanned hole drilling to percussion drilling on-the-fly to produce a wide range of hole sizes in one part.The advantages of laser drilling have been accepted many years ago by the aerospace industry. Today, quasi-continuous wave (QCW) fiber lasers are rapidly superseding older flashlamp pumped technology for drilling large holes (0.2 - 1 mm). This type of hole can be made in a wide variety of aerospace components such as nozzle guide vanes, blades and cooling rings and combustors. QCW fiber lasers have a unique combination of high peak power and high pulse energy making them ideal for applications requiring multi-joule pulses in the millisecond regime. The flexible QCW laser can also be rapidly reconfigured for CW operation for cutting larger details.The microelectronics industry has employed laser drilling for a wide range of applications such as drilling alumina ceramic substrates. Drilling of small holes with diameter less than 10 μm is required at very high speeds, up to several thousands of holes per second. In this case, high peak power q-switched type fiber lasers or shorter variable pulsed fiber lasers are employed with pulse repetition rates up to 1 MHz and pulse lengths as short as 1.5 ns.High power fiber lasers are also currently used for rock drilling applications and for oil and gas exploration industries. The high peak powers and energy pulses are also used for drilling thick metals.Types of Metals : Stainless Steels / Carbon Steels / Gold & Silver / Aluminum / Tool Steels / Nickel Alloys / Brass & Copper / Titanium1.1 Metal Microdrilling with nanosecond pulsed fiber laser 1.2 Rapid Cutting and Scribing Metal Foils with single mode 1000W Fiber Laser 1.3 Ceramic Drilling with QCW fiber laser2. Deep Engraving and MarkingThe good absorption properties of most metals at near IR wavelengths make fiber lasers very attractive for laser marking applications. The beam quality, compact design and maintenance-free operation of Q-switched type and CW lasers are designed for a wide range of applications and fit most marking requirements.Q-switched type fiber lasers with pulse energy up to 10 mJ and average powers up to 200 W provide the high peak powers and nanosecond pulses that can be used to mark most materials. The high peak power enables marking of reflective materials such as gold and aluminum. Examples include deep permanent markings on heavy-duty gears and auto parts.The CW single-mode fiber lasers accommodate some marking requirements in metals. The CW output is important when fast, clean and shallow non-intrusive markings are required.2.1 Deep Engraving with QCW fiber laser2.2 Marking Anodized Aluminum with 1kW Pulsed Fiber Laser2.3 Marking on painted steel with YLPN-100-25x100-1000-S3. Surface Cleaning and StructuringLaser coating removal is an ablative process whereby laser energy is focused and absorbed by the surface, resulting in vaporization of the coating with minimal effect to the underlying substrate. This process can be applied to various materials including metal, plastics, composites and glass.Several new grades of press-hardened steels (PHS) have been developed for the body-in-white (BIW) structure in the automotive industry that combine desirable properties of strength and formability. Prior to assembling PHS components, the aluminum silicon coating must be removed to allow better weld surface capabilities. IPG’s high power pulsed lasers successfully remove the coating without affecting the mechanical properties produced by the weld bond.Coating removal applications are also used in heavy industries such as aerospace and ship building for their cost-effective and environmental-friendly alternative to conventional abrasive and chemical processes. Because lasers operate as a non-contact surface removal application, there is no need for a secondary medium that contributes to waste streams.3.1 Cleaning and Welding preparation3.2 Laser Cleaning with 1kW Pulse Fiber Laser -13.3 Rust Laser Cleaning3.4 Paint Revoval fron Steel with YLPN-100-25x100-1000-S -013.5 Texturing Aluminum with YLPN-100-25x100-1000-S3.6 Cleaning Rust from Carbon Steel -13.7 Cleaning Rust from Carbon Steel -2  via following link to get the catalog: 
https://www.laserlife-ezlaser.com/custom_116664.html CPB-126128-150W ~ 3000W Fiber CPB-126128-150W ~ 3000W Fiber CPB-126128 series Fiber Laser Cutting System(Fiber Laser Inside, Linear-Motor, Working Area: 126x128 cm) Attached: CLB-Front Door-Open and Close.MOV** References on Processing Capability of LLC Fiber Laser Systems  **Precitec  Cutting Head (LightCutter) used in CPB systems to work with IPG QCW 150W ~ 450W fiber lasers and CW 1500W ~ 3000W fiber lasers. via following link to get the catalog:CPB-126128 Fiber lasers - 2016-0808.pdf  
https://www.laserlife-ezlaser.com/custom_59201.html CSH-300185-100 ~ 650W CO2 CSH-300185-100 ~ 650W CO2 CSH-300185 series Large CO2 Laser Cutting Machine(working area:300x185 cm)Features and Benefits:1. Standalone 7" high resolution LCD touch panel for easy operation.2. Z axis stroke: Manually stroke adjustment 65mm.3. Easy exchange lens Focus unit for easy to replace and maintenance focus lens.4. X axis semi-fixed laser beam for good cutting result for all big working area.5. Aluminum slats working table with sucking holes, upper exhaust unit design.6. Front to rear 50mm pass through design for long material. 7. X/Y ball screw axes design to get smooth cutting quality.8. High resolution servo motors to get good cutting result. via following link to get the catalog:CSH-300185 CW RF CO2 Lasers - 2019-0814.pdf
https://www.laserlife-ezlaser.com/custom_49934.html CSH-250150-100 ~ 1000W CO2 CSH-250150-100 ~ 1000W CO2 CSH-250150 series BIG CO2 Laser Cutting Machine(working area:250x150 cm)Features & Benefits:1. Standalone 7" high resolution LCD touch panel for easy operation.2. Z axis stroke: Manually stroke adjustment 65mm.3. Easy exchange lens Focus unit for easy to replace and maintenance focus lens.4. X axis semi-fixed laser beam for good cutting result for all big working area.5. Aluminum slats working table with sucking holes, upper exhaust unit design.6. Front to rear 50mm pass through design for long material. 7. X/Y ball screw axes design to get smooth cutting quality.8. High resolution servo motors to get good cutting result. via following link to get the catalog:CSH-250150 CW RF CO2 Lasers - 2019-0815.pdf
https://www.laserlife-ezlaser.com/custom_81036.html CSH-100150-100 ~ 450W CO2 CSH-100150-100 ~ 450W CO2 CSH-100150 series CO2 Laser Cutting Machine(working area:100x150 cm) via following link to get the catalog:CSH-100150 CW RF CO2 Lasers - 2019-0926.pdf
https://www.laserlife-ezlaser.com/custom_49932.html CSE-250130-150 ~ 1000W CO2 CSE-250130-150 ~ 1000W CO2 CSE-250130 series Laser Cutting System(CO2 Laser Inside, Ball-Screw, AC Servo Motor,  Working Area: 250x130 cm)** Beam Delivery Same Distance (BDSD) feature **  via following link to get the catalog:1. RF CW CO2 Lasers (Metal Tube) 200W/400W: CSE-250130 Water Cooled CW CO2 Lasers - 20190514.pdf 2. RF Pulse CO2 Lasers (Metal Tube) 210W/300W:CSE-250130 Water Cooled Pulse CO2 Lasers - 20190514.pdf
https://www.laserlife-ezlaser.com/custom_83700.html EDF-130090-100~200W CO2 EDF-130090-100~200W CO2 EDF-130090 CO2 Laser Engraving and Cutting System (Flying-Optics Design; Working Area:130x090 cm)  # Key Features:1. PIN-Touch Auto-Focus Unit: (300mm working table Z-axis adjustment)   2. High Motion Speed: a.2032mm/sec (Engraving or Rastering)                                      b.203.2mm/sec(Cutting or Vectoring)3. High Resolution Engraving: 1200 DPI/600 DPI/400 DPI/300 DPI     and lower DPI are available.(2400 DPI optional).4. Good for big objects (material): EDF accommodates objects of 1300mm    wide and has no constraints on the length of them with thickness less    than 50mm.(so called Pass-Through function)   via following link to get the catalog:1. 100W/200W : EDF-130090-Water Cooled 100W 200W CW RF Lasers - 2019-1203.pdf
https://www.laserlife-ezlaser.com/custom_70041.html SLB-025025-100~300W CO2 SLB-025025-100~300W CO2 SLB-025025-DualLaser Laser Scribing System& Laser Cutting SystemAPPLICATIONS  -  Ceramic Technical ceramics such as alumina (Al2O3) are traditionally quite difficult to machine, due to their brittleness and hardness.  CO2 laser processing reduces mechanical stress, allowing lines, slots, holes and other features to be machined. The laser's pulse regime is critical when processing ceramic, so the capability of Luxinar SR 15i to deliver long pulses up to 1 millisecond is a distinct advantage in these applications.Alumina cutting & drillingTechnical ceramics are widely used in the microelectronics industry, and are traditionally difficult to machine. These materials are hard and brittle, and components are generally small. Laser processing allows lines, slots, holes and complex profiles to be machined with no tool contact and reduced mechanical stress.The laser process requires very careful control of the parameters; the Luxinar SR 15i is designed with ceramic processing in mind, allowing control of the pulse width from 2µs to 1ms. The pulse regime of the laser is critical; long pulses and slow process speeds usually produce superior results. Alumina (Al2O3) is the most common material, but we can also process other ceramics, including zirconia, aluminium nitride and boron nitride. Alumina scribingCeramic components can be separated by drilling a series of closely spaced blind holes along the required cutting line. The ceramic is then broken cleanly along this line. In many cases this “scribe and break” technique is faster and more reliable than full cutting. The hole depth and separation must be precisely controlled in order to ensure a clean break. The Luxinar SR 15i is particularly well suited to this application, offering pulse widths up to 1 millisecond for complete control of the scribing depth. via following link to get the catalog:
https://www.laserlife-ezlaser.com/custom_84192.html Laser and Motion Modules Laser and Motion Modules In past, LLC offered custom-made laser and motion modules to high-value-added industries(applications).Some types of the Package are shown below:Package No.1 : RF CO2 laser module and sigle-axis motion module including mirror/focusing unitsPackage No.2 : RF CO2 laser module and X-Y stage module including mirror/focusing unitsPackage No.3: RF CO2 laser module and sigle-axis motion module including mirror/focusing units (Two Cutting Heads configured by two sets) ....