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  • Micromachining of Carbon Nanocomposites with Nd:YAG and Nd:YVO4 Frequency Converted Solid State Lasers
    the relationship between repetition rate, travel speed, and material removal rate. The processing consisted of cutting channels into the materials using an Nd:YVO4 laser at 1064, 532, and 355 nm wavelengths.
  • Infrared Laser Marking Application
    Infrared (1064 nm) wavelength is arguably the most versatile of the marking wavelengths. IR lasers are capable of marking a wide variety of materials but are more commonly used on metals. A few of the best application materials include metals, plastics, and other materials.
  • Laser Welding Carbon Nanocomposites
    . In the current study, direct diode and Nd:YAG solidstate lasers were used to transmission weld -carbon nanocomposite materials. The experimentation was focused on exploiting the infrared absorbing characteristics of the carbon nanocomposites. Polyetheretherketone (PEEK) based polymer was used
  • Green Lasers, Red Metals (.pdf)
    materials such as plastics, wood or rubber. Also, fundamental-mode 1064 nanometer pulsed Nd:YAG lasers interact well with non-copper metals such as stainless and cold-rolled steel, high nickel alloys and some aluminums.
  • Medical Device Link .
    are discussed in this section. For example, two roll- and sheet-fed systems using either a CO or UV laser source can process a variety of materials. Other products presented include a diode-pumped solid-state module that provides 750 W of power at 1064 nm, a pulsed Nd:YAG laser with a variety
  • MICRO: Products
    by other industrial solid-state lasers. The low-noise unit has pulse power variations <4% peak to peak. With an average power >8 W at 1064 nm, the laser offers high throughput for high-speed applications based on galvanometer scanning or rapid x-y table motion. The Q-switched laser produces

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