TY - BOOK ID - 146063786 TI - Advanced Materials, Structures and Processing Technologies Based on Pulsed Laser AU - Rong, Youmin AU - Wu, Congyi AU - Huang, Yu PY - 2021 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - wettability KW - electrodes KW - laser structuring KW - spread area KW - electrolyte KW - wetting time KW - oxide dispersion strengthened steel KW - ODS Eurofer KW - laser welding KW - microstructure KW - EBSD KW - laser diodes KW - pulsed and continuous wave (cw) regimes KW - medical applications KW - dermatology KW - laryngology KW - laser micro-cutting KW - PI film KW - contact spacer KW - tactile sensor KW - laser surface texturing KW - hardness KW - Zr-based metallic glass KW - laser processing KW - PET film KW - transparent polymer KW - temperature field KW - ultraviolet nanosecond pulse laser KW - laser photothermal ablation KW - wettability KW - electrodes KW - laser structuring KW - spread area KW - electrolyte KW - wetting time KW - oxide dispersion strengthened steel KW - ODS Eurofer KW - laser welding KW - microstructure KW - EBSD KW - laser diodes KW - pulsed and continuous wave (cw) regimes KW - medical applications KW - dermatology KW - laryngology KW - laser micro-cutting KW - PI film KW - contact spacer KW - tactile sensor KW - laser surface texturing KW - hardness KW - Zr-based metallic glass KW - laser processing KW - PET film KW - transparent polymer KW - temperature field KW - ultraviolet nanosecond pulse laser KW - laser photothermal ablation UR - https://www.unicat.be/uniCat?func=search&query=sysid:146063786 AB - Pulsed lasers are lasers with a single laser pulse width of less than 0.25 s, operating only once in every certain time interval. Commonly used pulsed lasers are nanosecond, femtosecond, and picosecond lasers. A pulsed laser produces short pulses with a short interaction time with the material, which can largely avoid impact on the thermal movement of molecules and has a minimal thermal impact on the surrounding materials, thus having significant advantages in precision microfabrication. It is now widely used in flexible electronics, chips, medicine, and other fields, such as photographic resin curing, microwelding, vision correction, heart stent manufacturing, etc. However, as an emerging processing technology, the application prospects of pulsed lasers have yet to be fully expanded, and there is still a need to continuously explore the mechanisms of interaction with materials, to manufacture advanced functional structures, and to develop advanced process technologies. ER -