This book systematically elaborates on the development process and innovative achievements of laser cleaning technology, with a particular focus on the evolution of substrate surface morphology and performance during laser cleaning, as well as related control methods and engineering applications. The main innovative works of this book mainly include: an overview of the innovative development of laser cleaning technology, the study of surface morphology and performance evolution after laser cleaning, the technological methods for controlling the surface morphology of substrates after laser cleaning, the latest advancements in the application of laser cleaning technology, and so on. It is a comprehensive summary of the latest global progress in laser cleaning, as well as a presentation of the most recent scientific research from the project team. It plays an innovative and leading role, with significant importance for promoting the leapfrog development and innovation of laser cleaning technology. This book is intended for researchers, graduate students, and engineering professionals engaged in laser processing, materials surface engineering, and related fields.
Chapter 1 Explore the development trend of laser cleaning technology i
from the perspective of patent application.
Chapter 2 Current research
status of laser cleaning of carbon fiber reinforced polymers.
Chapter 3 The
surface quality of laser paint removal of marine steel A comparative study
using Gaussian beam and Flat-top beam.
Sijie Wang, is currently an Associate Research Fellow at the National Engineering Research Center for Remanufacturing of Mechanical Products. He has dedicated over ten years to research in surface engineering and remanufacturing, with a particular focus on laser cleaning technology. His work has successfully introduced laser cleaning techniques into the pre-treatment of surfaces for aerospace equipment, high-speed train wheelsets, and energy equipment. Dr. Wang has led 11 research projects funded by the National Natural Science Foundation of China and sub-projects of the National Key Research and Development Program. He has also contributed to 7 ongoing research projects, including those funded by the National Key R&D Program and the National Natural Science Foundation. He has published over 50 academic papers, including 34 indexed by SCI/EI, and holds 20 granted patents with an additional 6 under application. He has authored four books and received numerous awards, including the Second Prize of the National Teaching Achievement Award and three First Prizes and two Second Prizes in Provincial and Ministerial Science and Technology Progress Awards.
