Yang Liu , Pengfei Ouyang , Zhaoyang Zhang , Wei Xue , Yufeng Wang , Hao Zhu , Kun Xu , Jingtao Wang , Jie Cai , Jinzhong Lu
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引用次数: 0
Abstract
The cooling holes of the blade of aircraft engines play an important role in improving their performance. In this paper, a water-assisted laser machining method is proposed as a means of achieving high-quality manufacturing of the cooling holes. Multi-energy field simulations and extensive experiments were carried out to explore the processing effects of this new composite manufacturing technology. The mechanism of the backside water-assisted laser machining process was analyzed using finite element multi-energy field simulation. It was demonstrated that the cooling effect of the backside water flow became increasingly significant as the number of laser pulses increased. The experimental results of the backside water-assisted laser drilling for the straight and inclined circular, square and trapezoidal holes exhibited superior performance. It was demonstrated that the entrances and exits of the micro-holes prepared by the water-assisted laser drilling process exhibited increased dimensions, enhanced entrance morphology, superior quality of the hole wall, and a notable reduction in thermal defects. The interaction between the liquid and the laser enabled the secondary removal of the hole wall material, which in turn improved the quality of micro-hole.
期刊介绍:
Optics & Laser Technology aims to provide a vehicle for the publication of a broad range of high quality research and review papers in those fields of scientific and engineering research appertaining to the development and application of the technology of optics and lasers. Papers describing original work in these areas are submitted to rigorous refereeing prior to acceptance for publication.
The scope of Optics & Laser Technology encompasses, but is not restricted to, the following areas:
•development in all types of lasers
•developments in optoelectronic devices and photonics
•developments in new photonics and optical concepts
•developments in conventional optics, optical instruments and components
•techniques of optical metrology, including interferometry and optical fibre sensors
•LIDAR and other non-contact optical measurement techniques, including optical methods in heat and fluid flow
•applications of lasers to materials processing, optical NDT display (including holography) and optical communication
•research and development in the field of laser safety including studies of hazards resulting from the applications of lasers (laser safety, hazards of laser fume)
•developments in optical computing and optical information processing
•developments in new optical materials
•developments in new optical characterization methods and techniques
•developments in quantum optics
•developments in light assisted micro and nanofabrication methods and techniques
•developments in nanophotonics and biophotonics
•developments in imaging processing and systems
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