Micro-focus computed tomography for turbine blade based on all-optical bremsstrahlung source

Q4 Engineering 强激光与粒子束 Pub Date : 2021-07-15 DOI:10.11884/HPLPB202133.210201
Guo Bo, Liu Dexiang, Wu Shuanghua, Ma Yue, Hu Jianfei, Lu Wei
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Abstract

Computed tomography is a major technique for nondestructive detection of internal defects of dense materials and large-size devices. It is widely used in material science, railway, aerospace, national defense, military industry and other industries. At present, conventional high-energy industrial computed tomography system uses the X-ray source based on traditional thermionic RF electron gun, which can only provide millimeter source size, thus limiting its imaging spatial resolution. A high-energy micro-focus X-ray source is the key means to realize high-resolution high-energy industry computed tomography. As an emerging accelerator technology, the laser wakefield accelerator is a promising candidate for the micro-focus high-energy industrial computed tomography. This article reports experimental results of a micro-focus X-ray source based on laser wakefield acceleration and a computed tomography for a turbine blade. Using a 20 TW Ti: sapphire laser system, an electron beam with a charge of (140±44) pC is generated through ionization-induced injection, and then an all-optical bremsstrahlung X-ray source with an accumulated source size of 25 μm is obtained by using a 1.5 mm tungsten target. Using this source, a preliminary compressed-sensing-based computed tomography for a turbine blade is performed.
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基于全光韧致辐射源的涡轮叶片微聚焦计算机断层扫描
计算机断层扫描是致密材料和大尺寸器件内部缺陷无损检测的主要技术。广泛应用于材料科学、铁路、航空航天、国防、军工等行业。目前,传统的高能工业计算机断层扫描系统使用基于传统热离子射频电子枪的x射线源,只能提供毫米级的源尺寸,从而限制了其成像空间分辨率。高能微聚焦x射线源是实现高分辨率高能工业计算机断层扫描的关键手段。激光尾流场加速器作为一种新兴的加速器技术,在微聚焦高能工业计算机断层成像中具有广阔的应用前景。本文报道了基于激光尾流场加速和计算机断层扫描的微聚焦x射线源涡轮叶片的实验结果。利用20 TW的Ti:蓝宝石激光系统,通过电离诱导注入产生电荷为(140±44)pC的电子束,然后利用1.5 mm钨靶获得累积源尺寸为25 μm的全光轫致辐射x射线源。利用该源,对涡轮叶片进行了初步的基于压缩感知的计算机断层扫描。
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来源期刊
强激光与粒子束
强激光与粒子束 Engineering-Electrical and Electronic Engineering
CiteScore
0.90
自引率
0.00%
发文量
11289
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