锥束CT在铝镁合金铸件检测中的应用
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摘要
传统的X射线检测在深度方向信息叠加无法对缺陷进行定位,断层CT能够对缺陷进行三维定位但易缺少层间信息,而锥束CT能够无损地获得被检测物体内部各向同性的高精度三维检测信息,可以在保证检测信息完整性的同时对缺陷进行三维空间准确定位,被广泛应用于无损检测领域.介绍了锥束CT的基本构成及优势,并展示了锥束CT在铝镁合金铸件检测中的实际应用.
Traditional X-ray detection can not locate defects in depth direction due to information superposition,computed tomography(CT)can locate defects in three dimensions but it is easy to lack interlayer information. But cone-beam CT,widely used in the field of nondestructive testing,can obtain the high-precision three-dimensional detection information of the isotropic interior of the detected object without loss,and can accurately locate the defects in three-dimensional space while ensuring the integrity of the detection information. This paper introduces the basic composition and advantages of cone-beam CT,and shows the practical application of cone-beam CT in the detection of Al-Mg alloy castings.
Traditional X-ray detection can not locate defects in depth direction due to information superposition,computed tomography(CT)can locate defects in three dimensions but it is easy to lack interlayer information. But cone-beam CT,widely used in the field of nondestructive testing,can obtain the high-precision three-dimensional detection information of the isotropic interior of the detected object without loss,and can accurately locate the defects in three-dimensional space while ensuring the integrity of the detection information. This paper introduces the basic composition and advantages of cone-beam CT,and shows the practical application of cone-beam CT in the detection of Al-Mg alloy castings.
引文
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[14]薄兵,潘冶,陆韬,等.工艺参数对ADC12铝合金压铸件微孔缺陷与力学性能的影响[J].铸造,2017,66(2):127-130.
[15]张喆,洪润洲,周永江,等.铝合金铸件缩松缺陷的热等静压处理[J].热加工工艺,2012,41(23):34-35.
[16]王社丽,郑端.ZL208铝合金壳体铸件缩松缺陷分析及工艺改进[J].铸造技术,2012,33(2):242-243.
[17]徐丽,刚铁,张明波,等.铸件缺陷无损检测方法的研究现状[J].铸造,2002,51(9):535-540.
[18]王俊山,许正辉,黄葛伟,等.用CT图像分析C/C复合材料的内部缺陷[J].宇航材料工艺,1998,28(6):53-56.
[19]赵付宝,王从科,张霞,等.工业CT在树脂基复合材料缺陷检测中的应用[J].工程塑料应用,2013(11):96-98.
[20]杜旭初,洪润洲,罗传彪,等.高强度ZL205A铝合金壳体铸件铸造工艺要点[J].铸造技术,2010,31(3):329-331.
[2]KIM J Y,YOON J S.Image distortion compensation by using a polynomial model in an X-ray digital tomosynthesis system[J].Key Engineering Materials,2005,528(597):2034-2039.
[3]肖永顺,陈志强,张丽.工业CT断层图像缺陷检测的可视化方法研究[J].仪器仪表学报,2002,23(Z2):647-649.
[4]吴东流.复合材料CT检测的原理和应用[J].宇航材料工艺,2001,31(1):42-48.
[5]先武,李时光,王珏.最佳无损检测手段--工业CT技术的发展[J].光电工程,1995,22(4):51-58.
[6]万欣,刘锡明,吴志芳.计算机分层成像技术概述[J].CT理论与应用研究,2014,23(5):883-892.
[7]田少军.工业CT在铸件无损检测中的应用[J].现代工业经济和信息化,2017(22):27-28.
[8]KAPPES W,ROCKSTROH B,BHR W,et al.Application of new front-end electronics for non-destructive testing of railroad wheel sets[J].Insight-Non-Destructive Testing and Condition Monitoring,2007,49(6):345-349.
[9]陈慧能,杨树彬,杨庆玲.多材质构件密度的工业CT无损检测[J].测试技术学报,2010,24(6):547-551.
[10]李正利,冯云国,刘文,等.电力设备材料工业CT无损检测系统研究[J].山东电力技术,2017,44(7):39-42.
[11]张臻.基于X射线测量的铝合金铸件微观缺陷预测及分析[J].铸造技术,2014,35(11):2760-2762.
[12]邬智立.发动机铝合金活塞铸件缺陷分析及铸造工艺改进[J].铸造,2018,67(1):45-48.
[13]王广坤,王化龙,范春雷,等.X射线DR技术在铝合金铸件检测中的应用[J].影像技术,2012,24(6):47-55.
[14]薄兵,潘冶,陆韬,等.工艺参数对ADC12铝合金压铸件微孔缺陷与力学性能的影响[J].铸造,2017,66(2):127-130.
[15]张喆,洪润洲,周永江,等.铝合金铸件缩松缺陷的热等静压处理[J].热加工工艺,2012,41(23):34-35.
[16]王社丽,郑端.ZL208铝合金壳体铸件缩松缺陷分析及工艺改进[J].铸造技术,2012,33(2):242-243.
[17]徐丽,刚铁,张明波,等.铸件缺陷无损检测方法的研究现状[J].铸造,2002,51(9):535-540.
[18]王俊山,许正辉,黄葛伟,等.用CT图像分析C/C复合材料的内部缺陷[J].宇航材料工艺,1998,28(6):53-56.
[19]赵付宝,王从科,张霞,等.工业CT在树脂基复合材料缺陷检测中的应用[J].工程塑料应用,2013(11):96-98.
[20]杜旭初,洪润洲,罗传彪,等.高强度ZL205A铝合金壳体铸件铸造工艺要点[J].铸造技术,2010,31(3):329-331.
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