线性和非线性超声技术检测不同裂缝宽度下的砂浆试块损伤
Damage Assessment of Mortars with Different Crack Widths by Linear and Nonlinear Ultrasonic Techniques
摘 要
通过制造5种不同裂缝宽度的砂浆试块,采用超声波脉冲速度法和谐波幅值比法测得相应的波速和损伤系数β值。结果表明,波速和损伤系数β都能反映不同裂缝宽度下试块的损伤程度,相比之下,谐波幅值比法对微裂缝的探测更加敏感。
谐波幅值比
微裂缝探测
水泥基材料
Ultrasonic pulse velocity
Harmonic Amplitude ratio
Microcrack detection
Cement-based materials
Abstract
Due to the influence of tough marine environment,the riser used for the development of marine oil and gas always heavily corroded. The corrosion detection of the riser and residual strength evaluation for Marine oil and gas production safety has very important significance. Based on researching several corroded pipeline detection methods and code used for calculation of corrosion fatigue strength,aiming at target Pinghu riser,the geometric size of the defect was collected by remote field technology. After calculating the fatigue strength by the finite element method,a finite element assessment method based on remote field technology and named B31G Level 3 Assessment is formed. The assessment can provide reliable data for the riser integrity management.
中图分类号 TU317+.5 TG115.28
所属栏目 科研成果与学术交流
基金项目 国家自然科学基金资助项目(51308020);国家重点基础研究发展计划(973)资助项目(2014CB047003);教育部博士点基金资助项目(20121102120034)
收稿日期 2014/5/27
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备注陈军(1979―),男,副教授,博士,主要从事材料无损检测和结构健康监测的研究工作。
引用该论文: CHEN Jun,REN Jun. Damage Assessment of Mortars with Different Crack Widths by Linear and Nonlinear Ultrasonic Techniques[J]. Nondestructive Testing, 2015, 37(1): 22~25
陈军,任俊. 线性和非线性超声技术检测不同裂缝宽度下的砂浆试块损伤[J]. 无损检测, 2015, 37(1): 22~25
被引情况:
【1】陈军,黄灿,王豪, "超声有限幅度法检测混凝土孔洞缺陷",无损检测 38, 26-29(2016)
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参考文献
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【2】SHAH A A,RIBAKOV Y,HIROSE S. Non-destructive evaluation of damaged concrete using non-linear ultrasonics[J].Mater Des,2009,30(3):775-782.
【3】SHAH A A,RIBAKOV Y. Non-destructive evaluation of concrete in damaged and undamaged states[J].Mater Des,2009,30(9):3504-3511.
【4】SHAH A A,RIBAKOV Y,ZHANG C. Efficiency and sensitivity of linear and non-linear ultrasonics to identifying micro and macro-scale defects in concrete[J].Materials and Design,2013,50:905-916.
【5】KRAUTKRAMER J,KRAUKRAMER H. Ultrasonic testing of materials [M].Berlin: Springer,1977.
【6】GREEN R E. Ultrasonic investigation of mechanical properties [M].London: Academic Press,1973.
【7】BUCK O. Material characterization and flaw detection by acoustic NDE [J].Journal of the Minerals,1992,44:17-23.
【8】ROKHLIN S I,MATIKAS T E. Ultrasonic characterization of surfaces and interfaces [J].Material Research Society Bulletin,1996,21(10):18-29.
【9】刘怀喜,张恒,马润香. 复合材料无损检测方法[J].无损检测,2003,25(12):631-634.
【10】张力伟,赵颖华,江阿兰. 基于声发射技术的CFRP钢管混凝土受弯破坏过程[J].无损检测,2011,33(2):27-30.
【11】安治水,李应红,梁华,等. 无损检测在航空维修中的应用[J].无损检测,2006,28(11):598-601.
【12】周正干,刘斯明. 非线性无损检测技术的研究、应用和发展[J].机械工程学报,2011,47(8):2-4.
【13】HASSAN A M T,JONES S W. Non-destructive testing of ultra high performance fibre reinforced concrete (UHPFRC):A feasibility study for using ultrasonic and resonant frequency testing techniques[J].Construction and Building Materials,2012,35: 361-371.
【14】SOLODOY I Y. Ultrasonic of non-linear contacts: Propagation,refection and NDE applications [J].Ultrasonic,1998,36(3):383-390.
【15】ROTHENFUSSER M,MAYR M,BAUMANN J. Acoustic nonlinearities in adhesive joints [J].Ultrasonic,2000,38(3):322-326.
【16】陈斌,杨平,施克仁. Hilbert-Huang变换在非线性超声无损检测中的应用[J].清华大学学报,2006,46(8):1369-1372.
【17】陆铭慧,徐肖霞.非线性超声检测方法及应用[J].无损检测,2012,34(7):61-66.
【18】JHANG K Y. Nonlinear ultrasonic techniques for non-destructive assessment of micro damage in material: a review[J].International Journal of Precision Engineering and Manufacturing,2009,10(1):123-135.
【19】BRILLOUIN L. Tensors in mechanics and elasticity[M].Mayland: Academic Press,1964.
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