购买
下载掌阅APP,畅读海量书库
立即打开
畅读海量书库
扫码下载掌阅APP

参考资料

[1]观研天下.中国红外热像仪行业现状深度分析与未来投资调研报告(2022—2029年)[R].2022.

[2]中华人民共和国国家发展和改革委员会.热力设备红外检测导则:DL/T 907—2004[S].北京:中国电力出版社,2005.

[3]中华人民共和国国家质量监督检验检疫总局,中国国家标准化管理委员会.无损检测械及电气设备红外热成像检测方法:GB/T 28706—2012[S].北京:中国标准出版社,2012.

[4]中华人民共和国住房和城乡建设部.建筑红外热像检测要求:JG/T 269—2010[S].北京:中国建筑工业出版社,2010.

[5]中华人民共和国住房和城乡建设部.红外热像法检测建筑外墙饰面粘结质量技术规程:JGJ/T 277—2012[S].北京:中国建筑工业出版社,2012.

[6]张瑞强,徐贵,经权,等.基于红外热成像检测技术的变电设备异常发热故障检测[J].制造业自动化,2022,44(9):171-174.

[7]邵进,胡武炎,贾风鸣,等.红外热成像技术在电力设备状态检修中的应用[J].高压电器,2013,49(1):126-129.

[8]骆燕燕,潘晓松,马旋,等.红外热成像技术在电连接器插拔磨损检测中的应用研究[J].工程设计学报,2021,28(5):615-624.

[9]黄启人,杨达,李家兴,等.浅析红外热成像检测技术在压力容器和压力管道检测中应用[J].中国设备工程,2019,436(24):102-103.

[10]谭兴斌.红外热成像技术在石化企业的应用研究[J].中国设备工程,2020,445(9):164.

[11]张丰.红外热成像技术在石化设备故障诊断中的应用[J].中国设备工程,2010,270(7):61-62.

[12]Jiakun L,Weiqi J,Xia W,et al.MRGC performance evaluation model of gas leak infrared imaging detection system[J].Optics express,2014,22 Suppl 7:A1071-12.

[13]丁德武,申屠灵女,邹兵,等.红外热成像技术在石化装置泄漏隐患检测中的应用[J].安全、健康和环境,2015,15(12):17-20.

[14]黄绍斌.红外热成像技术在被动式低能耗建筑检测中的应用[J].建设科技,2016,319(16):78-79.

[15]曹平华.红外热成像技术在建筑外墙检测中的应用[J].无损检测,2017,39(2):26-29.

[16]杨丽萍,闫增峰,孙立新,等.红外热成像技术在建筑外墙热工缺陷检测中的应用[J].新型建筑材料,2010,37(6):53-57.

[17]钱阳.红外热成像技术在警用执法领域的应用[J].中国安防,2023,202(Z1):83-88.

[18]张济国,刘琦,井冰.红外热成像技术在智慧社区中的应用[J].中国安全防范技术与应用,2021,107(2):19-22.

[19]薛圣月.红外热成像技术在周界防护领域的应用研究[J].中国安防,2023,202(Z1):89-93.

[20]李兴海,张景亮,张伟.前端红外热成像及调度指挥中心系统在森林消防中的应用研究[J].机电产品开发与创新,2019,32(5):20-21.

[21]林琳,李韬,邓方阁.红外热成像技术在乳腺癌检测中的应用进展[J].中国医学物理学杂志,2018,35(6):734-737.

[22]M.E.H.Jaspers,M.E.Carrière,A.Meij-de Vries,et al.The FLIR ONE thermal imager for the assessment of burn wounds:Reliability and validity study[J].Burns,2017,43(7):1516-1523.

[23]熊哲祯,许律廷,刘凯.红外热成像技术在皮瓣移植围术期检测中的应用[J].组织工程与重建外科杂志,2018,14(6):331-334.

[24]Concepta McManus,Candice B.Tanure,Vanessa Peripolli,et al.Infrared thermography in animal production:An overview[J].Computers and Electronics in Agriculture,2016,123:10-16.

[25]刘烨虹,刘修林,王福杰,等.红外热成像技术在畜禽疾病检测中的应用[J].中国家禽,2018,40(5):70-72.

[26]Vernotte P.Rational unit of thermal conductivity[J].Journal de Physique et le Radium,1931,2(11):376-380.

[27]Beller,W.S.Navy sees promise in infrared thermography for solid case checking[J].Missiles Rochets,1965,16:1234-1241.

[28]D.R.Green.Emissivity-independent infrared thermal testing method[J].Mater Eval 3,1965,23(2):79-85.

[29]Xavier PV Maldague,Patrick O.Moore Nondestructive Testing Handbook Infrared and Thermal Testing [M].Columbus:American Society for Nondestructive testing,2001.

[30]中国民用航空维修协会.民用航空无损复合材料构件红外热像检测:T/CAMAC 007—2020[S].北京:中国标准出版社,2020.

[31]Chatterjee K,Tuli S,Pickering S G,et al.Pickering.A comparison of the pulsed,lock-in and frequency modulated thermography nondestructive evaluation techniques[J].NDT&E International,2011,(44):655-667.

[32]X.Maldague,Marinetti.S.Pulsed Phase Infrared Thermography.J.Appl[J].Phys,1996,79(5):2694-2698.

[33]Hernán D.Benítez,Clemente Ibarra-Castanedo,Abdel Hakim Bendada,et al.Definition of a new thermal contrast and pulse correction for defect quantification in pulsed thermography[J].Infrared Physics&Technology,2008,51(3):160-167.

[34]N.Rajic.Principal component thermography for flaw contrast enhancement and flaw depth characterisation in composite structures[J].Composite Structures,2002,58:521-528.

[35]Marinetti S,Grinzato E,Bison PG,et al.Statistical analysis of IR thermographic sequences by PCA[J].Infrared Phys.&Technol,2005,46:85-91.

[36]郭兴旺,高功臣,吕珍霞.基于奇异值分解的红外热图像序列处理[J].北京航空航天大学学报,2006,32(8):937-940.

[37]郭兴旺,高功臣,吕珍霞.主分量分析法在红外数字图像序列处理中的应用[J].红外技术,2006,28(6):311-314.

[38]张志强,赵怀慈,赵大威,等.基于SVD算法的红外热波无损检测方法研究[J].机械设计与制造,2012,4:53-55.

[39]徐振业,成来飞,梅辉,等.C/SiC复合材料盲孔缺陷深度的红外热成像定量测量[J].复合材料学报,2011,28(6):137-141.

[40]华浩然,袁丽华,邬冠华,等.透射法的红外热波缺陷定量检测研究[J].红外与激光工程,2016,45(2):99-104.

[41]Montanini R.Quantitative determination of subsurface defects in a reference specimen made of Plexiglas by means of lock-in and pulse phase infrared thermography[J].Infrared Physics&Technology,2010,53(5):363-371.

[42]ALMOND DP,LAU SK.Defect sizing by transient thermography I:An analytical treatment[J].Journal of Physics D:Applied Physics,1994,27:1063-1069.

[43]TAN Y C,CHIU W K,RAJIC N.Quantitative Defect Detection on the Underside of a Flat Plate Using Mobile Thermal Scanning[J].Procedia Engineering,2017,188:493-498.

[44]王永茂,郭兴旺,李日华,等.缺陷大小和深度的红外检测.无损检测[J],2003,25(9):458-461.

[45]WYSOCKA-FOTEK O,OLIFERUK W,MAJ M.Reconstruction of size and depth of simulated defects in austenitic steel plate using pulsed infrared thermography[J].Infrared Physics&Technology,2012,55(4):363-367.

[46]王海亮,范春利,孙丰瑞,等.二维内部缺陷的红外瞬态定量识别算法[J].红外与激光工程,2012,41(7):1714-1720.

[47]JINLONG G,JUNYAN L,FEI W,et al.Inverse heat transfer approach for nondestructive estimation the size and depth of subsurface defects of CFRP composite using lock-in thermography[J].Infrared Physics&Technology,2015,71:439-447.

[48]张炜,蔡发海,马宝民,等.基于数学形态学的红外热波图像缺陷的定量分析[J].无损检测,2009,31(8):596-599.

[49]LIU Y,TANG Q,BU C,et al.Pulsed infrared thermography processing and defects edge detection using FCA and ACA[J].Infrared Physics&Technology,2015,72:90-94.

[50]王涛,陈凡胜,苏晓锋.二维最小误差分割在红外图像中的快速实现[J].红外技术,2016,38(12):1038-1041.

[51]YANG B,HUANG Y,CHENG L.Defect detection and evaluation of ultrasonic infrared thermography for aerospace CFRP composites [J].Infrared Physics&Technology,2013,60:166-173.

[52]刘俊岩,刘勋,王扬.线性调频激励的红外热波成像检测技术[J].红外与激光工程,2012,41(6):1416-1422.

[53]CHOI M,KANG K,PARK J,et al.Quantitative determination of a subsurface defect of reference specimen by lock-in infrared thermography[J].NDT&E International,2008,41(2):119-124.

[54]MONTANINI R.Quantitative determination of subsurface defects in a reference specimen made of Plexiglas by means of lock-in and pulse phase infrared thermography[J].Infrared Physics&Technology,2010,53(5):363-371.

[55]Duan Y X,Servais P,Genest M,et al.ThermoPoD:A reliability study on active infrared thermography for the inspection of composite materials[J].Journal of Mechanical Science and Technology,2012,26(7):1985-1991.

[56]Clemente I,Francois G,Akbar D,et al.Thermographic nondestructive evaluation:overview of recent progress[J].The International Society for Optical Engineering,2003,5073.

[57]M.Omar,M.I.Hassan,K.Saito,et al.IR self-referencing thermography for detection of in-depth defects[J].Infrared Physics&Technology,2005,46:283-289.

[58]C.Ibarra-Castanedo,D.Gonzalez,M.Klein,et al.Infrared image processing and data analysis[J].Infrared Physics&Technology,2002,46:75-83.

[59]Hernán D.Benítez,Clemente Ibarra-Castanedo,Abdel Hakim Bendada,et al.Differentiated absolute phase contrast algorithm for the analysis of pulsed thermographic sequences[J].Infrared Physics&Technology,2006,48:16-21.

[60]冯贞,马齐爽.基于小波分析的红外图像非线性增强算法[J].激光与红外,2010,40(3):315-318.

[61]周云川,何永强,李计添.基于小波和灰度形态学的红外图像增强方法[J].激光与红外,2011,41(6):99-104.

[62]华浩然,熊娟,袁丽华.基于红外热成像技术的胶接薄板内部缺陷检测[J].南昌航空大学学报,2015,29(2):93-97.

[63]Tang Q J,Liu J Y,Wang Y.Experimental study of inspection on SiC coated high-temperature alloy plates with defects using pulsed thermographic technique[J].Infrared Physics&Technology,2013,57(3):21-27.

[64]Tang Q J,Liu J Y,Wang Y,et al.Inspection on SiC coated carbon-carbon composite with subsurface defects using pulsed thermography[J].Infrared Physics&Technology,2013,(60):183-189. OP4OEZ9IdepJ7q7wsDK72me9tM4OMaubgDRH0GcrdiRQWQzLpMBhFdggKYGsmE+j

点击中间区域
呼出菜单
上一章
目录
下一章
×