弹性固体材料载荷过程中红外辐射特征的机理研究
|
摘要
基于室温下光弹材料载荷过程的红外热辐射测试结果,分析归纳了红外热辐射的共性特征。从固体材料的微观结构出发,结合相关的红外辐射理论、理论力学知识,分析论证了红外辐射特征的来源、影响因素及所属形变范围。在热力学理论和固体力学知识的基础上,从应变的角度推导得到计算红外辐射温度差(或能量差)的物理公式,结合有限元方法建立相应的弹性谐振体物理模型,并将其应用在光弹材料典型实验算例的红外辐射特征的模拟中,依据有限元分析模型得到试件的主应变分布,从而由公式得到红外辐射温度的改变和分布情况,达到定量描述红外辐射特征的目的。数据表明计算模拟求得的结果与实验结果吻合较好,充分说明定量公式及方法是合理的,可以用来量化描述光弹材料室温下形变的红外辐射特征,并且可以扩展应用到其它弹性固体材料的类似红外辐射特征的研究中。
Based on experimental results of the photoelastics materials subjected to external loading in room-temperature, some common infrared radiation characteristics were analysed and concluded from lots of infrared radiation imaging patterns. By the micro-structure of the solid materials and corresponding infrared radiation principle, the resource and reflective factors and deformation range of common infrared radiation characteristics were analysed and investigated in microscopic, According to above phyisical microscopic mechanism, a formula of calculating temperature differences of infrared radiation in terms of principal strain sum was deduced to quantitatively investigate the infrared radiation characteristics in test by the thermodynamics and the solid mechanics, and combining the FEM, a elastic harmonic unit volume model was establishedthe. Typical specimens were tested and their principal strains were calculated by the FEM model in order to obtain the temperature differences of infrared radiation. Numerical results are in a good agreement with test results, which verifies the validity of the formula of calculating temperature differences of infrared radiation and the model of quantitatively describing the infrared radiation characteristics of solid photoelastic materials, and reveal corresponding inner physical mechanism. It was proved that the formula and corresponding model can be referenced for the study of similar infrared radiation characteristfor for other elastic solid material under loading.
Based on experimental results of the photoelastics materials subjected to external loading in room-temperature, some common infrared radiation characteristics were analysed and concluded from lots of infrared radiation imaging patterns. By the micro-structure of the solid materials and corresponding infrared radiation principle, the resource and reflective factors and deformation range of common infrared radiation characteristics were analysed and investigated in microscopic, According to above phyisical microscopic mechanism, a formula of calculating temperature differences of infrared radiation in terms of principal strain sum was deduced to quantitatively investigate the infrared radiation characteristics in test by the thermodynamics and the solid mechanics, and combining the FEM, a elastic harmonic unit volume model was establishedthe. Typical specimens were tested and their principal strains were calculated by the FEM model in order to obtain the temperature differences of infrared radiation. Numerical results are in a good agreement with test results, which verifies the validity of the formula of calculating temperature differences of infrared radiation and the model of quantitatively describing the infrared radiation characteristics of solid photoelastic materials, and reveal corresponding inner physical mechanism. It was proved that the formula and corresponding model can be referenced for the study of similar infrared radiation characteristfor for other elastic solid material under loading.
引文
[1]谢和平,尚勇,陈忠辉,周宏伟.岩石的非线性力学研究现状与发展趋势.非线性力学理论与实践.中国矿业大学出版社,1997,3~9
[2]谢和平.岩石混凝土损伤力学.徐州:中国矿业大学出版社,1990
[3]谢和平.岩石蠕变损伤非线性大变形分析及微观断裂FRACTAL模型[博士学位论文][D].徐州:中国业大学,1987
[4]谢和平.分形-岩石力学导论.北京:科学出版社,1996
[5]蔡永恩.热弹性问题的有限元方法及程序设计.北京:北京大学出版社,1997
[6]王勖成,邵敏编著.有限单元法基本原理和数值方法.北京:清华大学出版社,1997
[7]缪协兴.采动岩体的非线性力学理论研究与展望.非线性力学理论与实践.中国矿业大学出版社81997,19~25
[8]陈至达.有限变形力学基础.徐州:中国矿业大学出版社,2001
[9]陈至达.有理力学.徐州:中国矿业大学出版社,1988
[10]陈至达.杆、板、壳大变形理论.北京:科学出版社,1994
[11]戴天民,刘凤丽,陈勉.连续介质力学引论.沈阳:辽宁科学技术出版社,1986
[12]冯夏庭.智能岩石力学导论.北京:科学出版社,2000
[13]耿乃光,崔承禹,邓明德.岩石破裂实验中的遥感观测与岩石力学的开端.地震学报,1992,14(增刊):645、652
[14]崔承禹,邓明德,耿乃光.在不同压力下岩石光谱辐射特性研究.科学通报,1993,38(6):538~541
[15]支毅乔,崔承禹,张晋开等.红外热像仪在岩石力学遥感基础实验中的应用.环境遥感,1996,11(3):161~167
[16]耿乃光,邓明德,崔承禹,等.遥感技术用于固体力学实验研究的新成果.力学进展,1997,27(2):185-192
[17]邓明德,樊正芳,耿乃光.遥感用于地震预报的理论及实验结果.中国地震,1993,9(2):163~169
[18]耿乃光.从遥感岩石力学的最新成果展望21世纪的地震监测.国际地震动态,1994,16:6~9
[19]崔承禹,支毅乔,张晋开.红外遥感用于地震预报的基础实验研究.见:中国科学院遥感应用研究所编.遥感科学新进展.北京:科学出版社,1995,151~160
[20]耿乃光,樊正芳,籍全权,等.微波遥感技术在岩石力学中的应用.地震学报,1995,17(4):482~486
[2l]邓明德,耿乃光,崔承禹,等.岩石应力状态改变引起岩石热状态改变的研究.中国地震,1997,13(2):179~185
[22]邓明德,樊正芳,耿乃光,等.混凝土的微波辐射和红外辐射随应力变化的研究.岩石力学与工程学报,1997,16(6):577~683
[23]林廷均.中国红外产品指南.北京:电子工业出版社,1990
[24]查尔斯K曼.仪器分析.北京:化学工业出版社,1983
[25]K斯达尔.红外技术.武汉:华中工学院出版社,1982
[26]小哈德逊R D.红外系统原理.北京:国防工业出版社,1975 27~80
[27][美]RH金斯敦.光学和红外辐射探测.北京:科学出版社,1984.8~47
[28]张维力,宋广礼.热成像.北京:新时代出版社,1988.
[29]安里千.光弹性应力分析新方法.应用数学和力学,1988,9(5)
[30]赵清澄主编.光测力学教程.北京:高等教育出版社,1986
[31]M. M. Frocht.光测弹性力学.北京:科学出版社,1966
[32]天津大学材料力学教研室光弹组主编.光弹性原理及测试技术.北京:科学出版社,1982
[33]A. Kuske, G Robertson.光弹性应力分析.上海:上海科学技术出版社,1984
[34]张如一主编.实验应力分析.北京:机械工业出版社,1981
[35]赵清澄主编.光测力学.上海:上海科学技术出版社,1982
[36]张东胜.红外辐射等温区与光弹性等差线对应关系的研究[博士学位论文][D].北京:中国矿业大学,2000
[37]张拥军.加载过程中光弹材料红外辐射规律及相关研究[博士学位论文][D].北京:中国矿业大学,2003
[38]张东胜,安里千,张拥军.光弹材料的红外辐射热象特征.实验力学,2001,16(4):444~449
[39]Liqian An, Dongsheng Zhang, Quantitative Analysis between Infrared Temperature Field and Photoelastic Stress Field, Progress of the 21th international symposium on Computer Application in the Minerals Industries, 25-27 April 2001,689-692
[40]吴立新,王金庄,煤岩受压红外热象与辐射温度特征实验,中国科学(D),1998,28(1):41~46
[41]吴立新.煤岩强度机制及矿压红外探测基础实验研究.博士学位论文.北京:中国矿业大学(北京校区)1997
[42]郭自强.岩石破裂的光声效应.地球物理学报1988,31(1)
[43]LIXIN WU,JINZHUANG WANG Infrared Radiation Features of Coal and Rocks under Loading. In:J. Rock Mech. Sci..1998,35(7)
[44]崔承禹.红外线探测技术及其在地质工作中的应用简介.航空物探技术.1977,3:1~27
[45]国家地震局《一九七六年唐山地震》编写组.一九七六年唐山地震.北京:地震出版社,1982
[46]辽宁省气象科学研究所.1975年2月海城地震前的气象异常现象.地球物理学报.1977,20(4):270~276
[47]Mogi K. Fundamental studies on earthquake prediction. Pres at ISCSEP, Beijing, Sep,1982,16-29
[48]王琳瑛,朱传镇.唐山地震和海城地震前地温的异常变化.地震研究,1984,17(6):649~656
[49]安镇文,朱传镇.地热与地震关系的研究(一).地震学报,1984,6(2):211~221
[50]龙传侠.澜沧-耿马地震前后的地温异常变化.地震研究,1990,13(2):196~201
[51]马晋宗,傅征祥,张郢珍,等.1966~1976年中国九大地震.北京:地震出版社,1982
[52]Gorny V I, et al. The earth outgoing IR Radiation as an indicator of seismic activity. Proceeding ofAcademy of Sciences of the USSR,1988,30(1):67-69
[53]强祖基,徐秀登,赁常恭.卫星热红外异常——临震前兆.科学通报,1990,35(17):1324-1327
[54]赁常恭,王宣吉,强祖基.我国利用气象卫星监测地震前兆.卫星利用,1994,1:51~55
[55]Tronin A A. Satellite thermal survey-a new tool for the study of seismoactive regions. INT J Remote Sensing, 17(8):1439-1455
[56]李纪汉,耿乃光,邓明德,等.钢板在拉伸过程中的红外辐射.北京科技大学学报,1995,17(增):200~202
[57]Wu L X, Cui C Y, Geng N G, Wang J Z. Remote sensing rock mechanics(RSRM) and associated experimental studies. Int. J. Rock Mech.& Min. Sci.,2000,37(6):879-888
[58]吴立新.煤岩强度机制及矿压红外探测基础实验研究[博士学位论文][D].北京:中国矿业大学,1997
[59]吴立新,王金庄.煤岩受压屈服的红外辐射温度前兆研究.中国矿业,1997,6(6):42~48
[60]吴立新,王金庄.煤岩受压红外热像与辐射温度特征实验.中国科学(D辑),1998,28(1):41~46
[61]Wu L X, Wang J Z. Infrared Radiation Features of Coal and Rocks under Loading. Int. J. Rock Mech.& Min. Sci.,1998,35(7):969-976
[62]邓明德,房宗绯,刘晓红,等.水在岩石红外辐射中的作用研究.1997,13(3):288~296
[63]崔承禹,肖青,支毅乔,等.岩石的热模型分析.遥感学报.1998,2(1):32、36
[64]耿乃光,于萍,邓明德,等.热红外震兆成因的模拟实验研究.地震,1998,18(1):83~88
[65]尹京苑,房宗绯,钱家栋,等.红外遥感用于地震预测及其物理机理研究.中国地震,2000,16(2):140-148
[66]邓明德,钱家栋,尹京苑,等.红外遥感用于大型混凝土工程稳定性监测和失稳预测研究.岩石力学与工程学报,2001,20(2):147~150
[67]吴立新.遥感岩石力学及其新近进展与未来发展.岩石力学与工程学报,2001,20(2):139~146
[68]吴立新,李国华,吴焕萍.热红外成像用于固体撞击瞬态过程监测的实验探索.科学通报,2001,46(2):172-176
[69]刘善军,吴立新,吴焕萍.多暗色矿物类岩石单轴加载过程中红外辐射定量研究.岩石力学与工程学报,2001,21(2):1585~1589
[70]吴立新,王金庄,胡东宏.遥感岩石力学八年探索回顾与展望.中国矿业,1999,8(增):99~103
[71]Wu L X, Wang J Z. Features of infrared thermal image and radiation temperature of coal rocks loaded[J].Science in China,1998,41(2):158-164
[72]吴立新,王金庄.热红外辐射与煤岩应力-未来矿压遥感技术[A].见:中国煤炭学会编.中国煤炭学会第五届青年科技学术年会论文集[C].北京:煤炭工业出版社,1998,96-100
[73]Wu L X, Wang J Z. Infrared radiation detection:a potential RS technique for ground pressure [A]. In:Xie Heping ed. Proc. Of Mining Science and Technology' 99 Held in Beijing[C]. Rotterdam:A.A.Balkema, 1999,29-31,361-364
[74]Wu L X, Wu H P, Li G H. Experimental Explore to Thermal Infrared Imaging for Detecting the Transient Process of Solid Impact. Chinese Science Bulletin 2001,46(10):872-877
[75]Wu L X, Liu S J, Wu Y H, et al. Changes in infrared radiation with rock deformation. Int. J. Rock Mech.& Min. Sci.,2002,39(5):825-831
[76]张东胜,安里千.基于红外热成像和光弹性测试的应力分布与变化的定量分析.焦作工学院学报(自然科学版),2001,20(3):225~228
[77]张拥军,张东胜,安里千.加载过程中光弹性材料红外辐射规律及其物理机制研究.中国矿业大学学报(增刊),2002
[78]Holt F B, Manning D G. Infrared thermography for the detection of delaminations in concrete bridge decks. ACS Symposium Series, Aug 22-24 1978,1979, AGA Corp, A61-A71
[79]Manning D G, Holt F B. Detection delamination in concrete bridge decks. Concrete International:Design and Construction v 2 n 11 Nov 1980,34-41
[80]Kunz J T, Eales J W. Remote sensing techniques applied to bridge deck evaluation. Publication SP-American Concrete Institute 1985 Sponsored by:American Concrete Inst, Committee 437Strength Evaluation of Existing Concrete Structures, Detroit, MI, USA American Concrete Inst,237-258
[81]Kunz J T, Eales J W. Evaluation of bridge deck condition by the use of thermal infrared and ground-penetrating radar. Official Proceedings-2nd Annual International Bridge Conference, IBC.1985 Sponsored by:Engineers' Soc of Western Pennsylvania, PA, USA Engineers' Soc,121-127
[82]Malhotra V M. In situ/nondestructive testing of concrete-a global review. Publication SP-American Concrete Institute 1984 Sponsored by:CANMET, Ottawa, Ont, Can; American Concrete Inst, Detroit, MI, USA; NBS, Washington, DC, USA; Canadian Soc for Civil Engineering, Montreal, Que, Can American Concrete Inst, 1-16
[83]Krauthammer T. Experimental analysis and models of concrete structures. Concrete International:Design and Construction v 13 n 3 Mar,1991,69-71
[84]Pla-Rucki G F, Eberhard M O. Imaging of reinforced concrete:state-of-the-art review. Journal of Infrastructure Systems 1 2 Jun,1995, ASCE,134-141
[85]Brady BT, Rowell GA. Laboratory investigation of the electrodynamics of rock fracture. Nature,1986,
321(29):488-492
[86]Luong M P. Vibrothermographie infrarouge du beton. Journal de Physique (Paris), Colloque v 46 n 8 Aug 1985 Sponsored by:CNRS, Paris, Fr; CEA, Paris, Fr; Direction des Recherches, Etudes et Techniques; Ecole Natl Superieure de Mecanique, Nantes, Fr; Etablissement Technique Central de l'Armement, Arcueil, Fr, 529-534
[87]Luong M P. Detection de l'endommagement mecanique du beton par thermographie infrarouge. Mecanique-Materiaux-Electricite n 419 Jan-Feb 1987,30-33
[88]Luong M P. Infrared thermography of fracture of concrete and rock. Fracture of Concrete and Rock: SEM-RILEM International Conference.1987 Sponsored by:Soc for Experimental Mechanics Inc, Bethel, CT, USA; RILEM Soc for Experimental Mechanics Inc,561-571
[89]Luong M P. Infrared thermovision of damage processes in concrete and rock. Engineering Fracture Mechanics v 35 n 1-3 Jun 4-6 1988,1990 Publ by Pergamon Press Inc,291-301
[90]Luong M P. Fatigue damage detection on concrete under compression using infrared thermography. ASME-ASCE-SES Joint Summer Meeting Jun 29-Jul 2 1997,1997 Sponsored by:ASME; ASCE; SES ASCE, 199-213
[91]Luong M P. Nondestructive damage evaluation of reinforced concrete structure using infrared thermography. Proceedings of SPIE-The International Society for Optical Engineering 3993 Mar 8-9 2000,2000 Sponsored by:SPIE Society of Photo-Optical Instrumentation Engineers,98-107
[92]Nagataki Shigeyoshi, Kamada Toshiro, Matsumoto Atsuo. Application of infrared thermography technique for evaluation of cracks in concrete structures. Zairyo/Journal of the Society of Materials Science, Japan v 46 n 2 Feb 1997, Nippon Zairyo Gakkai,198-203
[93]Sakagami Takahide, Kubo Shiro, Nakamura Shiro, et al. Application of lock-in data processing for thermographic NDT of concrete structures. Proceedings of SPIE-The International Society for Optical Engineering v 4710 Apr 1-4 2002,2002 Sponsored by:SPIE The International Society for Optical Engineering,552-557
[94]Sakagami Takahide, Kubo Shiro. Development of a new non-destructive testing technique for quantitative evaluations of delamination defects in concrete structures based on phase delay measurement using lock-in thermography. Infrared Physics and Technology v 43 n 3-5 June 2002, Elsevier Science B.V.,3
[95]方俊鑫,陆栋主编.固体物理学(上).上海:上海科学技术出版社,1981
[96]苟清泉编.固体物理学简明教程.北京:人民教育出版社,1978
[97]Zemansky M W, Dittman R H. Heat and thermodynamics.北京:科学出版社,1987
[98]JP霍尔曼.热力学.北京:科学出版社,1986
[99]王仁,黄克智,朱兆祥主编.塑性力学进展.北京:中国铁道出版社,1988
[100]陈衡编著.红外物理学.北京:国防工业出版社,1985
[101]张幼文编著.红外光学工程.上海:上海科学技术出版社,1982
[102]Wolf W L. Handbook of military IR technology. Washington:office of Naval Research, department of the Navy,1965
[103]B.T.科洛勃罗多夫,N.舒斯特.红外热成像.天津:航天工业总公司第三研究院三部、8359所联合翻译出版,1994
[104]虞和济,宋利明.故障诊断的热像技术.北京:冶金出版社,1992
[105]Kruse P W, et al. Elements of infrared technology:generation, transmission and detection. John Wiley & Sons, Inc.,1962
[106]Ira N. Levine.分子光谱学.北京:高等教育出版社,1985
[107]周世勋编.量子力学教程.北京:高等教育出版社,1999
[108]刘景生.红外物理.北京:兵器工业出版社,1992
[109]欧阳杰.红外电子学.北京:北京理工大学出版社,1997
[110]Siegel R, Howell J R. Thermal radiation heat transfer.3rd edn, Hemisphere, NY,1972
[111]P兰德肖夫,A梅思雷尔著.鄢祖林译.量子力学.武汉:武汉大学出版社,1984.
[112]Nippon Avionics Co., ltd. Thermal video system fine thermo TVS-8000MKII series instruction manual.1999
[113]吴立新.遥感岩石力学及其新进展与未来发展.岩石力学与工程学报,2001,20(2):139~146
[114]董玉芬,王来贵,刘向峰.岩石变形过程中红外辐射的实验研究.岩土力学,2001,22(2):134~137
[115]董玉芬,杜洪贵,任伟杰.煤岩的红外信息随应力变化的实验研究.辽宁工程技术大学学报(自然科学版),2001,20(4):495~496
[116]Wang L Q Liu X F, Wu Ch B. The study on deformation and failure process infrared information of rock sample in shearing test. Process in Safety Science and Technology Part A v 3 Oct 10-13 2002, Science Press, 147-151
[117]李如生.非平衡态热力学和耗散结构.北京:清华大学出版社,1986,6~105
[118]谢和平.岩石材料的局部损伤拉破坏.岩石力学与工程学报,1988.(2)
[119]彭文世,刘高魁.矿物红外光谱图集.北京:科学出版社,1982.11~36
[120]郭硕鸿.电动力学.北京:人民教育出版社,1978.170~177
[121]赵清澄.实验应力分析.北京:科学出版社,1987
[122]谢希德,方俊鑫.固体物理学(上).上海:上海科学技术出版社,1962.115~120
[123]彭金生,李高翔.近代量子光学导论.北京:科学出版社,1996.
[124]P兰德肖夫,A梅思雷尔著.鄢祖林译.量子力学.武汉:武汉大学出版社,1984.
[125]刘善军,吴立新,吴育华,受载岩石红外辐射的影响因素及机理分析,矿山测量,3(2003),p67~69.
[126]Wu Li-xin, Zhong Sheng, Wu Yu-hua, Fundamental Research on Remote Sensing the strain and Catastrophe of Concrete under Uniaxial Compression, International Geoscience and Remote Sensing Symposium, 3(2005), p 1760-1763
[127]K.N.Pandey, Satish Chand, Deformation based temperature rise:a review, International Journal of Pressure Vessels and Piping,80(2003), p673-687
[128]龙晓霞.非谐振子的能量与固体热弹性效应.西南师范大学学报(自然科学版),1999,24(3)297~302
[129]Zemansky M W, Dittman R H. Heat and thermodynamics. 北京:科学出版社,1987
[130]李如生.非平衡态热力学和耗散结构.北京:清华大学出版社,1985
[131]王洪纲.热弹性力学概论.北京:清华大学出版社,1989
[132]李灏,颜汉洪.热弹性学.武汉:湖北教育出版社,1988
[133]李桂林.环氧树脂与环氧涂料。化学工业出版社。2003.3
[134]G.W.埃伦斯坦.Polymeric materials Structure-Propereties-Application.化学工业出版社。2007年7月。
[135]岳卉.光弹性等倾线全场自动检测及图象处理研究[博士学位论文][D].北京:中国矿业大学,2002
[136]张建奇,方小平编著.红外物理[M].北京:西安电子科技大学出版社,2004,62
[2]谢和平.岩石混凝土损伤力学.徐州:中国矿业大学出版社,1990
[3]谢和平.岩石蠕变损伤非线性大变形分析及微观断裂FRACTAL模型[博士学位论文][D].徐州:中国业大学,1987
[4]谢和平.分形-岩石力学导论.北京:科学出版社,1996
[5]蔡永恩.热弹性问题的有限元方法及程序设计.北京:北京大学出版社,1997
[6]王勖成,邵敏编著.有限单元法基本原理和数值方法.北京:清华大学出版社,1997
[7]缪协兴.采动岩体的非线性力学理论研究与展望.非线性力学理论与实践.中国矿业大学出版社81997,19~25
[8]陈至达.有限变形力学基础.徐州:中国矿业大学出版社,2001
[9]陈至达.有理力学.徐州:中国矿业大学出版社,1988
[10]陈至达.杆、板、壳大变形理论.北京:科学出版社,1994
[11]戴天民,刘凤丽,陈勉.连续介质力学引论.沈阳:辽宁科学技术出版社,1986
[12]冯夏庭.智能岩石力学导论.北京:科学出版社,2000
[13]耿乃光,崔承禹,邓明德.岩石破裂实验中的遥感观测与岩石力学的开端.地震学报,1992,14(增刊):645、652
[14]崔承禹,邓明德,耿乃光.在不同压力下岩石光谱辐射特性研究.科学通报,1993,38(6):538~541
[15]支毅乔,崔承禹,张晋开等.红外热像仪在岩石力学遥感基础实验中的应用.环境遥感,1996,11(3):161~167
[16]耿乃光,邓明德,崔承禹,等.遥感技术用于固体力学实验研究的新成果.力学进展,1997,27(2):185-192
[17]邓明德,樊正芳,耿乃光.遥感用于地震预报的理论及实验结果.中国地震,1993,9(2):163~169
[18]耿乃光.从遥感岩石力学的最新成果展望21世纪的地震监测.国际地震动态,1994,16:6~9
[19]崔承禹,支毅乔,张晋开.红外遥感用于地震预报的基础实验研究.见:中国科学院遥感应用研究所编.遥感科学新进展.北京:科学出版社,1995,151~160
[20]耿乃光,樊正芳,籍全权,等.微波遥感技术在岩石力学中的应用.地震学报,1995,17(4):482~486
[2l]邓明德,耿乃光,崔承禹,等.岩石应力状态改变引起岩石热状态改变的研究.中国地震,1997,13(2):179~185
[22]邓明德,樊正芳,耿乃光,等.混凝土的微波辐射和红外辐射随应力变化的研究.岩石力学与工程学报,1997,16(6):577~683
[23]林廷均.中国红外产品指南.北京:电子工业出版社,1990
[24]查尔斯K曼.仪器分析.北京:化学工业出版社,1983
[25]K斯达尔.红外技术.武汉:华中工学院出版社,1982
[26]小哈德逊R D.红外系统原理.北京:国防工业出版社,1975 27~80
[27][美]RH金斯敦.光学和红外辐射探测.北京:科学出版社,1984.8~47
[28]张维力,宋广礼.热成像.北京:新时代出版社,1988.
[29]安里千.光弹性应力分析新方法.应用数学和力学,1988,9(5)
[30]赵清澄主编.光测力学教程.北京:高等教育出版社,1986
[31]M. M. Frocht.光测弹性力学.北京:科学出版社,1966
[32]天津大学材料力学教研室光弹组主编.光弹性原理及测试技术.北京:科学出版社,1982
[33]A. Kuske, G Robertson.光弹性应力分析.上海:上海科学技术出版社,1984
[34]张如一主编.实验应力分析.北京:机械工业出版社,1981
[35]赵清澄主编.光测力学.上海:上海科学技术出版社,1982
[36]张东胜.红外辐射等温区与光弹性等差线对应关系的研究[博士学位论文][D].北京:中国矿业大学,2000
[37]张拥军.加载过程中光弹材料红外辐射规律及相关研究[博士学位论文][D].北京:中国矿业大学,2003
[38]张东胜,安里千,张拥军.光弹材料的红外辐射热象特征.实验力学,2001,16(4):444~449
[39]Liqian An, Dongsheng Zhang, Quantitative Analysis between Infrared Temperature Field and Photoelastic Stress Field, Progress of the 21th international symposium on Computer Application in the Minerals Industries, 25-27 April 2001,689-692
[40]吴立新,王金庄,煤岩受压红外热象与辐射温度特征实验,中国科学(D),1998,28(1):41~46
[41]吴立新.煤岩强度机制及矿压红外探测基础实验研究.博士学位论文.北京:中国矿业大学(北京校区)1997
[42]郭自强.岩石破裂的光声效应.地球物理学报1988,31(1)
[43]LIXIN WU,JINZHUANG WANG Infrared Radiation Features of Coal and Rocks under Loading. In:J. Rock Mech. Sci..1998,35(7)
[44]崔承禹.红外线探测技术及其在地质工作中的应用简介.航空物探技术.1977,3:1~27
[45]国家地震局《一九七六年唐山地震》编写组.一九七六年唐山地震.北京:地震出版社,1982
[46]辽宁省气象科学研究所.1975年2月海城地震前的气象异常现象.地球物理学报.1977,20(4):270~276
[47]Mogi K. Fundamental studies on earthquake prediction. Pres at ISCSEP, Beijing, Sep,1982,16-29
[48]王琳瑛,朱传镇.唐山地震和海城地震前地温的异常变化.地震研究,1984,17(6):649~656
[49]安镇文,朱传镇.地热与地震关系的研究(一).地震学报,1984,6(2):211~221
[50]龙传侠.澜沧-耿马地震前后的地温异常变化.地震研究,1990,13(2):196~201
[51]马晋宗,傅征祥,张郢珍,等.1966~1976年中国九大地震.北京:地震出版社,1982
[52]Gorny V I, et al. The earth outgoing IR Radiation as an indicator of seismic activity. Proceeding ofAcademy of Sciences of the USSR,1988,30(1):67-69
[53]强祖基,徐秀登,赁常恭.卫星热红外异常——临震前兆.科学通报,1990,35(17):1324-1327
[54]赁常恭,王宣吉,强祖基.我国利用气象卫星监测地震前兆.卫星利用,1994,1:51~55
[55]Tronin A A. Satellite thermal survey-a new tool for the study of seismoactive regions. INT J Remote Sensing, 17(8):1439-1455
[56]李纪汉,耿乃光,邓明德,等.钢板在拉伸过程中的红外辐射.北京科技大学学报,1995,17(增):200~202
[57]Wu L X, Cui C Y, Geng N G, Wang J Z. Remote sensing rock mechanics(RSRM) and associated experimental studies. Int. J. Rock Mech.& Min. Sci.,2000,37(6):879-888
[58]吴立新.煤岩强度机制及矿压红外探测基础实验研究[博士学位论文][D].北京:中国矿业大学,1997
[59]吴立新,王金庄.煤岩受压屈服的红外辐射温度前兆研究.中国矿业,1997,6(6):42~48
[60]吴立新,王金庄.煤岩受压红外热像与辐射温度特征实验.中国科学(D辑),1998,28(1):41~46
[61]Wu L X, Wang J Z. Infrared Radiation Features of Coal and Rocks under Loading. Int. J. Rock Mech.& Min. Sci.,1998,35(7):969-976
[62]邓明德,房宗绯,刘晓红,等.水在岩石红外辐射中的作用研究.1997,13(3):288~296
[63]崔承禹,肖青,支毅乔,等.岩石的热模型分析.遥感学报.1998,2(1):32、36
[64]耿乃光,于萍,邓明德,等.热红外震兆成因的模拟实验研究.地震,1998,18(1):83~88
[65]尹京苑,房宗绯,钱家栋,等.红外遥感用于地震预测及其物理机理研究.中国地震,2000,16(2):140-148
[66]邓明德,钱家栋,尹京苑,等.红外遥感用于大型混凝土工程稳定性监测和失稳预测研究.岩石力学与工程学报,2001,20(2):147~150
[67]吴立新.遥感岩石力学及其新近进展与未来发展.岩石力学与工程学报,2001,20(2):139~146
[68]吴立新,李国华,吴焕萍.热红外成像用于固体撞击瞬态过程监测的实验探索.科学通报,2001,46(2):172-176
[69]刘善军,吴立新,吴焕萍.多暗色矿物类岩石单轴加载过程中红外辐射定量研究.岩石力学与工程学报,2001,21(2):1585~1589
[70]吴立新,王金庄,胡东宏.遥感岩石力学八年探索回顾与展望.中国矿业,1999,8(增):99~103
[71]Wu L X, Wang J Z. Features of infrared thermal image and radiation temperature of coal rocks loaded[J].Science in China,1998,41(2):158-164
[72]吴立新,王金庄.热红外辐射与煤岩应力-未来矿压遥感技术[A].见:中国煤炭学会编.中国煤炭学会第五届青年科技学术年会论文集[C].北京:煤炭工业出版社,1998,96-100
[73]Wu L X, Wang J Z. Infrared radiation detection:a potential RS technique for ground pressure [A]. In:Xie Heping ed. Proc. Of Mining Science and Technology' 99 Held in Beijing[C]. Rotterdam:A.A.Balkema, 1999,29-31,361-364
[74]Wu L X, Wu H P, Li G H. Experimental Explore to Thermal Infrared Imaging for Detecting the Transient Process of Solid Impact. Chinese Science Bulletin 2001,46(10):872-877
[75]Wu L X, Liu S J, Wu Y H, et al. Changes in infrared radiation with rock deformation. Int. J. Rock Mech.& Min. Sci.,2002,39(5):825-831
[76]张东胜,安里千.基于红外热成像和光弹性测试的应力分布与变化的定量分析.焦作工学院学报(自然科学版),2001,20(3):225~228
[77]张拥军,张东胜,安里千.加载过程中光弹性材料红外辐射规律及其物理机制研究.中国矿业大学学报(增刊),2002
[78]Holt F B, Manning D G. Infrared thermography for the detection of delaminations in concrete bridge decks. ACS Symposium Series, Aug 22-24 1978,1979, AGA Corp, A61-A71
[79]Manning D G, Holt F B. Detection delamination in concrete bridge decks. Concrete International:Design and Construction v 2 n 11 Nov 1980,34-41
[80]Kunz J T, Eales J W. Remote sensing techniques applied to bridge deck evaluation. Publication SP-American Concrete Institute 1985 Sponsored by:American Concrete Inst, Committee 437Strength Evaluation of Existing Concrete Structures, Detroit, MI, USA American Concrete Inst,237-258
[81]Kunz J T, Eales J W. Evaluation of bridge deck condition by the use of thermal infrared and ground-penetrating radar. Official Proceedings-2nd Annual International Bridge Conference, IBC.1985 Sponsored by:Engineers' Soc of Western Pennsylvania, PA, USA Engineers' Soc,121-127
[82]Malhotra V M. In situ/nondestructive testing of concrete-a global review. Publication SP-American Concrete Institute 1984 Sponsored by:CANMET, Ottawa, Ont, Can; American Concrete Inst, Detroit, MI, USA; NBS, Washington, DC, USA; Canadian Soc for Civil Engineering, Montreal, Que, Can American Concrete Inst, 1-16
[83]Krauthammer T. Experimental analysis and models of concrete structures. Concrete International:Design and Construction v 13 n 3 Mar,1991,69-71
[84]Pla-Rucki G F, Eberhard M O. Imaging of reinforced concrete:state-of-the-art review. Journal of Infrastructure Systems 1 2 Jun,1995, ASCE,134-141
[85]Brady BT, Rowell GA. Laboratory investigation of the electrodynamics of rock fracture. Nature,1986,
321(29):488-492
[86]Luong M P. Vibrothermographie infrarouge du beton. Journal de Physique (Paris), Colloque v 46 n 8 Aug 1985 Sponsored by:CNRS, Paris, Fr; CEA, Paris, Fr; Direction des Recherches, Etudes et Techniques; Ecole Natl Superieure de Mecanique, Nantes, Fr; Etablissement Technique Central de l'Armement, Arcueil, Fr, 529-534
[87]Luong M P. Detection de l'endommagement mecanique du beton par thermographie infrarouge. Mecanique-Materiaux-Electricite n 419 Jan-Feb 1987,30-33
[88]Luong M P. Infrared thermography of fracture of concrete and rock. Fracture of Concrete and Rock: SEM-RILEM International Conference.1987 Sponsored by:Soc for Experimental Mechanics Inc, Bethel, CT, USA; RILEM Soc for Experimental Mechanics Inc,561-571
[89]Luong M P. Infrared thermovision of damage processes in concrete and rock. Engineering Fracture Mechanics v 35 n 1-3 Jun 4-6 1988,1990 Publ by Pergamon Press Inc,291-301
[90]Luong M P. Fatigue damage detection on concrete under compression using infrared thermography. ASME-ASCE-SES Joint Summer Meeting Jun 29-Jul 2 1997,1997 Sponsored by:ASME; ASCE; SES ASCE, 199-213
[91]Luong M P. Nondestructive damage evaluation of reinforced concrete structure using infrared thermography. Proceedings of SPIE-The International Society for Optical Engineering 3993 Mar 8-9 2000,2000 Sponsored by:SPIE Society of Photo-Optical Instrumentation Engineers,98-107
[92]Nagataki Shigeyoshi, Kamada Toshiro, Matsumoto Atsuo. Application of infrared thermography technique for evaluation of cracks in concrete structures. Zairyo/Journal of the Society of Materials Science, Japan v 46 n 2 Feb 1997, Nippon Zairyo Gakkai,198-203
[93]Sakagami Takahide, Kubo Shiro, Nakamura Shiro, et al. Application of lock-in data processing for thermographic NDT of concrete structures. Proceedings of SPIE-The International Society for Optical Engineering v 4710 Apr 1-4 2002,2002 Sponsored by:SPIE The International Society for Optical Engineering,552-557
[94]Sakagami Takahide, Kubo Shiro. Development of a new non-destructive testing technique for quantitative evaluations of delamination defects in concrete structures based on phase delay measurement using lock-in thermography. Infrared Physics and Technology v 43 n 3-5 June 2002, Elsevier Science B.V.,3
[95]方俊鑫,陆栋主编.固体物理学(上).上海:上海科学技术出版社,1981
[96]苟清泉编.固体物理学简明教程.北京:人民教育出版社,1978
[97]Zemansky M W, Dittman R H. Heat and thermodynamics.北京:科学出版社,1987
[98]JP霍尔曼.热力学.北京:科学出版社,1986
[99]王仁,黄克智,朱兆祥主编.塑性力学进展.北京:中国铁道出版社,1988
[100]陈衡编著.红外物理学.北京:国防工业出版社,1985
[101]张幼文编著.红外光学工程.上海:上海科学技术出版社,1982
[102]Wolf W L. Handbook of military IR technology. Washington:office of Naval Research, department of the Navy,1965
[103]B.T.科洛勃罗多夫,N.舒斯特.红外热成像.天津:航天工业总公司第三研究院三部、8359所联合翻译出版,1994
[104]虞和济,宋利明.故障诊断的热像技术.北京:冶金出版社,1992
[105]Kruse P W, et al. Elements of infrared technology:generation, transmission and detection. John Wiley & Sons, Inc.,1962
[106]Ira N. Levine.分子光谱学.北京:高等教育出版社,1985
[107]周世勋编.量子力学教程.北京:高等教育出版社,1999
[108]刘景生.红外物理.北京:兵器工业出版社,1992
[109]欧阳杰.红外电子学.北京:北京理工大学出版社,1997
[110]Siegel R, Howell J R. Thermal radiation heat transfer.3rd edn, Hemisphere, NY,1972
[111]P兰德肖夫,A梅思雷尔著.鄢祖林译.量子力学.武汉:武汉大学出版社,1984.
[112]Nippon Avionics Co., ltd. Thermal video system fine thermo TVS-8000MKII series instruction manual.1999
[113]吴立新.遥感岩石力学及其新进展与未来发展.岩石力学与工程学报,2001,20(2):139~146
[114]董玉芬,王来贵,刘向峰.岩石变形过程中红外辐射的实验研究.岩土力学,2001,22(2):134~137
[115]董玉芬,杜洪贵,任伟杰.煤岩的红外信息随应力变化的实验研究.辽宁工程技术大学学报(自然科学版),2001,20(4):495~496
[116]Wang L Q Liu X F, Wu Ch B. The study on deformation and failure process infrared information of rock sample in shearing test. Process in Safety Science and Technology Part A v 3 Oct 10-13 2002, Science Press, 147-151
[117]李如生.非平衡态热力学和耗散结构.北京:清华大学出版社,1986,6~105
[118]谢和平.岩石材料的局部损伤拉破坏.岩石力学与工程学报,1988.(2)
[119]彭文世,刘高魁.矿物红外光谱图集.北京:科学出版社,1982.11~36
[120]郭硕鸿.电动力学.北京:人民教育出版社,1978.170~177
[121]赵清澄.实验应力分析.北京:科学出版社,1987
[122]谢希德,方俊鑫.固体物理学(上).上海:上海科学技术出版社,1962.115~120
[123]彭金生,李高翔.近代量子光学导论.北京:科学出版社,1996.
[124]P兰德肖夫,A梅思雷尔著.鄢祖林译.量子力学.武汉:武汉大学出版社,1984.
[125]刘善军,吴立新,吴育华,受载岩石红外辐射的影响因素及机理分析,矿山测量,3(2003),p67~69.
[126]Wu Li-xin, Zhong Sheng, Wu Yu-hua, Fundamental Research on Remote Sensing the strain and Catastrophe of Concrete under Uniaxial Compression, International Geoscience and Remote Sensing Symposium, 3(2005), p 1760-1763
[127]K.N.Pandey, Satish Chand, Deformation based temperature rise:a review, International Journal of Pressure Vessels and Piping,80(2003), p673-687
[128]龙晓霞.非谐振子的能量与固体热弹性效应.西南师范大学学报(自然科学版),1999,24(3)297~302
[129]Zemansky M W, Dittman R H. Heat and thermodynamics. 北京:科学出版社,1987
[130]李如生.非平衡态热力学和耗散结构.北京:清华大学出版社,1985
[131]王洪纲.热弹性力学概论.北京:清华大学出版社,1989
[132]李灏,颜汉洪.热弹性学.武汉:湖北教育出版社,1988
[133]李桂林.环氧树脂与环氧涂料。化学工业出版社。2003.3
[134]G.W.埃伦斯坦.Polymeric materials Structure-Propereties-Application.化学工业出版社。2007年7月。
[135]岳卉.光弹性等倾线全场自动检测及图象处理研究[博士学位论文][D].北京:中国矿业大学,2002
[136]张建奇,方小平编著.红外物理[M].北京:西安电子科技大学出版社,2004,62
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |