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煤岩破坏电磁辐射特征及信号分析处理技术研究
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摘要
本文采用实验研究,理论分析相结合的方法,研究了煤岩破坏电磁辐射信号的发生机理及信号特征。利用煤体锤击破坏试验模拟煤体的应力释放破坏过程,采用红外光谱技术对不同硬度煤体破坏前后的氢键变化进行了研究,探讨了煤体破坏前后分子特征的变化,利用氢键断裂发生电荷转移的原理分析了电磁辐射产生机理。实验研究了煤体单轴压缩破坏过程中的电磁辐射信号特征;采用谱分析技术分析了煤体破坏过程中的不同频段信号的功率谱密度分布特征;采用小波理论研究了不同频段电磁辐射信号及背景噪声特征,研究了基于小波变换的电磁辐射信号降噪原理;采用希尔伯特-黄变换(HHT)方法,通过对煤岩电磁辐射信号的整体经验模式分解法(EEMD)分解,计算Hilbert能量谱和边际谱,确定了电磁辐射信号特征的主要频段,为电磁辐射预测方法的现场应用奠定了基础。
In this paper, experimental research, the method of combining theoretical analysis to study the damage of coal or rock the occurrence of electromagnetic radiation signal mechanism and signal characteristics. Hammer destructive testing using simulated coal coal failure process of stress release, using infrared spectroscopy to the destruction of coal of different hardness before and after the changes in the hydrogen bond study of the molecular characteristics of coal before and after the destruction of the changes in the use of hydrogen bond breakage the principle of charge transfer occurs analysis of electromagnetic radiation generation mechanism. Experimental study of the coal under uniaxial compression damage in the process of electromagnetic radiation signal characteristic; using spectral analysis technical analysis of the failure process of coal in the different frequency signals power spectral density distribution characteristics; using wavelet theory in different frequency bands of electromagnetic radiation signal and background noise characteristics, study of electromagnetic radiation based on wavelet transform the signal noise reduction principles; using Hilbert-Huang Transform (HHT) method, by EME signals in the overall empirical mode decomposition method (EEMD) decomposition, the calculation Hilbert energy spectrum and marginal spectrum of electromagnetic radiation to determine the signal characteristics of the main band of electromagnetic radiation prediction methods laid the foundation for field application.
引文
1. 何学秋,王恩元,聂百胜等.煤岩流变电磁动力学[M].北京:科学出版社,2003.
    2. 于不凡.煤和瓦斯突出机理.北京:煤岩工业出版社,2001,6.
    3. 俞启香.矿井瓦斯防治[M].徐州:中国矿业大学出版社,1992,2.
    4. 蒋承林,俞启香.煤与瓦斯突出的球壳失稳机理及防治技术.徐州:中国矿业大学出版社,2004,1.
    5. 国家经贸委.我国煤炭工业“十五”规划[J].煤炭经济研究,2001(7):4-9.
    6. 煤矿安全生产“十一五”规划课题组.煤矿安全生产“十一五”规划,2006.9.
    7. Hayakawa M., Fujinawa Y. Electromagnetic Phenomena Related to Earthquake Prediction, TERRAPUB, Tokyo,1994.
    8. Makarets M V, Koshevaya S V, Gernets A A. Electromagnetic emission caused by the fracturing of piezoelectrics in rocks. Physica Scripta,2002,65(3):268-272.
    9. Rabinovithc A, Frid V, Bahat D. Gutenberg-Richter-type relation for laboratory fracture induced electromagnetic radiation. Physical Review E. Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics,2002,65(1):114011-114014.
    10.何学秋,王恩元,张仁贵等.利用煤岩破坏电磁辐射特性测定煤岩卸压带的研究[J].煤矿安全,1996,(2):17-19.
    11. He Xueqiu, Wang Enyuan, Dou Linming, et al. Electromagnetic radiation monitoring system forecasting coal & gas outburst (or rock burst) and its application[C]. In:International Scientific-Technical Symposium Rockburst 2002 Research and Prevention Systems Proceedings, Ustron, Poland, November,12-15, 2002,423-428.
    12. #12
    13. #12
    14. Frid V.. Electromagnetic radiation method water-infusion control in rock burst-prone strata[J]. Journal of Applied Geophysics,2000,43(1):5-13.
    15. Wait,James R. Radiowave propagation in a coal seam with inhomogeneous rockwalls[J]. IEEE Transactions on Geoscience and Remote Sensing,1991,29(3):469-472.
    16.何学秋,刘明举.含瓦斯煤岩破坏电磁动力学.中国矿业大学出版社,1995.
    17.何学秋.含瓦斯煤岩流变动力学.徐州:中国矿业大学出版社,1995.
    18.魏建平,王恩元等.煤岩电磁辐射连续监测软件的研制[J].工矿自动化,2004,3:1-3.
    19. V. Frid a, A. Rabinovitch, D. Bahat. Crack velocity measurement by induced electromagnetic radiation. Physics Letters A,356 (2006):160-163.
    20. R. Kumar, A. Misra. Some basic aspects of electromagnetic radiation emission during plastic deformation and crack propagation in Cu-Zn alloys. Materials Science and Engineering A 454-455, (2007):203-210.
    21. WANG En-yuan, LIU Xiao-fei, ZHAO En-lai, LIU Zhen-tang. Study of electromagnetic characteristics of stress distribution and sudden changes in the mining of gob-surrounded coal face. J China Univ Mining & Technol,18 (2008):0001-0005.
    22. A. Rabinovitch, V. Frid, D. Bahat. Surface oscillations-A possible source of fracture induced electromagnetic radiation. Tectonophysics,431 (2007):15-21.
    23.聂百胜,翟盛锐,刘文波,高虹.成庄矿煤岩破坏电磁辐射特性及其应用研究.煤炭科学技术,2007,35(3):58-61.
    24.李钢,李成武,聂百胜,刘文波.采动过程中煤岩电磁辐射影响因素研究.煤体科学技术,2007,35(2): 69-71.
    25.Nitson. Electromagnetic emission accompanying fracture of quartz-bearing rocks[J]. Geophysics Research letters,1977,4(8):333-336.
    27.李均之,曹明,毛浦森等.岩石压缩试验与震前电磁波辐射的研究.北京工业大学学报,1982,8(4):47-53.
    29.M.E.佩列利曼,H.Γ.哈季阿什维利.破裂电磁辐射理论研究[C].见:苏联地震预报研究文集(三),北京:地震出版社,1993,35-39.
    30.Ogawa T., Oike K., Miura T.. Electromagnetic radiation from rocks[J]. J. Geophys Res,1985, 90(D4)::6245-6249.
    31.Cress G.O., Brady B.T., Rowell G.A.. Sources of electromagnetic radiation from fracture of rock samples in the laboratory[J]. Geophys. Res. Lett.,1987,14(4):331-334.
    32.#12
    33.郭自强,周大庄,施行觉,等.岩石破裂中的光声效应[J].地球物理学报,1988,31(1):3741.
    34.郭自强,周大庄,施行觉,等.岩石破裂中的电子发射[J].地球物理学报,1988,31(5):566-571.
    35.郭自强,郭子祺,钱书清,等.岩石破裂中的电声效应[J].地球物理学报,1999,42(1):74-83.
    36.郭自强,尤峻汉,李高,等.破裂岩石的电子发射与压缩原子模型[J].地球物理学报,1989,32(2):173-177.
    37.朱元清,罗祥麟,郭自强,等.岩石破裂时电磁辐射的机理研究[J].地球物理学报,1991,34(5):595-601.
    38.熊皓.地震电磁前兆研究.见:国家地震局科技监测司编,震前电磁波观测与实验研究文集,北京:地震出版社,1989:125-130.
    39.郑联达.地震电磁波发射的一种机制.见:国家地震局科技监测司编,震前电磁波观测与实验研究文集.北京:地震出版社,1989:138-146.
    40.王炽仑,杨仲乐,陈以旭等.岩石破裂时的电磁辐射.地球物理学报,1992,35(增刊):287-291.
    41.王恩元.含瓦斯煤破裂的电磁辐射和声发射效应及其应用研究[D].徐州:中国矿业大学,1997.
    42.聂百胜.煤岩电磁效应规律及其应用研究[R].北京:中国矿业大学(北京校区),2003.
    43.聂百胜.含瓦斯煤岩力电效应及机理的研究[D].徐州: 中国矿业大学,2001.
    44.Robsman V.A.; Nikogosyan G.N.. Changes in emission spectra during crack development and rock failure. Transactions (Doklady) of the USSR Academy of Sciences:Earth Science Sections,1990,306(3):26-29.
    45.Kurlenya M.V., Yakovitskaya GE., Kulakov GL. Stages in the fracturing process based on EME studies. Soviet Mining Science,1991,27(1):39-43.
    46.Sobolev G.A., Demin V.M. Time-dependent behavior of electromagnetic and acoustic emission as predictor of instability of contacts between blocks. Transactions (Doklady) of the USSR Academy of Sciences:Earth Science Sections,1988,303(6):37-40.
    47.Ivanov V.V., Egorov P.V., Kolpakova L.A., Pimonov A.G.. Crack dynamics and electromagnetic emission by loaded rock masses. Soviet Mining Science,1988,24(5):406-412.
    48.Ivanov V.V., Pimonov A.G.. Statistical model of electromagnetic emission from a fracture in a rock. Soviet Mining Science,1991,26(2):148-151.
    49.Ohtsuki Yoshi-Hiko, Kamogawa Masashi. Plasmon-decay model for origin of electromagnetic wave noises in the earthquakes. In:IEEE International Symposium on Electromagnetic Compatibility Proceedings of the 1997 International Symposium on Electromagnetic Compatibility, EMC May 21-23 1997,Beijing, China:80-82.
    50. Kamogawa Masashi, Ohtsuki Yoshi-Hiko. Dipole-image model for origin of electromagnetic wave noises in the earthquakes. In:IEEE International Symposium on Electromagnetic Compatibility Proceedings of the 1997 International Symposium on Electromagnetic Compatibility, EMC May 21-23 1997, Beijing, China:83-85.
    51.钱书清,任克新,吕智.地震电磁辐射前兆不同步现象物理机制的实验研究.地震学报,1998,20(5):535-540.
    52.徐为民.岩石破裂过程中电磁辐射的试验研究[J].地球物理学报,1985,28(31):37-41.
    53.窦林名,何学秋.采矿地球物理学[M].中国科学文化出版社,2002,91-110.
    54.窦林名,何学秋,王恩元等.由煤岩变形冲击破坏所产生的电磁辐射[J].清华大学学报,2001,41(12):86-88.
    55.谢处方,饶克谨.电磁场与电磁波[M].北京:北京人民教育出版社,1979.
    56.王增和.电磁场与电磁波[M].北京:电子工业出版社,2001.
    57.孙洪星.有耗介质高频脉冲电磁波传播衰减理论与应用的实践研究[J].煤炭学报,2001,26(6):56-572.
    58.窦维苹,张林昌.用MATLAB开发的FDTD系统研究电磁散射远场特性[J].电波科学学报,1999,14(1):71-77.
    59.王长清,祝西里,陈国华等.Maxwell方程用于电磁脉冲在损耗介质中的传播问题[J].电波科学学报,1999,14(1):97-101.
    60.韩德胜,赵和云.非均匀半无限介质中振荡电偶极子地表电场的数值模拟[J].西北地震学报.2002,24(3).193-198,219.
    61.马超群,陆道儿,李天明,等.MTT-92型煤与瓦斯突出危险探测仪的研制及试验[J].煤炭工程师,1996,(6):1-3,7.
    62.陆道儿.电磁辐射法用于煤与瓦斯突出预测[J].矿井地质,1997,2:55-60.
    63.杨勇,潘一山,李国臻.便携式电磁辐射仪监测冲击矿压危险区域研究[J].煤矿开采,2007,12(2):62-64,72.
    64.王恩元,刘晓斐.冲击地压电磁辐射连续监测预警软件系统[J].辽宁工程技术大学学报(自然科学版),2009,l:17-20.
    65.刘文波.受载煤岩电磁辐射传播及其接收研究[D].北京:中国矿业大学(北京),2007.
    66.雷达,李晓昌,赵富刚等.频谱分析仪在分析矿区电磁干扰中的应用[J].物探化探计算技术,2007,S1:51-54.
    67. Warwick J.W., Stoker C. and Meyer T.R.. Radio emission associated with rock fracture:possible application to the Great Chilean Earthquake of May 22,1960. J. Geaphys. Res.,1992,87(B4):3851-2859.
    68. Yamada I., Masuda K., Mizutani H.. Electromagnetic and acoustic emission associated with rock fracture. Phys. Earth Planet. Inter.,1989,57:157-168.
    69.曹惠馨,钱书清等.岩石破裂过程中超长波段的电磁信号和声发射的实验研究.地震学报,1994,(5):235-241.
    70.徐为民,童芜生,王自成.单轴压缩下岩样破坏过程中的发光现象.地震,1984,(1):8-10.
    71.孙正江,王丽华,高宏.岩石破裂时的电磁辐射和光发射.地球物理学报,1986,29(5):491-495.
    72.耿乃光,崔乘禹等.岩石破裂实验中的遥感观测与遥感岩石力学的开端.地震学报,1992(增刊):645-652.
    73.耿乃光,樊正芳等.微波遥感技术在岩石力学中的应用.地震学报,1995,17(4):482-486.
    74.钱书清,任克新,吕智.伴随岩石破裂的VLF、MF、HF和VHF电磁辐射特征的实验研究.地震学报,1996,18(3):346-351.
    75. Liu Yuzhou, Liu Yin, Wang Yinsheng, Jin Anzhong, Fu Jianmin and Cao Jingping. Influencing factors and mechanisms of the electromagnetic radistion during rock fracture. Arta Seismologica Sinica (English Edition), 1997,10(4):513-521.
    76.钱建生,何学秋,王恩元等.煤岩破裂过程电磁波传播特性的分析[J].煤炭学报,1999,24(4):392-394.
    77.王恩元,何学秋,刘贞堂.煤岩变形及破裂电磁辐射信号的R/S统计规律.中国矿业大学学报,1998,27(4):349-351.
    78.张贤达.现代信号处理.北京:清华大学出版社,1995.
    79.张贤达.时间序列分析-高阶统计量方法.北京:清华大学出版社,1996.
    80.张贤达,保铮.非平稳信号分析与处理.北京:国防工业出版社,1998.
    81.王宏禹.非平稳随机信号分析与处理.北京:国防工业出版社,1999.
    82.吴正国,夏立,尹为民.现代信号处理技术.武汉:武汉大学出版社,2003:1-4,15-29,83-131,243-255.
    83. Manolakis D. G., Ingle V K,Kogon S. M..统计与自适应信号处理.北京:电子工业出版社,2003.
    84. Kay S.M.统计信号处理基础.北京:电子工业出版社,2003.
    85. Haykin S.自适应滤波器原理.北京:电子工业出版社,2003.
    86. Boggess A, Narcowich F J.小波与傅里叶分析基础.北京:电子工业出版社,2004.
    87.胡广书.数字信号处理-理论、算法与实现.北京:清华大学出版社,1997:486-489.
    88.李勇,徐霞.MALAB辅助现代工程数字信号处理.西安:西安电子科技大学出版社,2002:105-127,197-238.
    89.胡昌华,周涛,夏启兵等.基于MATLAB系统分析与设计-时频分析.西安:西安电子科技大学出版社,2001:161-187.
    90.胡昌华,张军波,夏军等.基于MATLAB系统分析与设计-小波分析.西安:西安电子科技大学出版社,1999:203-271.
    91.李建平.小波分析与信号处理-理论、应用及软件实现.重庆:重庆大学出版社,1997.
    92.李建平,唐远炎.小波分析方法的应用.重庆:重庆大学出版社,1999.
    93.程正兴.小波分析算法与应用.西安:西安交通大学出版社,1998.
    94.秦前清,杨宗凯.实用小波分析.西安:西安电子科技大学出版社,1994.
    95.陈进.机械设备故障诊断与现代信号处理技术.振动工程学报“机械故障诊断专辑”,1998,9.
    96. Barbarossa S. Analysis of multicomponent LFM signals by a combined Wigner-Hough transform. IEEE Trans. Signal Processing,1995,43:1511-1515.
    97. Boashash B. Estimating and interpreting the instantaneous frequencies of a signal-Part 1:Foundations. Proc. IEEE,1992,80:520-538.
    98. Boashash B. Estimating and interpreting the instantaneous frequencies of a signal-Part 2:Algorithms and application. Proc. IEEE,1992,80:540-568.
    99. Kay S. Modem Spectral Estimation. Englewood Cliffs, NJ:Prentice-Hall,1988.
    100. Krattenthaler W, Hlawatsch F.. Time-frequency design and processing of signals using smoothed Wigner distributions. IEEE Trans. Signal Processing,1993,41:278-287.
    101. Loughlin P. J., Pitton J. W., Atlas L.E.. Bilinear time-frequency representations:New insights and properties. IEEE Trans. Signal Processing,1993,41:750-767.
    102.何正嘉,李富才,杜远等.小波技术在机械监测诊断领域的应用现状与进展.西安交通大学学报,2001,35(5):540-545.
    103.陈进,姜鸣.高阶循环统计量理论在机械故障诊断中的应用.振动工程学报,2001,14(2):125-134.
    104.蒋东翔,黄文虎,徐世昌.分形几何及其在旋转机械故障诊断中的应用.哈尔滨工业大学学报,1996,28(2):27-31.
    105.陈国安,张晓云,葛世荣.分形理论及其在工程机械中的应用前景.建筑机械,1999(1):47-51.
    106.屈世显,张建华.复杂系统的分形理论与应用.西安:陕西人民出版社,1997.
    107.焦新涛.离散频谱分析中的连续谱校正技术[D].汕头:汕头大学,2001.
    108. L. J. Stankovic, S. Stankovic. An analysis of instantaneous frequency representation using time-frequency distribution-generalized Wigner distribution[J]. IEEE Transaction on signal processing,1995, Vol.42, No.2, 245-266.
    109.吴军彪,陶国良,陈进.基于时频独立分量分析的Wigner-Ville分布交叉项消除法[J].浙江大学学报(工学版),2007,2:254-256.
    110.飞思科技产品研发中心.小波分析理论与MTLAB7实现[M].北京:电子工业出版社,2005.
    111. Olivier Rioul, Martin Vetterli. Wavelets and Signal Processing[J]. IEEE SPM 1991,8(3):14-38.
    112.钟诚.小波变换及其应用研究[J].中国科技信息,2008,2:70-71.
    113. Semion Kizhner, Thomas P Flatley, et al. On the Hilbert-Huang Transform Data Processing System Development. National Aeronautics and Space Administration Goddard Space Flight Center. Darrell Smith Orbital Sciences Corporation,2001.
    114.张义平,李夕兵,左宇军著.爆破振动信号的HHT分析与应用[M].冶金工业出版社,2008.
    115. Frid V., Vozoff K. Electromagnetic radiation induced by mining rock failurep[J]. International Journal of Coal Geology.2005,64:57-65
    116.何学秋,聂百胜,何俊,翟盛锐.顶板断裂失稳电磁辐射特征研究[J].岩石力学与工程学报,2007,S1:2935-2940
    117.王恩元,何学秋,聂百胜等.电磁辐射法预测煤与瓦斯突出原理研究[J].中国矿业大学学报,2000,2:41-43
    118.聂百胜,何学秋,王恩元.电磁辐射法预测煤矿冲击矿压[J].太原理工大学学报,2000,31:609-611
    119.窦林名、王云海、何学秋等.煤样变形破坏峰值前后电磁辐射特征研究[J].岩石力学与工程学报,2007,5,908-914
    120.王恩元,何学秋,刘贞堂.受载煤体电磁辐射的频谱特征[J].中国矿业大学学报,2003,5:487-490
    121.王恩元,何学秋,刘贞堂.煤岩变形及破裂电磁辐射信号的分形规律[J].辽宁工程技术大学学报,1998,17(4):343-347
    122.魏建平,何学秋,王恩元,煤与瓦斯突出电磁辐射多重分形特征[J].辽宁工程技术大学学报,2005,1:1-4
    123.何俊.复合煤岩电磁辐射规律及其应用研究[D].北京:中国矿业大学(北京),2006
    124.皇甫大恩,王静,刘贞堂等.煤岩电磁辐射响应信号的相空间分析[J].煤矿安全,2006,8:10-13
    125.王静,王恩元,魏建平.煤岩电磁辐射信号时间序列混沌特性分析[J].防灾减灾工程学报,2006,3:300-304
    126.聂百胜,何学秋,何俊,翟盛锐.电磁辐射信号的小波变换降噪研究[J].太原理工大学学报,2006,05:557-560
    127.撒占友,王恩元.煤岩破坏电磁辐射信号的短时分形模糊滤波[J].电波科学学报,2007,2:191-195
    128.朱郴韦.煤体破裂电磁辐射信号波形特征及降噪方法研究[D].北京:中国矿业大学(北京),2009.
    129.沈功田,耿荣生,刘时风.声发射信号的参数分析方法[J].无损检测,2002,24(2):9-11
    130.谭云亮,石永奎.坚硬顶板运动过程中声发射分析特征[J].东北大学学报,1994,15(增刊)332-335
    131.王恩元,何学秋,刘贞堂.煤岩破裂声发射实验研究及RS统计分析[J].煤炭学报,1999,3:270-273
    132.王恩元,何学秋,刘贞堂.煤体破裂声发射的频谱特征研究[J].煤炭学报,2004,6:289-292
    133. Xiaoli Li. A brief Revier:Acoustic Emission Method for Tool Wear Monitoring during Turning[J]. International Journal of Machine Tool & Manufacture,2002,42(2):157-165
    134. A Terchi, Y H J Au. Acoustic Emission Signal Processing[J]. Measurement and Control,2001,4(8):240-244
    135.赵冬梅,朱目成,江涌.小波理论及其在声发射信号处理中应用现状[J].传感器世界,2006,9:11-15
    136.郝宇宁.基于DSP的小波分析在声发射信号处理中的应用研究[D].广西:广西大学,2007
    137.党建军,李学娟,朱瑞卿.基于小波分析的瓦斯突出预测信号提取技术研究[J].中州煤炭,2008,(1):6-7
    138.张世杰.胺扩链聚氨酯的氢键相互作用研究[D].郑州大学,2006.
    139. Weast RC, CRC Handbook of chemistry and physics,66th ed. Boca raton Florida, CRC Press Inc,1986:C-350-351
    140. W.Kabsch, C.Sander. "Dictionary of protein secondary structure:Pattern Recognition of Hydrogen-bonded and Geometrical Features [J]." Biopolymers,22(1983):2577.
    141.北京师大等.无机化学.北京:高等教育出版社,1992,295-417
    142.武汉大学,吉林大学等.无机化学.北京:高等教育出版社,1983
    143. GC.Pimentael, A.L.Mcclellan. The Hydrogen Bond[M], San Francisco and London:Freeman and Company, 1960
    144.李伟琦.分子内氢键对化合物性质的影响.周口师范学院学报,20(2003):37
    145. George A,J effrey. An Introduction to Hydrogen Bonding. New York, Oxford University Press.1997
    146. Kitaura,K.;Morokuma,K.Int.J.Quatum.Chem.,1976,10:325
    147. Epstein,L.M.;Shubina,E.S.CoordChem.Rev.,2002,231:165
    148.吴阳,冯璐,张向东C6H5-H…X分子间氢键的理论计算。物理化学学报,2008,24(4):653-658
    149.郑文锐,傅尧,刘磊,郭庆祥.尿素及硫脲与羰基化合物间的氢键相互作用.物理化学学报,2007,23(7):1018-1024.
    150.徐伟平,李光宪.分子自组装研究进展.化学通报,1999,2.
    151.Y.Y.Xiu Z.P.Zhang, D.N.Wang. "Hydrogen bonding and crystallization behavior of segmented polyurentaneureas," Polymer 33(1992):1335
    152.陈大俊,周涵新,孙桐.对聚氨酯中氢键强度分布的理论探讨.中国纺织大学学学报,17(1991):98-102
    153. GFestel. "Synthesis and properties of segmented polyurethane elastomers with molecularly uniform hard segments based on 1,5-naphthalene diisocyanate and 1,4-butanediol." 高分子通报,12(2004):42
    154. Z.Y.Ren, H.P.Wu, J.M.Ma, D.Z.Ma. "FTIR studies on the model polyurethane hard segments based on a new waterborne chain extender dimethylol butanoic acid (DMBA)." Chinese Journal of Polymer Science,22(2004): 225
    155. R.L.Mckiernan, A.M.Heintz, S.L.Hsu, E.D.TAtkins, J.Penelle, S.P.Gido. "Influence of Hydrogen Bonding on the Crystallization Behavior of Semicrystalline Polyurethanes." Macromolecules,35(2002):6970
    156. X.J.Lu, Y.S.Wang, X.W.Wu. Pokymer,1993,34(1):56-60
    157.张秋瑾,陈群.乙烯-乙烯醇共聚物氢键相互作用与链结构关系的变温溶液氢谱研究.高等学校化学学报,34(2003):728
    158. P.M.Bummer, K.Knutson. Macromoleculares,23(1990):4357
    159.陈雷,余学海,杨昌正.聚硅氧烷聚服多嵌段共聚物中氢键的研究.高分子学报,4(1996):130
    160. GFestel. "Synthesis and properties of segmented polyurethane elastomers with molecularly uniform hard segments based on 1,5-naphthalene diisocyanate and 1,4-butanediol."高分子通报,12(2004):42
    161. R.L.Mckiernan, A.M.Heintz, S.L.Hsu, E.D.T.Atkins, J.Penelle and S.P.Gido. "Influence of Hydrogen Bonding on the Crystallization Behavior of Semicrystalline Polyurethanes," Macromolecules,35(2002):6970
    162.任志勇.含羧基聚氨酯的分子间相互作用研究[D].中国科学技术大学,2003.
    163. Z.Y.Ren, H.P.Wu, J.M.Ma, D.Z.Ma. "FTIR studies on the model polyurethane hard segments based on a new waterborne chain extender dimethylol butanoic acid (DMBA)." Chinese Journal of Polymer Science,22(2004): 225
    164. H.Tan, M.Guo, R.Du, X.Y.Xie, J.H.Li, YP.Zhong, Q.Fu. "The effect of fluorinated side chain attached on hard segment on the phase separation and surface topography of polyurethanes." Polymer,45(2004):1647
    165. J.Bandekar, Y.J.Okuzumi. "FT-IR spectroscopic studies of polyurethanes Part 3:Quantum chemical studies of the carbamate group and the urethane C-O-C hydrogen bonding in polyurethanes," J. Mol. Struct. (Theochem) 281(1993):113
    166. J.Bandekar, S.Klima. "FT-IR spectroscopic studies of polyurethanes-+Part Ⅱ, Ab initio quantum chemical studies of the relative strength of "carbonyl" and "ether" hydrogen-bonds n polyurethanes," Spectrochim, Acta,48A(1992):1363
    167. C.M.Brunette, L.S.Hsu, W.J.MacKnight. "Hydrogen-Bonding Properties of Hard-Segment Model Compouns in Polyurethane Block Copolymers," Macromolecules,15(1982):71
    168. Z.Y.Ren, X.G.Zeng, X.Z.Yang, D.Z.Ma, S.L.Hsu. "Molecular modeling of the H-bonds in polyurethane with multiple donors and acceptors." Polymer,46(2005):12337
    169. Z.Y.Ren, D.Z.Ma, X.Z.Yang. "H-bond and conformations of donors and acceptors in model polyether based polyurethanes." Polymer,44(2003):6419
    170. G.A.Jeffrey, W.Schaad. "Hydrogen Bonding in Biological Structures, Berlin:Springer Verlag,1994.
    171.曾凡桂,张通,王三跃,谢克昌.煤超分子结构的概念及其研究途径与方法.煤炭学报,2005,30(1):85-89.
    172. Larsen J W. Am. Chem. Soc. Div. Fuel Chem.,1985,30(4):444-449.
    173. Brenner D. Fuel,1985,64:167-173.
    174. Larsen J W, Green TK, Kovac J. J. Org. Chem.,1985,50:4729-4735.
    175. Miura K, Mae K, Sakurada K et al. Energy&Fuels,1992,6:16-21
    176. Pimentel G C, McClellan AL. The Hydrogen Bond. Sanfrancisco and London:W. H.Freeman and company, 1960:68-71
    177. Solomon P R, Carangelo RM. Fuel,1982,61:663-669.
    178.李东涛,李文,李保庆.煤中氢键研究的新进展.化学通报,2001年第7期,411-415.
    179. Miura K, Mae K, Morozumi F. Am. Chem. Soc. Div. Fuel Chem.,1997,42(1):209-213
    180.李文,李保庆,三浦孝一.燃料化学学报,1999,27(增刊):11-14.
    181. Miura K, Mae K, Li W et al. Proceedings of the 10thICCS. Taityuan:Shanxi Sci.&Technol. Press,1999: 211-214.
    182. Miura K, Mae K, Li W et al. Am. Chem. Soc. Div. Fuel Chem.,1999,44(3):642-646
    183.罗陨飞.煤的大分子结构研究——煤中惰质组结构及煤中氧的赋存形态[D].煤炭科学研究总院,2002.
    184.朱学栋等.煤中含氧官能团的红外光谱定量分析.燃料化学学报,27(4):335-339
    185.朱学栋.华东理工大学博士论文,上海:1999.
    186.张卫.煤化作用早期分子间作用和化学作用协同效应的研究[D].太原理工大学,2005.
    187. Jose V Ibarra, Edger Munoz Rafael Moliner. FTIR study of the evolution of coal structure during the coalification process [J].Fuel,1996,24(6):725-735.
    188.李东涛,李文,李保庆.煤中氢键研究的新进展[J].化学通报,2001(7):411-415.
    189.冯杰,李文英,谢克昌.傅立叶红外光谱法对煤结构的研究[J].中国矿业大学学报,2002,31(5):362-366.
    190.张卫,曾凡桂,中等变质程度煤中轻基的红外光谱分析,太原理工大学学报,36(5):544-548.
    191.王恩元,何学秋,李忠辉,等.煤岩电磁辐射技术及其应用[M].北京:科学出版社,2009
    192.B.R.劳恩,T.R.威尔肖.脆性断裂力学[M].陈顒,尹祥础译.北京:地震出版社,1985.
    193. Ramulu M, Kobayashi A S, Kang B S J. Dynamic Crack Curving and Branching in Line Pipe. Journal of Pressure Vessel Technology,1982,104:317-322
    194.郭自强,杨海涛,刘斌.花岗岩破裂发射的量子化学模型.地球物理学报,1990,33(4):424-429.
    195.金维芳.电介质物理学(第二版).北京:机械工业出版社,1997.
    196.曾谨言.量子力学导论.北京:北京大学出版社,1998.
    197.徐为民,童芜生,吴培稚.岩石破裂过程中电磁辐射的实验研究,地球物理学报,1985(2).
    198. Maxwell M.. Electromagnetic responses from seismically excited targets, B:nonpiezo-electric phenomena. Exploration Geophysics,1992,23:201-208.
    199. Russell R. D.. Electromagnetic responses from seismically excited targets, A:piezo-electric phenomena at Humboldt, Austrilia. Exploration Geophysics,1992,23:281-286.
    200.P.Ⅲ.基利凯耶夫,M.H.米罗什尼钦科.力载荷下的岩石电场.见:苏联地震预报研究文集,地震出版社,1993:31-34.
    201.孙大明,席光康.固体的表面与界面.合肥:安徽教育出版社,1996.
    202. Egorov P.V., Ivanov V.V., Kolpakova, L.A.. Patterns in the electromagnetic pulsed radiation of alkali halide crystals and rocks. Soviet Mining Science,1988,24(1):58-61.
    203. Ivanov V.V., Egorov P.V., Kolpakova L.A., Pimonov A.G.. Crack dynamics and electromagnetic emission by loaded rock masses. Soviet Mining Science,1988,24(5):406-412.
    204. Alekseev D. V., Egorov P.V., Ivanov V.V.. Mechanisms of electrifications of cracks and electromagnetic precursors of rock failure. Soviet Mining Science,1993,28(6):515-519.
    205.王恩元,何学秋.煤岩变形破裂电磁辐射的实验研究,地球物理学报,2000,43(1):131-137.
    206.何学秋、刘明举、李增华,含孔隙气体煤岩砼破坏过程的电磁辐时机理,中国科协第二届青年学术年会卫星会议,1994.10,356-360.
    207.王恩元,何学秋.含瓦斯煤断裂电磁辐射的实验研究.煤炭工程师,1998(3):2-6.
    208.吴寿锽,丁士章.电动力学(第二版).西安:西安交通大学出版社,1993:154-170.
    209.乔松,周锰钰,白朗.勘探电磁场论.徐州:中国矿业大学出版社,1991.
    210.郭自强,刘斌.岩石破裂电磁辐射的频率特性.地球物理学报,1995,38(2):221-225.
    211. Savage J.C.. Radiation from a tensile fracture. J. Geophys. Res.,1963,68:6345-6358.
    212.姚孝新.破裂速度和地震.地球物理学报,1976,19(2).
    213. Johnson T.L., Scholz C.H.. Dynamic properties of stick-slip friction of rock. J. Geophys. Res.,1976,81(5).
    214.徐昭永,彭万里.大理石板中心受压时的破裂形式及破裂传播速度的实验研究.地震地质,1983,5(1).
    215.刘觉平.电动力学.武汉:武汉大学出版社,1997.
    216.朱郴韦.煤体破裂电磁辐射信号波形特征及降噪方法研究[D].北京:中国矿业大学(北京),2009
    217.冉启文,谭立英著.小波分析与分数傅里叶变换及应用.北京:国防工业出版社,2002
    218.樊启斌编著.小波分析.武汉:武汉大学出版社,2008.
    219.凌同华,李夕兵.基于小波变换的时-能分布确定微差爆破的实际延迟时间[J].岩石力学与工程学报,2004,23(13):2266-2270
    220. Huang N E, Shen Z, Long S R, et al. The Empirical mode decomposition and the Hilbert spectrum for nonlinear and nonstationary time series analysis [J]. Pro. Roy. Soc. London. A,1998,454:903-995
    221.薛嫚.总体平均经验模式分解法的理论研究[D].哈尔滨工程大学,2007
    222. Patrick Flandrin, Gabriel Rilling, Paulo Goncalves. Empirical Mode Decomposition as a Filter Bank. JEEE Signal Processing Letters.2004, Vol.11 No.2
    223. Zhaohua Wu, Norden E. Huang. A study of the characteristics of white noise using the empirical mode decomposition method. Proc. R. Soc. London A, Dec.2002, submitted for publication.
    224. Zhaohua Wu, Norden E. Huang. Ensemble Empirical Mode Decomposition:A Noise Assisted Data Analysis Method. August,2005.
    225.王宝俊.煤结构与反应性的量子化学研究[D].山西太原:太原理工大学,2006
    226. Gorbaty M. L., Larsen J. W., Wender I. Coal Science Vol.1. New York:Academic press,1982,3

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