复杂系统模拟方法研究及其在叶盘系统中的应用
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摘要
全文以典型复杂系统——叶盘系统为工程应用背景,针对现有动力学分析方法在指导复杂系统动力学特性研究时存在的不足和技术难点,进行了复杂系统相似理论和动力学模拟方法研究。主要研究内容如下:
1.从“一般系统理论”的角度出发,探讨了一般系统相似的基本原理,提出了一种适用于分析一般系统相似研究的理论与方法,为研究自然界中各种不同系统的同一现象及规律提供理论依据。
2.在一般系统相似理论与方法研究的基础上,提出了一种可用于复杂系统相似度量的新方法,从而为工程实际中复杂系统构建试验模型提供理论依据和技术指导。
3.以适用于多能域系统建模的键合图为工具,提出了一种适用于指导复杂系统动力学研究的模拟方法。
4.利用所提出的复杂系统动力学模拟方法及相似度量方法对复杂叶盘系统展开了分析和研究,并对其进行了模型试验研究。
针对复杂系统具有多能域、系统性等特点,本文在分析复杂系统相似原理和相似程度的基础上,提出了一种能广泛应用于复杂系统动力学特性研究的模拟方法,该方法是将原系统模型映射到另一更容易模拟的模型中去,通过模拟该映射模型的特性来实现对原系统模型动力学特性的研究。利用该方法在指导复杂系统动力学模拟试验时,能快速、简便而又直观地得到系统动力学特性研究结果,从而为工程中复杂系统的动力学研究提供了新的方法和思路。
A typical complex system -the bladed disk system is as a engineering background in the text.Aiming at shortcomings and technical difficulties of the existing dynamics methods researching at the dynamics characteristices of complex system, the complex systemic research on the similitude theory and dynamics simulative methods is presented.The main research contents as follows:
1. The basic principles for similarity of the general systems are advanced based on the perspective of "general systems theory",thus,the similitude theory and method which can be applied to research on general systems is established.The method provides a theoretical basis for studing the same phenomenon and laws of various systems in nature.
2. A new method of comples systems similarity measurement is presented based on the similitude theory and method of general systems.So the method provides a theoretical basis and technical guidance for building test models in engineering practice.
3. The dynamic similarity conditions for different energy systems are analysed based on the bond graph which is an effective tool for modeling of system with multi-energy domains,and a simulation method which can be widely used to study dynamics characteristices of complex systems are advanced.
4. The similarity analysis and research of complex bladed disk system is carried out by utilizing the methods of dynamics simulation and similarity measurement,and model test is studied.
Aiming at complex system with characteristics such as multi-energy domains coupling,systematization and so on, a simulation method which can be widely used to study dynamics characteristices of complex systems are advanced based on researching on the basic principles for similarity and similarity measurement. This method is to map the original system model to another more easily simulated model, through simulating the characteristices of the mapping model to achive the purpose of studying dynamics characteristices of the original system model. The dynamics characteristices can be derived efficiently、conveniently and intuitional when the method is utilized to dynamics simulative test of complex mechanical systems,so new ideal and methods have been provided for dynamics research of complex mechanical systems.
1.从“一般系统理论”的角度出发,探讨了一般系统相似的基本原理,提出了一种适用于分析一般系统相似研究的理论与方法,为研究自然界中各种不同系统的同一现象及规律提供理论依据。
2.在一般系统相似理论与方法研究的基础上,提出了一种可用于复杂系统相似度量的新方法,从而为工程实际中复杂系统构建试验模型提供理论依据和技术指导。
3.以适用于多能域系统建模的键合图为工具,提出了一种适用于指导复杂系统动力学研究的模拟方法。
4.利用所提出的复杂系统动力学模拟方法及相似度量方法对复杂叶盘系统展开了分析和研究,并对其进行了模型试验研究。
针对复杂系统具有多能域、系统性等特点,本文在分析复杂系统相似原理和相似程度的基础上,提出了一种能广泛应用于复杂系统动力学特性研究的模拟方法,该方法是将原系统模型映射到另一更容易模拟的模型中去,通过模拟该映射模型的特性来实现对原系统模型动力学特性的研究。利用该方法在指导复杂系统动力学模拟试验时,能快速、简便而又直观地得到系统动力学特性研究结果,从而为工程中复杂系统的动力学研究提供了新的方法和思路。
A typical complex system -the bladed disk system is as a engineering background in the text.Aiming at shortcomings and technical difficulties of the existing dynamics methods researching at the dynamics characteristices of complex system, the complex systemic research on the similitude theory and dynamics simulative methods is presented.The main research contents as follows:
1. The basic principles for similarity of the general systems are advanced based on the perspective of "general systems theory",thus,the similitude theory and method which can be applied to research on general systems is established.The method provides a theoretical basis for studing the same phenomenon and laws of various systems in nature.
2. A new method of comples systems similarity measurement is presented based on the similitude theory and method of general systems.So the method provides a theoretical basis and technical guidance for building test models in engineering practice.
3. The dynamic similarity conditions for different energy systems are analysed based on the bond graph which is an effective tool for modeling of system with multi-energy domains,and a simulation method which can be widely used to study dynamics characteristices of complex systems are advanced.
4. The similarity analysis and research of complex bladed disk system is carried out by utilizing the methods of dynamics simulation and similarity measurement,and model test is studied.
Aiming at complex system with characteristics such as multi-energy domains coupling,systematization and so on, a simulation method which can be widely used to study dynamics characteristices of complex systems are advanced based on researching on the basic principles for similarity and similarity measurement. This method is to map the original system model to another more easily simulated model, through simulating the characteristices of the mapping model to achive the purpose of studying dynamics characteristices of the original system model. The dynamics characteristices can be derived efficiently、conveniently and intuitional when the method is utilized to dynamics simulative test of complex mechanical systems,so new ideal and methods have been provided for dynamics research of complex mechanical systems.
引文
[1]糜洪元.国外燃气轮机发电技术的发展现况与展望[J].电力设备,2006,17(2):21-23
[2]张树治.燃气轮机发电机组的开发与应用[J].电信科学,1999,15(8):42-41
[3]Srinivasan A V.Vibrations of Bladed-disk Assemblies-A Selected Survey[J].ASME Journal of Vibration,1984,106(5):165-168
[4]Srinivasan A V.Flutter and Resonant Vibration Characteristics of Engine Blades[J].ASME Journal of Engineering for Gas Turbines and Power,1997,119(22):742-775
[5]Cifone A.Keynote Address,10th National Turbine Engine High Cyclic Fatigue Conference,2005,New Orleans,Louisiana
[6]Anderson P W. Absence of Diffusion in Certain Random Lattices[J]. Physics Review,1958,109(5):1492-1505
[7]Hodges C H. Confinement of Vibration by Structural Irregularity[J].Journal of sound and Vibration,1982,82(4):411-424
[8]Hodges C H, Woodhouse J. Vibration isolation from Irregularity in a Nearly Periodic Structure:Theory and Measurements [J]. Journal of the Aeoustical Society of America,1983,74(3):894-905
[9]李凤明,汪越胜,黄文虎,胡超.失谐周期结构中振动局部化问题的研究进展[J].力学进展,2005,35(4):498-512
[10]Ewins D J, Han Z S.Resonant vibration Levels of a Mistuned Bladed Disk[J]. ASME Journal of Vibration, Acoustics, Stress and Reliability in Design,1984, 106(25):211-217
[11]Ewins D J, Imregun M. Vibration modes of Packeted Bladed Disks[J]. ASME Journal of Vibration, Aeoustics, Stress and Reliability in Design,1984, 106(25):175-180
[12]Afolabi D. The Frequency Response of Mistuned Bladed Disk assemblies. In: Proc of the Tenth Biennial Conference on Mechanics Vibration and Noise. Cincinnati, Ohio,1985
[13]Afolabi D.The Eigenvalue Spectrum of a Mistuned Bladed Disk. In:Proe of the Tenth Biennial Conference on Mechanics Vibration and Noise. Cincinnati, Ohio,1985
[14]Pierre C. Mode Localization and Eigenvalue Loci Veering Phenomena in Disordered Structures[J]. Journal of Sound and Vibration,1988,126(3):485-502
[15]Pierre C, Murthy D V.Aeroelastic Modal Characteristics of Mistuned Blade Assemblies:Mode Localization and Loss of Eigenstructure[J]. AIAA,1992, 30(10):2483-2496
[16]Wei, S. T., Pierre, C. Localization Phenomena in Mistuned Assemblies with Cyclic Symmetry Part 1:Free Vibrations[J].Journal of Vibration, Acoustics, Stress, and Reliability in Design,Reliability in Design,1988,10(110):429-438.
[17]Wei S T, Pierre C.Localization Phenomena in Mistuned. Assemblies with Cyclic Symmetry Part11:ForeedVibrations[J].ASME Journal of Vibration, Acoustics, Stress and Reliability in Design,1988,10(110):439-449
[18]Happawana G S, Bajaj A K, Nwok O D1.A Singular Perturbation analysis of Eigenvalue Veering and Model Sensitivity in Perturbed Linear Periodic Systems[J]. Journal of Sound and Vibration,1993,160(2):225-242
[19]叶先磊,王建军,朱梓根,李其汉.大小叶盘结构连续参数模型和振动模态[J].航空动力学报,2005,20(1):66-72
[20]Happawana G S, Bajaj A K, Nwok O D1,Azene M.Free and Foreed Response of Mistuned Linear Cyclic Systems:A Singular Perturbation Approach[J]. Journal of Sound and Vibration,1998,211(5):761-789
[21]Ottarsson G,Pierre C.A Transfer Matrix Approach to Free Vibration LocaliZation in Mistuned Bladed Assemblies[J].Journal of sound and Vibration,1996, 197(5):589-618
[22]Kissel G J.Localization Factor for Multchannel Disordered Systems [J].Physical Review A,1991,44(2):1008-1014
[23]Castanier M P, Pierre C.LyaPunov Exponents and Localization Phenomena in Multi-coupled Nearly Periodic Systems [J].Jouranl of sound and Vibration, 1996,183(3):493-515
[24]Castanier M P, Pierre C.Predicting Localization via Lyapunov Exponent Statisties[J].Journal of Sound and Vibration,1997,203(1):151-157
[25]周纪卿,朱因远.非线性振动[M].西安:西安交通大学出版社,1998:42-56
[26]Baik S, CastanierM P, Pierre C.Mistuning Sensitivity Prediction of Bladed Disks Using Eigenvalue curve veerings.9th National Turbine Engine High Cyclic Fatigue Conference,2004,40(5):42-45
[27]Kenyon J A, Griffin J H, Kim N E.Sensitivity of Tuned Bladed Disk Response to Frequeney Veering[J].ASME Journal of Engineering for Gas Turbines and Power,2005,127:835-842
[28]Bladh R, Castanier M P, Pierre C.Models of Rotor Mistuning and Prediction of Mistuned Blade Forced Response.In:Proeeedings of the 4th National Turbine Engine High Cycle FatigueConferenee,1999,40(22):162-166
[29]Bladh R, Pierre C, Castanier M P, Kruse M J.Dynamic Response Predictions for a Mistuned Industrial Turbomachinery Rotor Using Redueed-Order Modeling[J].Journal of Engineering For Gas Turbines and Power,2002, 124(24):311-324
[30]Balmes E.High Modal Density, Curve Veering, Localization:A Different Perspective on the Structural Response[J]. Journal of Sound and Vibration,1993,161(2):358-363
[31]Hussein M 1, Pierre C, Castanier M P.Correlation of Tuned Free Vibration Characteristics With Mistuning Sensitivity for Bladed Disk.44th AxAA structures. Structral Dynamics and Materials Conference,2003,46(53): 2003-1544
[32]Petrov E P, Ewins D J. Analysis of the Worst Mistuning Patterns in Bladed Disk Assemblies[J]. ASME Journal of Turbomachinery,2003,125(4):623-631
[33]Yoo H H, Kim J Y,Inman D J.Vibration Localization of Simplified Mistuned Cyclic Struetures Undertaking External Harmonic Force[J].Journal of Sound and Vibration,2003,261(56):859-870
[34]Whitehead D S.Torsional Flutter of Unstalled Caseade Blades at Zero Deflection. R&M 3429.University of Cambridge.England:Cambridge,1964:45-51
[35]Whitehead D S.The Maximum Factor by Which Forced Vibration of Blades Can Increase due to Mistuning[J]. ASME Journal of Engineering for Gas Turbines and Power,1998,120(86):115-119
[36]Rivas-Guerra A J,Mignolet M P.Maximum Amplification of Blade Response Due to Mistuning:Localization and Modes Shapes Aspects of the Worst Disks[J]. ASME Turbo Expo 2002,2002,45(66):253-258
[37]Rivas-Guerra A J,Mignolet M P.Local/Global Effects of Mistuning on the Forced Response of Bladed Disks[J]. Proceedings of ASME TUBO EXPO,2001,47(32):156-161
[38]Kenyon J A,Griffin J H,Feiner D M.Maximum Bladed Disk Forced Response from Distortion of a Structural Mode[J].Journal of Turbomachinery,2003,125(2):352-363
[39]Whitehead D S.Effect of Mistuning on Forced Vibration of Blades with Mechanical Coupling[J]. Journal of Mechanical Engineering and Science,1976,18(4):306-307
[40]Cha D,Sinha A.Statistics of Response of a Mistuned Bladed Disk Assembly Subjected to White Noise and Narrow Band Excitation[J].ASME Journal of Engineering for Gas Turbines and Power,1999,121(5):710-717
[41]Cha D,Sinha A.Effects of Nature of Excitation on the Response of a Mistuned Bladed Disk Assembly[J].ASME Journal Turbomachinery,2002,124(23):588-596
[42]Kenyon J,Cross C,Minkiewicz,G Mechanical Coupling Effects on Turbomachine Mistuned Response[J].AIAA,1999,56(77):99-2807
[43]Hollkamp J J,Hustedde C L,Gordon R W.Effects of Damping on A Bladed-Disk Assembly [J].AIAA,1997,56(78):97-1395
[44]Seinturier E,Dupont C.A New Aeroelastic Model for Mistuned Bladed Disks. Structural Dynamics and Materials Conference,2002,32(42):22-25
[45]Kenyon J A,Rabe D C.Aerodynamic Effects on Blade Vibratory Stress Variations[J].AIAA,1998,56(42):98-3744,
[46]Reddy T S R,Min J B,Trudell J J.Mistuned Bladed Disk Analysis with Unsteady Aerodynamics Using turbo-REDUCE.Structural Dynamics and Materials Conference,2005,12(8):18-21
[47]Wei S-T, Pierre C .Effects of Dry Friction Damping on the Occurrence of Localized Forced Vibrations in Nearly Cyclic Struetures[J]. Journal of sound and Vibration,1989,129(3):397-416
[48]Cameron T M, Griffin J H. An Alternating Frequency/Time Domain Method for Calculating The Steady-State Response of Nonlinear Dynamic Systems[J]. Journal of Applied Mechanics,1989,56(13):149-154
[49]Csaba G.Forced Response Analysis in Time and Frequency Domains of a Tuned Bladed Disk with Friction Dampers[J].Journal of Sound and Vibration,1998, 214(3):395-412
[50]Cardona A. A Multiharmonic Method for Non-linear Vibration Analysis [J].International Journal for Numerical Methods in Engineering,1994, 37(5):1593-1608
[51]Berthillier M, Dupont C, et al.Blades Forced Resporise Analysis With Friction Dampers[J].ASME Journal of Vibration and Acoustics,1998,120(76):468-474
[52]李琳.带冠叶盘的二维子结构循环非线性力学模型及其响应特性[J].航空学报,1999,20(1):58
[53]李琳.非谐带冠叶盘系统动特性的统计特征[J].航空学报,2000,21(5):405-408
[54]Petrov E P, EwinsD J.Generic Friction Models for Time-Domain Vibration Analysis of Bladed Disks [J].ASNIE Journal of Turbomachinery,2004, 126(7):184-192
[55]Petrov E P.Method for Direct Parametric Analysis of Nonlinear Forced Response of Bladed Disks with Friction Contact Interfaces[J]. ASME Journal of Turbomaehinery,2004,126(56):654-662
[56]Petrov E P, Ewins D J.Method for Analysis of Nonlinear Multiharmonic Vibrations of Mistuned Bladed Disks with Scatter of Contact Interface Characteristics[J].ASME Journal of Turbomaehinery,2005,127(27):128-136
[57]Castanier M P,PierreC .Consideration of the Benefits of Intentional Blade Mistuning for The Forced Response of Turbomachinery Rotors[J]. Proe of the ASME Aerospace Division,1997,55(45):419-425
[58]Choi B-K, Lentz J, Riva-Guerra A, Mignolet M P.Optimization of Intentional Mistuning Patterns for Reduction of Forced Response Effects of Unintentional Mistuning:Formulation and Assessment. Proe of ASME TURBO EXPO, 2001,23(45):128-135
[59]甘春标,陆启韶,黄克累.耦合Van der Pol-Duffing振子的强共振分叉解[J].应用数学和力学,1999,20(1):63-70
[60]Ottarsson G S, Pierre C. Vibration Localization in Mono- and bi-coupled Bladed Disks- A Transfer Matrix Approach. Structural Dynamics and Material Conference,1993:3683-3693
[61]Griffin J H, Hoosac T M. Model Development and Statistical Investigation of Turbine Blade Mistuning[J]. ASME Journal of Vibration,1984 106(42):204-210
[62]Ewins D J. Vibration Characteristics of Bladed Disk Assemblies[J]. Journal of Mechanical Engineering Science,1973,15(3):165-186
[63]Kielb R E and Kaza K R V. Effects of structural coupling on mistuned cascade flutter and response[J]. ASME Eng Gas Turbines Power,1984,106(86):17-24.
[64]Rzadkowski R The General Model of Free Vibrations of Mistuned Bladed Discs, Part1:Theory[J].Journal of Sound and Vibration,1994,173(3):377-393.
[65]RZadkowski R The General Model of Free Vibrations of Mistuned Bladed Dises, Part2:Numerical Results[J].Journal of Sound and Vibration,1994, 173(3):395-413
[66]Turcotte J S,Holkamp J J and Gordon R W. Vibration of a mistuned bladed disk assembly using structurally damped beams[J]. AIAAJ,1998,36(26):2225-2228.
[67]胡超,李凤明,邹经湘等.失谐叶片一轮盘结构振动模态局部化问题的研究[J].中国机电工程学报,2003,23(11):189-194
[68]章永强,王文亮.真实盘片系统主模态局部化的分析[J].复旦大学学报,1992,2(5):46-52
[69]Castanier M P, ottarsson G A Reduced-Order Modeling Technique for Mistuned Bladed Disks[J].Journal of Vibration and Aeoustics.1997,119(42):439-447.
[70]王红建.复杂耦合失谐叶片-轮盘系统振动局部化问题研究:[博士学位论文].西安:西北工业大学,2006,9
[71]周美立.相似学[M].北京:中国科学技术出版社,1993:42-56
[72]周美立.相似工程学[M].北京:机械工业出版社,1998:12-18
[73]徐挺.相似方法及其应用[M].北京:机械工业出版社,1995:1-12
[74]Ervin Szucs.Similitude and modeling.Elservier Scientific Publishing Commpany,1980:42-45
[75]Barenblatt GI. Scaling self-similarity and intermediate asymptotics [M].Cambridge:Cambridge University press,1996,1,42-56
[76]Spagnoli A. Self-similarity and fractals in the Paris range of fatigue crack growth[J]. Mech Mater,2005,7(37):519-529
[77]Chen Y S ,Leung Y T. Bifurcation and chaos in engineering. London: Springer-Verlag,1998:72-80
[78]陈予恕.非线性动力系统的分岔和混沌理论[M].北京:高等教育出版社,1993,1-56
[79]陆启韶.分岔与奇异性-非线性科学丛书[M].上海:上海科技教育出版社,1995,45
[80]Marion M, Temam R. Nonlinear Galerkin methods[J]. SIAM Journal on Numerical Analysis,1989,26(5):1139-1157.
[81]Garcia-Archilla B, Novo J, Titi E S. An approximate inertial manifolds approach to post- processing the Galerkin method for the Navier-Stokes equations[J]. Mathematics of Computation,1999,68(227):893-911.
[82]He Y N, Liu K M, Sun W W. Multi-level spectral Galerkin method for the Navier-Stokes problem Ⅰ:spatial Discretization[J]. Numerische Mathematik, 2005,101(3):501-522.
[83]He Y N, Liu K M. Multi-level spectral Galerkin method for the Navier-Stokes equations Ⅱ:time discretization[J]. Advances in Computational Mathematics, 2006,25(4):403-433.
[84]Schneider R, Xu Y S, Zhou A H. An analysis of discontinuous Galerkin methods for elliptic problems[J]. Advances in Computational Mathematics,2006,25(13): 259-286.
[85]Foias C, Sell G R, Temam R. Inertial manifolds for nonlinear evolutionary equations [J]. Journal of Differential Equations,1988,73 (3):309-353.
[86]戴正德,郭柏灵.惯性流形与近似惯性流形[M].北京:科学出版社,2000:42-56
[87]Sinha S C, Redkar S, Butcher E A. Order reduction of nonlinear systems with time periodic coefficients using invariant manifolds[J].Journal of Sound and Vibration,2005,284(5):985-1002.
[88]R.Bellman.Adaptive control Processes:A Guided Tour[M].Princeton University Press,1961:55-67
[89]陈予恕.机械故障诊断的非线性动力学原理[J].机械工程学报,2007,43(1):25-32
[90]柴立和.相似理论的新视角探索[J].自然杂志.2000,22(3):168-170
[91]冯·贝塔朗菲著.《一般系统论——基础、发展和应用》[M].林康义等译,北京,清华大学出版社,1987:56-72
[92]林永福,吴健中.一般系统结构理论及其应用(Ⅰ)[J].系统工程学报,1997,12(3):15-16
[93]林永福,吴健中.一般系统结构理论及其应用(Ⅱ)[J].系统工程学报,1997,12(4):23-22
[94]高隆昌著.系统学原理[M].北京:科学出版社,2005:12-18
[95]许国志主编.系统科学[M].上海:上海科技教育出版社,2000:16-20
[96]苗东升.系统科学原理[M].北京:中国人民大学出版社,1990:1-6
[97]周美立.相似学[M].北京:中国科学技术出版社,1993:1-13.
[98]周美立.相似系统探讨[J].系统工程理论与实践,1991,11(6):51-55
[99]Zhou Meili. Some concepts and mathematical consideration of similarity system theory [J].Journal of systems science & systems engineering,1992,1(1):84-92
[100]Zhou Meili.System analysis of similarity between engineering technology systems. Proceedings of the Xith International Conference on Production Research 1991,Beijing:Taylor & Francis and China Machine Press,1991:1597-1600
[101]周美立.相似系统论[M].北京:科学技术文献出版社,1994:42-56
[102]周美立,王浣尘.相似系统的分析与度量[J].系统工程,1996,4(76):12
[103]周美立.单元化系统集成设计中的相似性与复杂性[J].中国机械工程,2004,15(7):15-23
[104]周美立.复杂机械产品系统差异性分析度量方法.农业机械学报,2006,37(7):56
[105]王浣尘.可行性研究和多目标决策.北京:机械工业出版社,1996:12-23
[106]Paynter H M. Generalizing the concepts of power transport and energy ports for system engineering. ASME P resented at the 1958 Annual Meeting. 1958:89-101
[107]Paynter H M. Hydraulics by analogan electronic model of a pumping plant. J Boston Soc. Civil Engng,1959;3 (8):197-219
[108]蔡志鹏,梁云,张春霞.冶金反应工程学丛书——化工冶金模型试验研究及其测试技术.北京:冶金工业出版社,2001:38-39
[109]Sharma, Mahadev, Amateis Ralph L. Forest stand dynamics and similarity theory[J]. Ecological Modeling,2003,167(12):165-180
[110]V.V. Nikonenko, N.D. Pismenskaya, et al. Description of mass transfer characteristics of ED and EDI apparatuses by using the similarity theory and compartmentation method[J]. Chemical Engineering and Processing, 2008,47(5):1118-1127
[111]E.P. Marques Filho, L.D.A. Sa, et al. Atmospheric surface layer characteristics of turbulence above the Pantanal wetland regarding the similarity theory[J]. Agricultural and Forest meteorology,2008,148(8):883-892
[112]L. Franco, et al. Prototype measurements and small-scale model tests of wave overtopping at shallow rubble-mound breakwaters:the Ostia-Rome yacht harbour case.Coastal Engineering,2008,3(9):10-25
[113]李家平,张子新等.宁波庆丰大桥锚碇室内相似模型试验研究[J].同济大学学报(自然科学版),2005,33(8):1011-1016
[114]F. Wille, V. Ballheimer, B. Droste. Suggestions for correct performance of IAEA 1 m puncture bar drop test with reduced scale packages considering similarity theory aspects[J].Packaging, Transport, Storage & Security of Radioactive Material,2007,18(2):111-116
[115]杜云鹤,李世民等.降雨前复合土钉支护填土边壁(坡)相似模型试验研究[J].岩石力学与工程学报,2006,25(增1):2833-2840
[116]Pairod Singhatanadgid, Anawat Na Songkhla. An experimental investigation into the use of scaling laws for predicting vibration responses of rectangular thin plates[J]. Journal of sound and vibration,2007,42(9):1-14
[117]J.Rezaeepazhand, G.J.Simitses, J.H.Starnes Jr. Use of scaled-down models for predicting vibration response of laminated plates[J].Composite Structures,1995, 52(30):419-426
[118]Alberto Carpinteri, Marco Paggi. Self-similarity and crack growth instability in the correlation between the Paris'constants[J]. Engineering Fracture Mechanics, 2007,15(74):1041-1053
[119]Barenblatt GI. Scaling phenomena in fatigue and fracture. Int J Fract,2006, 20(138):19-35
[120]H M Panynter. Analysis and design of engineering systems[M]. MIT Press, Cambridge, Mass,1961:22-23
[121]R.C. Rosenberger and D C Karnopp. Introducton to Physical System Dynamics McGraw-Hill book company New York,1983:56-72
[122]D C Karnopp, D Margolie, R C RosenBerg. Systems Dynamics:A Unified Approach [M]. John Wiley and Sons, New York,2nd,1990:44-43
[123]Wei S T,Pierre C.Localization phenomena in mistuned assenblies with cyclic summetry part 1:free vibrations[J].ASME Vib Acous Stress Rel Des,1988,110 (2):429-438
[124]Wei S T,Pierre C.Localization phenomena in mistuned assenblies with cyclic summetry part 2:forced vibrations[J].ASME Vib Acous Stress Rel Des,1988,110(3):499-449
[125]Slater J C,Minkiewicz G R,Blair A J.Forced Response of Bladed Disk Assemblies,A Survey[D].American institute of Aeronantics and As-tronautics, 1998:98-3743,
[126]HUAN B W, KUANG J H. Mode localization in a rotating mistuned turbo disk with Coriolis effect [J]. International Journal of Mechanical Sciences,2001, 43(6):1643-1660
[127]HUANG B W, KUNG H K, KUANG J H. Modal localization in mistuned tube-arry structures [J]. International Journal of Solids and Structures,2008, 45(4):3192-3202
[128]HE Zhi-jiang, EPUREANU B I, PIERRE C. Parametric study of the aeroelastic response of mistuned bladed disks [J]. Computers and Structres 2007,85(27): 852-865
[129]MOHAMMAD R, SAEED Z R.Uncertainty treatment in forced response calculation of mistuned bladed disk[J].Mathematics and Computers in simulation, 2009,12(36)12-3279
[130]黄文虎,武新华,焦映厚,夏松波,陈照波.非线性转子动力学研究综述[J].振动工程学报,2000,13(4):12-16
[131]JUDGE J, PIERRE C.Experimental investigation of mode incalization and forced respone amplification for a mistuned bladed disk [A].Proceeding of ASME. TURBOEXPO 2000[C]. Germany, Munich,2000.
[132]KRUSE M J. PIERRE C, An experimental investigatioBration of vibration localization in bladed disks, part Ⅰ, free response [A]. proceeding of the 42ed ASME Gas Turbine & Aeroengine congress, User's Symposium & Exposiuon[C]. Florida, Orlando.1997.
[133]KRUSE M J. PIERRE C, An experimental investigatioBration of vibration localization in bladed disks, part Ⅱ, free response [A]. proceeding of the 42ed ASME Gas Turbine & Aeroengine congress, User's Symposium & Exposiuon[C]. Florida, Orlando.1997
[134]王艾伦.复杂机电系统(键合图—模态分析)方法研究:[博士学位论文].长沙:中南大学,2004,12
[2]张树治.燃气轮机发电机组的开发与应用[J].电信科学,1999,15(8):42-41
[3]Srinivasan A V.Vibrations of Bladed-disk Assemblies-A Selected Survey[J].ASME Journal of Vibration,1984,106(5):165-168
[4]Srinivasan A V.Flutter and Resonant Vibration Characteristics of Engine Blades[J].ASME Journal of Engineering for Gas Turbines and Power,1997,119(22):742-775
[5]Cifone A.Keynote Address,10th National Turbine Engine High Cyclic Fatigue Conference,2005,New Orleans,Louisiana
[6]Anderson P W. Absence of Diffusion in Certain Random Lattices[J]. Physics Review,1958,109(5):1492-1505
[7]Hodges C H. Confinement of Vibration by Structural Irregularity[J].Journal of sound and Vibration,1982,82(4):411-424
[8]Hodges C H, Woodhouse J. Vibration isolation from Irregularity in a Nearly Periodic Structure:Theory and Measurements [J]. Journal of the Aeoustical Society of America,1983,74(3):894-905
[9]李凤明,汪越胜,黄文虎,胡超.失谐周期结构中振动局部化问题的研究进展[J].力学进展,2005,35(4):498-512
[10]Ewins D J, Han Z S.Resonant vibration Levels of a Mistuned Bladed Disk[J]. ASME Journal of Vibration, Acoustics, Stress and Reliability in Design,1984, 106(25):211-217
[11]Ewins D J, Imregun M. Vibration modes of Packeted Bladed Disks[J]. ASME Journal of Vibration, Aeoustics, Stress and Reliability in Design,1984, 106(25):175-180
[12]Afolabi D. The Frequency Response of Mistuned Bladed Disk assemblies. In: Proc of the Tenth Biennial Conference on Mechanics Vibration and Noise. Cincinnati, Ohio,1985
[13]Afolabi D.The Eigenvalue Spectrum of a Mistuned Bladed Disk. In:Proe of the Tenth Biennial Conference on Mechanics Vibration and Noise. Cincinnati, Ohio,1985
[14]Pierre C. Mode Localization and Eigenvalue Loci Veering Phenomena in Disordered Structures[J]. Journal of Sound and Vibration,1988,126(3):485-502
[15]Pierre C, Murthy D V.Aeroelastic Modal Characteristics of Mistuned Blade Assemblies:Mode Localization and Loss of Eigenstructure[J]. AIAA,1992, 30(10):2483-2496
[16]Wei, S. T., Pierre, C. Localization Phenomena in Mistuned Assemblies with Cyclic Symmetry Part 1:Free Vibrations[J].Journal of Vibration, Acoustics, Stress, and Reliability in Design,Reliability in Design,1988,10(110):429-438.
[17]Wei S T, Pierre C.Localization Phenomena in Mistuned. Assemblies with Cyclic Symmetry Part11:ForeedVibrations[J].ASME Journal of Vibration, Acoustics, Stress and Reliability in Design,1988,10(110):439-449
[18]Happawana G S, Bajaj A K, Nwok O D1.A Singular Perturbation analysis of Eigenvalue Veering and Model Sensitivity in Perturbed Linear Periodic Systems[J]. Journal of Sound and Vibration,1993,160(2):225-242
[19]叶先磊,王建军,朱梓根,李其汉.大小叶盘结构连续参数模型和振动模态[J].航空动力学报,2005,20(1):66-72
[20]Happawana G S, Bajaj A K, Nwok O D1,Azene M.Free and Foreed Response of Mistuned Linear Cyclic Systems:A Singular Perturbation Approach[J]. Journal of Sound and Vibration,1998,211(5):761-789
[21]Ottarsson G,Pierre C.A Transfer Matrix Approach to Free Vibration LocaliZation in Mistuned Bladed Assemblies[J].Journal of sound and Vibration,1996, 197(5):589-618
[22]Kissel G J.Localization Factor for Multchannel Disordered Systems [J].Physical Review A,1991,44(2):1008-1014
[23]Castanier M P, Pierre C.LyaPunov Exponents and Localization Phenomena in Multi-coupled Nearly Periodic Systems [J].Jouranl of sound and Vibration, 1996,183(3):493-515
[24]Castanier M P, Pierre C.Predicting Localization via Lyapunov Exponent Statisties[J].Journal of Sound and Vibration,1997,203(1):151-157
[25]周纪卿,朱因远.非线性振动[M].西安:西安交通大学出版社,1998:42-56
[26]Baik S, CastanierM P, Pierre C.Mistuning Sensitivity Prediction of Bladed Disks Using Eigenvalue curve veerings.9th National Turbine Engine High Cyclic Fatigue Conference,2004,40(5):42-45
[27]Kenyon J A, Griffin J H, Kim N E.Sensitivity of Tuned Bladed Disk Response to Frequeney Veering[J].ASME Journal of Engineering for Gas Turbines and Power,2005,127:835-842
[28]Bladh R, Castanier M P, Pierre C.Models of Rotor Mistuning and Prediction of Mistuned Blade Forced Response.In:Proeeedings of the 4th National Turbine Engine High Cycle FatigueConferenee,1999,40(22):162-166
[29]Bladh R, Pierre C, Castanier M P, Kruse M J.Dynamic Response Predictions for a Mistuned Industrial Turbomachinery Rotor Using Redueed-Order Modeling[J].Journal of Engineering For Gas Turbines and Power,2002, 124(24):311-324
[30]Balmes E.High Modal Density, Curve Veering, Localization:A Different Perspective on the Structural Response[J]. Journal of Sound and Vibration,1993,161(2):358-363
[31]Hussein M 1, Pierre C, Castanier M P.Correlation of Tuned Free Vibration Characteristics With Mistuning Sensitivity for Bladed Disk.44th AxAA structures. Structral Dynamics and Materials Conference,2003,46(53): 2003-1544
[32]Petrov E P, Ewins D J. Analysis of the Worst Mistuning Patterns in Bladed Disk Assemblies[J]. ASME Journal of Turbomachinery,2003,125(4):623-631
[33]Yoo H H, Kim J Y,Inman D J.Vibration Localization of Simplified Mistuned Cyclic Struetures Undertaking External Harmonic Force[J].Journal of Sound and Vibration,2003,261(56):859-870
[34]Whitehead D S.Torsional Flutter of Unstalled Caseade Blades at Zero Deflection. R&M 3429.University of Cambridge.England:Cambridge,1964:45-51
[35]Whitehead D S.The Maximum Factor by Which Forced Vibration of Blades Can Increase due to Mistuning[J]. ASME Journal of Engineering for Gas Turbines and Power,1998,120(86):115-119
[36]Rivas-Guerra A J,Mignolet M P.Maximum Amplification of Blade Response Due to Mistuning:Localization and Modes Shapes Aspects of the Worst Disks[J]. ASME Turbo Expo 2002,2002,45(66):253-258
[37]Rivas-Guerra A J,Mignolet M P.Local/Global Effects of Mistuning on the Forced Response of Bladed Disks[J]. Proceedings of ASME TUBO EXPO,2001,47(32):156-161
[38]Kenyon J A,Griffin J H,Feiner D M.Maximum Bladed Disk Forced Response from Distortion of a Structural Mode[J].Journal of Turbomachinery,2003,125(2):352-363
[39]Whitehead D S.Effect of Mistuning on Forced Vibration of Blades with Mechanical Coupling[J]. Journal of Mechanical Engineering and Science,1976,18(4):306-307
[40]Cha D,Sinha A.Statistics of Response of a Mistuned Bladed Disk Assembly Subjected to White Noise and Narrow Band Excitation[J].ASME Journal of Engineering for Gas Turbines and Power,1999,121(5):710-717
[41]Cha D,Sinha A.Effects of Nature of Excitation on the Response of a Mistuned Bladed Disk Assembly[J].ASME Journal Turbomachinery,2002,124(23):588-596
[42]Kenyon J,Cross C,Minkiewicz,G Mechanical Coupling Effects on Turbomachine Mistuned Response[J].AIAA,1999,56(77):99-2807
[43]Hollkamp J J,Hustedde C L,Gordon R W.Effects of Damping on A Bladed-Disk Assembly [J].AIAA,1997,56(78):97-1395
[44]Seinturier E,Dupont C.A New Aeroelastic Model for Mistuned Bladed Disks. Structural Dynamics and Materials Conference,2002,32(42):22-25
[45]Kenyon J A,Rabe D C.Aerodynamic Effects on Blade Vibratory Stress Variations[J].AIAA,1998,56(42):98-3744,
[46]Reddy T S R,Min J B,Trudell J J.Mistuned Bladed Disk Analysis with Unsteady Aerodynamics Using turbo-REDUCE.Structural Dynamics and Materials Conference,2005,12(8):18-21
[47]Wei S-T, Pierre C .Effects of Dry Friction Damping on the Occurrence of Localized Forced Vibrations in Nearly Cyclic Struetures[J]. Journal of sound and Vibration,1989,129(3):397-416
[48]Cameron T M, Griffin J H. An Alternating Frequency/Time Domain Method for Calculating The Steady-State Response of Nonlinear Dynamic Systems[J]. Journal of Applied Mechanics,1989,56(13):149-154
[49]Csaba G.Forced Response Analysis in Time and Frequency Domains of a Tuned Bladed Disk with Friction Dampers[J].Journal of Sound and Vibration,1998, 214(3):395-412
[50]Cardona A. A Multiharmonic Method for Non-linear Vibration Analysis [J].International Journal for Numerical Methods in Engineering,1994, 37(5):1593-1608
[51]Berthillier M, Dupont C, et al.Blades Forced Resporise Analysis With Friction Dampers[J].ASME Journal of Vibration and Acoustics,1998,120(76):468-474
[52]李琳.带冠叶盘的二维子结构循环非线性力学模型及其响应特性[J].航空学报,1999,20(1):58
[53]李琳.非谐带冠叶盘系统动特性的统计特征[J].航空学报,2000,21(5):405-408
[54]Petrov E P, EwinsD J.Generic Friction Models for Time-Domain Vibration Analysis of Bladed Disks [J].ASNIE Journal of Turbomachinery,2004, 126(7):184-192
[55]Petrov E P.Method for Direct Parametric Analysis of Nonlinear Forced Response of Bladed Disks with Friction Contact Interfaces[J]. ASME Journal of Turbomaehinery,2004,126(56):654-662
[56]Petrov E P, Ewins D J.Method for Analysis of Nonlinear Multiharmonic Vibrations of Mistuned Bladed Disks with Scatter of Contact Interface Characteristics[J].ASME Journal of Turbomaehinery,2005,127(27):128-136
[57]Castanier M P,PierreC .Consideration of the Benefits of Intentional Blade Mistuning for The Forced Response of Turbomachinery Rotors[J]. Proe of the ASME Aerospace Division,1997,55(45):419-425
[58]Choi B-K, Lentz J, Riva-Guerra A, Mignolet M P.Optimization of Intentional Mistuning Patterns for Reduction of Forced Response Effects of Unintentional Mistuning:Formulation and Assessment. Proe of ASME TURBO EXPO, 2001,23(45):128-135
[59]甘春标,陆启韶,黄克累.耦合Van der Pol-Duffing振子的强共振分叉解[J].应用数学和力学,1999,20(1):63-70
[60]Ottarsson G S, Pierre C. Vibration Localization in Mono- and bi-coupled Bladed Disks- A Transfer Matrix Approach. Structural Dynamics and Material Conference,1993:3683-3693
[61]Griffin J H, Hoosac T M. Model Development and Statistical Investigation of Turbine Blade Mistuning[J]. ASME Journal of Vibration,1984 106(42):204-210
[62]Ewins D J. Vibration Characteristics of Bladed Disk Assemblies[J]. Journal of Mechanical Engineering Science,1973,15(3):165-186
[63]Kielb R E and Kaza K R V. Effects of structural coupling on mistuned cascade flutter and response[J]. ASME Eng Gas Turbines Power,1984,106(86):17-24.
[64]Rzadkowski R The General Model of Free Vibrations of Mistuned Bladed Discs, Part1:Theory[J].Journal of Sound and Vibration,1994,173(3):377-393.
[65]RZadkowski R The General Model of Free Vibrations of Mistuned Bladed Dises, Part2:Numerical Results[J].Journal of Sound and Vibration,1994, 173(3):395-413
[66]Turcotte J S,Holkamp J J and Gordon R W. Vibration of a mistuned bladed disk assembly using structurally damped beams[J]. AIAAJ,1998,36(26):2225-2228.
[67]胡超,李凤明,邹经湘等.失谐叶片一轮盘结构振动模态局部化问题的研究[J].中国机电工程学报,2003,23(11):189-194
[68]章永强,王文亮.真实盘片系统主模态局部化的分析[J].复旦大学学报,1992,2(5):46-52
[69]Castanier M P, ottarsson G A Reduced-Order Modeling Technique for Mistuned Bladed Disks[J].Journal of Vibration and Aeoustics.1997,119(42):439-447.
[70]王红建.复杂耦合失谐叶片-轮盘系统振动局部化问题研究:[博士学位论文].西安:西北工业大学,2006,9
[71]周美立.相似学[M].北京:中国科学技术出版社,1993:42-56
[72]周美立.相似工程学[M].北京:机械工业出版社,1998:12-18
[73]徐挺.相似方法及其应用[M].北京:机械工业出版社,1995:1-12
[74]Ervin Szucs.Similitude and modeling.Elservier Scientific Publishing Commpany,1980:42-45
[75]Barenblatt GI. Scaling self-similarity and intermediate asymptotics [M].Cambridge:Cambridge University press,1996,1,42-56
[76]Spagnoli A. Self-similarity and fractals in the Paris range of fatigue crack growth[J]. Mech Mater,2005,7(37):519-529
[77]Chen Y S ,Leung Y T. Bifurcation and chaos in engineering. London: Springer-Verlag,1998:72-80
[78]陈予恕.非线性动力系统的分岔和混沌理论[M].北京:高等教育出版社,1993,1-56
[79]陆启韶.分岔与奇异性-非线性科学丛书[M].上海:上海科技教育出版社,1995,45
[80]Marion M, Temam R. Nonlinear Galerkin methods[J]. SIAM Journal on Numerical Analysis,1989,26(5):1139-1157.
[81]Garcia-Archilla B, Novo J, Titi E S. An approximate inertial manifolds approach to post- processing the Galerkin method for the Navier-Stokes equations[J]. Mathematics of Computation,1999,68(227):893-911.
[82]He Y N, Liu K M, Sun W W. Multi-level spectral Galerkin method for the Navier-Stokes problem Ⅰ:spatial Discretization[J]. Numerische Mathematik, 2005,101(3):501-522.
[83]He Y N, Liu K M. Multi-level spectral Galerkin method for the Navier-Stokes equations Ⅱ:time discretization[J]. Advances in Computational Mathematics, 2006,25(4):403-433.
[84]Schneider R, Xu Y S, Zhou A H. An analysis of discontinuous Galerkin methods for elliptic problems[J]. Advances in Computational Mathematics,2006,25(13): 259-286.
[85]Foias C, Sell G R, Temam R. Inertial manifolds for nonlinear evolutionary equations [J]. Journal of Differential Equations,1988,73 (3):309-353.
[86]戴正德,郭柏灵.惯性流形与近似惯性流形[M].北京:科学出版社,2000:42-56
[87]Sinha S C, Redkar S, Butcher E A. Order reduction of nonlinear systems with time periodic coefficients using invariant manifolds[J].Journal of Sound and Vibration,2005,284(5):985-1002.
[88]R.Bellman.Adaptive control Processes:A Guided Tour[M].Princeton University Press,1961:55-67
[89]陈予恕.机械故障诊断的非线性动力学原理[J].机械工程学报,2007,43(1):25-32
[90]柴立和.相似理论的新视角探索[J].自然杂志.2000,22(3):168-170
[91]冯·贝塔朗菲著.《一般系统论——基础、发展和应用》[M].林康义等译,北京,清华大学出版社,1987:56-72
[92]林永福,吴健中.一般系统结构理论及其应用(Ⅰ)[J].系统工程学报,1997,12(3):15-16
[93]林永福,吴健中.一般系统结构理论及其应用(Ⅱ)[J].系统工程学报,1997,12(4):23-22
[94]高隆昌著.系统学原理[M].北京:科学出版社,2005:12-18
[95]许国志主编.系统科学[M].上海:上海科技教育出版社,2000:16-20
[96]苗东升.系统科学原理[M].北京:中国人民大学出版社,1990:1-6
[97]周美立.相似学[M].北京:中国科学技术出版社,1993:1-13.
[98]周美立.相似系统探讨[J].系统工程理论与实践,1991,11(6):51-55
[99]Zhou Meili. Some concepts and mathematical consideration of similarity system theory [J].Journal of systems science & systems engineering,1992,1(1):84-92
[100]Zhou Meili.System analysis of similarity between engineering technology systems. Proceedings of the Xith International Conference on Production Research 1991,Beijing:Taylor & Francis and China Machine Press,1991:1597-1600
[101]周美立.相似系统论[M].北京:科学技术文献出版社,1994:42-56
[102]周美立,王浣尘.相似系统的分析与度量[J].系统工程,1996,4(76):12
[103]周美立.单元化系统集成设计中的相似性与复杂性[J].中国机械工程,2004,15(7):15-23
[104]周美立.复杂机械产品系统差异性分析度量方法.农业机械学报,2006,37(7):56
[105]王浣尘.可行性研究和多目标决策.北京:机械工业出版社,1996:12-23
[106]Paynter H M. Generalizing the concepts of power transport and energy ports for system engineering. ASME P resented at the 1958 Annual Meeting. 1958:89-101
[107]Paynter H M. Hydraulics by analogan electronic model of a pumping plant. J Boston Soc. Civil Engng,1959;3 (8):197-219
[108]蔡志鹏,梁云,张春霞.冶金反应工程学丛书——化工冶金模型试验研究及其测试技术.北京:冶金工业出版社,2001:38-39
[109]Sharma, Mahadev, Amateis Ralph L. Forest stand dynamics and similarity theory[J]. Ecological Modeling,2003,167(12):165-180
[110]V.V. Nikonenko, N.D. Pismenskaya, et al. Description of mass transfer characteristics of ED and EDI apparatuses by using the similarity theory and compartmentation method[J]. Chemical Engineering and Processing, 2008,47(5):1118-1127
[111]E.P. Marques Filho, L.D.A. Sa, et al. Atmospheric surface layer characteristics of turbulence above the Pantanal wetland regarding the similarity theory[J]. Agricultural and Forest meteorology,2008,148(8):883-892
[112]L. Franco, et al. Prototype measurements and small-scale model tests of wave overtopping at shallow rubble-mound breakwaters:the Ostia-Rome yacht harbour case.Coastal Engineering,2008,3(9):10-25
[113]李家平,张子新等.宁波庆丰大桥锚碇室内相似模型试验研究[J].同济大学学报(自然科学版),2005,33(8):1011-1016
[114]F. Wille, V. Ballheimer, B. Droste. Suggestions for correct performance of IAEA 1 m puncture bar drop test with reduced scale packages considering similarity theory aspects[J].Packaging, Transport, Storage & Security of Radioactive Material,2007,18(2):111-116
[115]杜云鹤,李世民等.降雨前复合土钉支护填土边壁(坡)相似模型试验研究[J].岩石力学与工程学报,2006,25(增1):2833-2840
[116]Pairod Singhatanadgid, Anawat Na Songkhla. An experimental investigation into the use of scaling laws for predicting vibration responses of rectangular thin plates[J]. Journal of sound and vibration,2007,42(9):1-14
[117]J.Rezaeepazhand, G.J.Simitses, J.H.Starnes Jr. Use of scaled-down models for predicting vibration response of laminated plates[J].Composite Structures,1995, 52(30):419-426
[118]Alberto Carpinteri, Marco Paggi. Self-similarity and crack growth instability in the correlation between the Paris'constants[J]. Engineering Fracture Mechanics, 2007,15(74):1041-1053
[119]Barenblatt GI. Scaling phenomena in fatigue and fracture. Int J Fract,2006, 20(138):19-35
[120]H M Panynter. Analysis and design of engineering systems[M]. MIT Press, Cambridge, Mass,1961:22-23
[121]R.C. Rosenberger and D C Karnopp. Introducton to Physical System Dynamics McGraw-Hill book company New York,1983:56-72
[122]D C Karnopp, D Margolie, R C RosenBerg. Systems Dynamics:A Unified Approach [M]. John Wiley and Sons, New York,2nd,1990:44-43
[123]Wei S T,Pierre C.Localization phenomena in mistuned assenblies with cyclic summetry part 1:free vibrations[J].ASME Vib Acous Stress Rel Des,1988,110 (2):429-438
[124]Wei S T,Pierre C.Localization phenomena in mistuned assenblies with cyclic summetry part 2:forced vibrations[J].ASME Vib Acous Stress Rel Des,1988,110(3):499-449
[125]Slater J C,Minkiewicz G R,Blair A J.Forced Response of Bladed Disk Assemblies,A Survey[D].American institute of Aeronantics and As-tronautics, 1998:98-3743,
[126]HUAN B W, KUANG J H. Mode localization in a rotating mistuned turbo disk with Coriolis effect [J]. International Journal of Mechanical Sciences,2001, 43(6):1643-1660
[127]HUANG B W, KUNG H K, KUANG J H. Modal localization in mistuned tube-arry structures [J]. International Journal of Solids and Structures,2008, 45(4):3192-3202
[128]HE Zhi-jiang, EPUREANU B I, PIERRE C. Parametric study of the aeroelastic response of mistuned bladed disks [J]. Computers and Structres 2007,85(27): 852-865
[129]MOHAMMAD R, SAEED Z R.Uncertainty treatment in forced response calculation of mistuned bladed disk[J].Mathematics and Computers in simulation, 2009,12(36)12-3279
[130]黄文虎,武新华,焦映厚,夏松波,陈照波.非线性转子动力学研究综述[J].振动工程学报,2000,13(4):12-16
[131]JUDGE J, PIERRE C.Experimental investigation of mode incalization and forced respone amplification for a mistuned bladed disk [A].Proceeding of ASME. TURBOEXPO 2000[C]. Germany, Munich,2000.
[132]KRUSE M J. PIERRE C, An experimental investigatioBration of vibration localization in bladed disks, part Ⅰ, free response [A]. proceeding of the 42ed ASME Gas Turbine & Aeroengine congress, User's Symposium & Exposiuon[C]. Florida, Orlando.1997.
[133]KRUSE M J. PIERRE C, An experimental investigatioBration of vibration localization in bladed disks, part Ⅱ, free response [A]. proceeding of the 42ed ASME Gas Turbine & Aeroengine congress, User's Symposium & Exposiuon[C]. Florida, Orlando.1997
[134]王艾伦.复杂机电系统(键合图—模态分析)方法研究:[博士学位论文].长沙:中南大学,2004,12