摘要
随着工业的发展和社会的进步,旋转机械转速不断增加,性能不断提高。特别是像燃汽轮机、航空发动机、工业压缩机及各种电动机等过程装备及机械装置,由于其转速加大,推重比提高,带来了零部件重量的减轻和负荷的增加,从而导致了振动的加剧。旋转机械的振动历来是人们极为关注的问题,高速旋转机械的振动则尤其复杂,其研究工作更显得重要。因此,高速旋转系统动态特性分析及优化方法研究是促进高速旋转机械发展和推广应用的重要应用基础课题,对充分发挥高速旋转机械的技术优势、经济优势和社会优势具有重要的理论意义和现实意义。
探讨适合高转速特点的高速旋转系统动力学建模及其建模方法,基于Timoshenko连续梁理论,运用有限单元法和第二类Lagrange方程,建立高速旋转系统(轴承-转子系统)多自由度动力学模型。此模型考虑转动惯量、陀螺力矩、剪切变形、不平衡和材料阻尼等因素的影响。
针对所建立的动力学模型,分别讨论系统的固有频率、临界转速、频响函数和动力响应等动态特性。重点探讨反对称特征值的求解方法—由广义Arnoldi法推导的本质缩减算法。其中,在应用广义Arnoldi法推导陀螺特征值时,引入针对对称特征值问题提出的重起动概念,使此减缩方法成为完善的大型特征值问题的求解方法。另外,运用上述动特性分析方法对一实际转子系统的动态特性进行数值计算。
基于所建立的动力学模型和对模型的动态特性分析,运用Lyapunov稳定性定理和稳定性判据,研究陀螺力(陀螺力矩)与高速旋转系统稳定性的关系,分析陀螺力对高速旋转系统动态稳定性的影响。探讨基于频响函数的高速旋转系统稳定性评价方法和理论体系,给出基于频响函数的高速旋转系统稳定性预测分析方法。
将结构动力修改技术引入高速旋转系统动态优化的“逆问题”求解并给予延伸和发展,探讨并研究了基于结构动力修改的高速旋转系统动态优化方法,把在保证系统稳定性基础上寻求高转速、高生产率、低成本为优化目标的动态优化“逆问题”,通过采用结构动力修改方法转换为分步修改和重分析的“正问题”。提出重点针对能够综合反映系统动态特性的频响函数进行优化的结构动力修改
With the development of industries and the society, the rotating machines are speeding up and their performances are enhanced greatly, such as the steamers, aeroengines, compressors and other kinds of machines. As the speed up of rotating and the better performaces, the weight of components is lightened and load increased. The vibrations of rotating machines became the key issues to pay people's attentions. Vibrations of high-speed rotating machines are so complex that the researchs of them become more important. Therefore, it is an important application foundation subject for promoting the developments and applications of high-speed rotating machines and has a very important theorial and realistic meaning to bring high-speed rotating machines into technological advantage, economic advantage and society advantage further.
Studying the dynamics model and modeling method suit to the characteristics of high-speed rotating, based on Timoshenko theory, and using finite element method (FEM) and Lagrange's equation, the dynamics model of high-speed rotating system with muti-degrees of freedom is set up, with respect to the influence of rotating inertia, gyroscopic moment, cutting deformation, unbalance and damping of materials.
Based on the model proposed previously, the natural frequencies, frequency response function (FRF), critical speed and impetus responses are studied which prepares for the researchs of system stabilities and optimization. Thereinto, the resoluting method of the unsymmetric eigenvalues of undamped and damped linear systems—essential reducing method (ERM) educing from the generalized Arnoldi method (GAM), is discussed emphasizedly. In addition, the conception of restart-up is proposed, and the reducing arithmetic turns into the perfect method for determining the unsymmetric eigenvalues. The dynamics characteristics of an example are analysed with ANSYS software by the method proposed previously.
Be based upon the dynamics model established and dynamics characteristics analysis of the model, handling Lyapunov stability theorem and stability criterion, the connections between gyroscopic moment and the stability of high-speed system are
引文
1 孟光.转子动力学研究的回顾与展望[J].振动工程学报,2002.15(1):1-9
2 王正,李苹.转子动力学的展望[J].哈尔滨工业大学学报,1998.30(S):1-4
3 孟庆国,詹世革等.重大项目“大型旋转机械非线性动力学问题”取得重要进展[J].中国科学基金,2004(3):142-144
4 顾家柳等编著.转子动力学[M].北京:国防工业出版社,1985
5 晏砺堂,朱梓根,李其汉等著.高速旋转机械振动[M].北京:国防工业出版社,1994
6 陆永春,孙洪洋,郑戈.60MW汽轮发电机组、发电机转子轴向振动的故障诊断及治理[J].振动工程学报,2004.17(S):442-444
7 罗盛华.2号机低压缸叶片断裂原因分析及改进措施[J].汽轮机技术,2004.46(4):310-311
8 左世春,黄润泽.600MW机组轴系振动故障诊断及处理[J].汽轮机技术,2003.45(3):178-179
9 张善鹏,周广顺,邢秀苹等.石横电厂3号机组异常振动分析及处理[J].汽轮机技术,2004.46(3):213-215
10 Rankine W J M. On the centrifugal force of rotating shafts[J]. The Engineer, April, 1869.27
11 Foppl A. Das Problem der Lavalschen Turbinenwelle[J]. Der Civilingenieur, 1985.4:335-342
12 Jeffcott H H. The lateral vibration of loaded shafts in the neighbourhood of a whirling speed[J]. Phil. Mag., 1919.6(37): 304-314
13 Newkirk B L. Shaft whipping[J]. General Electric Rev., 1924.27:169-178
14 Newkirk B L. Journal bearing instability: A review [M]. Inst. Mech. Conf. on Lubr. and Wear, Oct.1957
15 Lund J W. Review of the concept of dynamic coefficients for fluid film journal bearings[J]. J. of Tribology, 1987.109:37-41
16 王勖成,邵敏.有限单元基本原理与数值方法[M].北京:清华大学出版社,1988
17 廖伯瑜,周新民,尹志宏.现代机械动力学及其工程应用—建模、分析、仿真、修改、控制、优化[M].北京:机械工业出版社,2004
18 晏砺堂,朱梓根,宋兆泓等.结构系统动力特性分析[M].北京:北京航空航天大学出版社,1989
19 K. Zhang, L. Zhao, H. B. Zhao. Research on control of flywheel suspended by active magnetic bearing system with significant gyroscopic effects [J]. Chinese Journal of Mechanical Engineering, 2004.17(1): 63-66
20 张勇,方泽南,蒋滋康.100MW汽轮发动机组轴系扭振特性的计算分析[J].汽轮机技术,1997.39(4):204-208
21 张勇,蒋滋康.轴系弯扭耦合振动的数学模型[J].清华大学学报(自然科学版),1998.38(8):114-117
22 J. T. Sawicki, G. Genta. Modal uncoupling of damped gyroscopic systems [J]. Journal of Sound and Vibration, 2001. 244(3): 431-451
23 朱怀亮.大位移Timoslaenko转轴三维耦合动力学分析[J].应用数学和力学,2002.23(12):1261-1268
24 朱怀亮.Timoshenko阻尼转轴的涡动不平衡响应[J].振动与冲击,2003.22(3):55-49
25 S. K. Sinha. Dynamic characteristics of a flexible bladed-rotor with Coulomb damping due to tip-rub [J]. Journal of Sound and Vibration, 2004(273): 875-919
26 Hai-Ping Lin, S. C. Chang. Free vibration analysis of multi-span beams with intermediate flexible constraints [J]. Journal of Sound and Vibration, 2005(281): 155-169
27 汪希平,张建生,吴明贵等.磁悬浮支承转子系统的动力学特点[J].振动工程学报,2004.17(S):24-27
28 宣海军,洪伟荣,吴荣仁等.非对称转子系统有限单元法动力学建模[J].振动工程学报,2004.17(S):122-125
29 Y. A. Khulief, H. Al-Naser. Finite element dynamic analysis of drill strings [J]. Finite Element in Analysis and Design, 2005(41): 1270-1288
30 G. J. Sheu, S. M. Yang. Dynamic analysis of a Rayleigh bean[J]. International Journal of Mechanical Sciences, 2003(47): 157-169
31 车仁炜,陆念力.汽轮发电机组转子—轮盘系统的动力分析[J].汽轮机技术,2004.46(1):16-17
32 张谦,曹磊.基于ansys的临界转速计算[J].振动工程学报,2004.17(S):234-237
33 缪红燕,徐鸿,王斌.转子—支承系统临界转速的有限元法研究[J].2002年全国振动(诊断、模态、噪声与结构动力学)工程及应用学术会议论文集,2002.10:16-19
34 W. Zhang, W. L. Wang, H. Wang, J. Tang. Nonlinear dynamic analysis of bladed-disk/shaft coupled system [J]. Journal of Vibration Engineering, 1994(4): 36-45
35 H. L. Wettergren, K. O. Olsson. Dynamic instability of a rotating asymmetric shaft with internal viscous damping supported in anisotropic bearings [J]. Journal of Sound and Vibration, 1996.195(1): 75-84
36 V. J. Nolan, N. Sri Namachchivaya. Almost-sure stability of linear gyroscopic systems [J]. Journal of Sound and Vibration, 1999. 227(1): 105-130
37 R. J. Mcdonald, N. Sri Namachchivaya. Parametric stabilization of a gyroscopic system [J]. Journal of Sound and Vibration, 2002. 255(4): 635-662
38 Chung-Yi Lin, Lien-Wen Cheu. Dynamic stability of a rotating beam with a constrained damping layer [J]. Journal of Sound and Vibration, 2003(267): 209-225
39 G. L. Xiong, J. M. Yi, C. Zeng, H. K. Guo, L. X. Li. Study of the gyroscopic effect of the spindle on the stability characteristics of the milling system[J]. Journal of Materials Processing Technology, 2003. 138:379-384
40 S. P. Sosnyts'kyi. On the stability of an equilibrium state of gyroscopic coupled systems [J]. Ukrainian Mathematical Journal, 2003.55(2): 311-321
41 B. W. Huang, H. K. Kung. Variations of instability in a rotating spindle system with various bearings [J]. International Journal of Mechanical Sciences, 2003(45): 57-72
42 Bo-Wun Huang. The crack effect on instability in a machine tool spindle with gas bearings[J]. Journal of Sound and Vibration, 2005(286): 1001-1018
43 张文.转子动力学理论基础[M].北京:科学出版社,1990
44 徐燕申.机械动态设计[M].北京:机械工程出版社,1992
45 董绍强,廖道训,陆永忠.摄动法在局部结构动力修改逆问题中的应用研究[J].机械科学与技术,2001.20(6):801-805
46 闻邦椿,刘树英等.振动机械的理论与动态设计方法[M].北京:机械工业出版社,2001
47 王东华,刘占生.基于遗传算法的转子结构优化设计[J].汽轮机技术,2005.47(6):407-410,455
48 毛海军,孙庆鸿,陈南等.基于BP神经网络的磨床主轴系统动态优化方法研究[J].制造业自动化,2000.22(12):39-41
49 荣见华,郑健龙,徐飞鸿编著.结构动力修改及优化设计[M].2002.10
50 顾亮,胡琪琪.结构动力修改的拟力修改法[J].北京理工大学学报,1997.17(5):533-538
51 丁莉芬,缪龙秀.基于灵敏度分析的结构动力修改方法研究[J].铁道学报,1999.21(1):17-19
52 Y. -H. Park, Y. -s. Park. Structural modification based on measured frequency response functions: an exact eigenproperties reallocation [J]. Journal of Sound and Vibration, 2000. 237(3): 411-426
53 Yong-Hwa Park, Youn-sik Park. Structure optimization to enhance its natural frequencies based on measured frequency response functions [J]. Journal of Sound and Vibration, 2000.229(5): 1235-1255
54 华军,张玉莲,许庆余.叠片联轴器联接的转子系统扭振计算和动力修改分析[J].机械强度,2000.22(2):86-88
55 S. G. Braun. Modal modification of vibrating systems: some problems and their solutions [J]. Mechanical Systems and Signal Processing, 2001.15(1): 101-119
56 董绍强,廖道训,陆永忠.结构频率响应灵敏度计算及响应修改研究[J].华中科技大学学报,2001.29(10):56-58
57 何伟,何邦贵,杨朝丽.万能工具铣床动态特性分析及结构动力修改[J].昆明理工大学学报,2002.27(2):31-35
58 朱凼凼,冯咬齐,向树红.基于频率响应函数的动力学模型修正方法研究[J].中国工程科学,2005.7(8):89-94
59 虞烈,刘恒编著.轴承转子系统动力学[M].西安:西安交通大学出版社,2001.04
60 钟一谔,何衍宗,王正等.转子动力学[M].清华大学出版社,1987
61 徐龙祥著.高速旋转机械轴系动力学设计[M].北京:国防工业出版社,1994
62 张松林主编.轴承手册[M].南昌:江西科学出版社,2004
63 [苏]A.C.克利宗,齐曼斯基,雅科夫列夫著.转子动力学—弹性支承[M].北京:科学出版社,1987
64 闻邦春,顾家柳,夏松波,王正.高等转子动力学—理论、技术与应用[M].北京:机械工业出版社,2000
65 李金波,何立东,沈伟等.密封系统对某压缩机转子振动影响的研究[J].汽轮机技术,2005.47(4):289-291,312
66 马建敏,韩平畴.柔性联轴器刚度非线性对扭转振动的影响[J].振动与冲击,2005.24(4):6-8,13
67 刘鸿文主编.材料力学[M].北京:高等教育出版社,2004
68 张汝清.现代计算力学[M].重庆:重庆大学出版社,2004
69 蔡大用,白峰杉编著.现代科学计算[M].北京:科学出版社,2000.10
70 贾仲孝,陈桂芝.解大规模非对称矩阵特征问题的精华Arnoldi方法的一种变形[J].数值计算与计算机应用,2003(6):101-110
71 吴志刚,高强.Hamikon系统特征值问题的摄动方法及其应用[J].振动工程学报,2004.17(1):7-10
72 刘芳,陈立群.黏弹性梁弯曲振动的复模态分析[J].机械强度,2005.27(5):586-589
73 屈维德,唐恒龄主编.机械振动手册(第2版)[M].北京:机械工业出版社,2000.5:106
74 戴德沛主编.阻尼技术的工程应用[M].北京:清华大学出版社,1997.10
75 G. X. Ren. Method for large scale non-classically damped eigenvalue problem: Part Ⅰ, A material reduction algorithm; Part Ⅱ, A restart technique[D]. Beijing: Tsinghna University, 1995: 20-55
76 Z. C. Zheng. G. X. Ren. Dynamic orthogonal decoupling of the non-classically damped dynamic systems[J]. In. Proc. 13th IMAC, Nashville, USA, 1995(2): 1622-1629
77 Golub, GH, Van Koan CE Matrix Computations[M]. Baltimore and London: The John Hopkins University Press, 1989: 361-362
78 任重编著.ANSYS实用分析教程[M].北京:北京大学出版社,2003.3
79 黄祖瑗,耿长青.有限元动力分析、非线性分析应注意的问题[J].机械强度,2000.22(2):159-160
80 贺世正,王东辉,杨健等.陀螺效应对碟式分离机立轴系统动态特性的影响分析[J].流体机械,2004.32(10):18-21
81 缪红燕,高金吉,徐鸿.转子系统瞬态不平衡响应的有限元分析[J].振动与冲击,2004.23(3):1-4,20
82 刘国庆,杨庆东.ANSYS工程应用教程—机械篇[M].北京:机械工业出版社,2001:213-260
83 美国ANSYS公司北京办事处.ANSYS动力学分析指南,1998
84 http://www.simwe.com中国仿真论坛
85 屈文忠,江汶.利用ANSYS进行转子动特性计算[J].2004年ANSYS中国用户论文集
86 王月,胜德仁,陈坚红等.300MW汽轮机低压级扭叶片的模态测试与分析[J].电站系统工程,2004.20(1):62-63
87 http://www.dytrol.com动力学与技术论坛
88 小飒工作室编.最新经典ANSYS及Workbench教程[M].北京:电子工业出版社,2004.6
89 邢静忠,王永岗,陈晓霞等编著.ANSYS7.0分析实例与工程应用[M].北京:机械工业出版社,2004.5
90 胡仁喜,王庆五,闫石等编著.ANSYS 8.2机械设计高级应用实例[M].北京:机械工业出版社,2005
91 刘延柱,陈立群编著.非线性振动[M].北京:高等教育出版社,2001.8
92 高为炳编著.运动稳定性基础[M].北京:高等教育出版社,1987.5
93 张景绘.动力系统建模[M].北京:国防工业出版社,2000
94 Ojalvo I U. Efficient computation of mode-shape derivatives for large dynamic systems[J]. AIAA 27th SDM Meeting, New York: 242~247
95 B. P. Wang. Improved approximate methods for computing eigenvector derivatives in structural dynamics[J]. A/AA Jorunal, 1991, 29(6): 1018~1020
96 D. W. Zhang, F. S. Wei. Efficient computation of many eigenvector derivatives using dynamic flexibility method[J]. AIAA Journal, 1997, 35(3): 712~718
97 林益,李伶主编.高等数学[M].北京:北京大学出版社,2005
98 http://www.coinv.com.cn东方振动和噪声技术研究所
99 唐委校.高速切削稳定性及其动态优化研究[D].济南:山东大学博士学位论文,2005.4:123-141
100 宋清华,唐委校.高速铣削系统动态实验方法研究[J].组合机床与自动化加工技术,2005(9):21-23
101 唐委校,艾兴等.高速切削系统动态特性实验及其方法研究[J].振动、测试与诊断,2004.24(S):162-165
102 安正软件工程有限责任公司.振动及动态信号采集分析系统软件CARS6.2使用说明书[M].南京:南京安正软件工程有限责任公司,2005.3