开槽预应力闸墩应力集中特性研究
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摘要
预应力闸墩作为大型弧型闸门的支承结构,在水利工程中得到了广泛应用。然而,当前预应力闸墩普遍拉锚系数偏大,结构形式不尽合理,在锚索预应力及巨大弧门推力的共同作用下,闸墩锚块内应力状态复杂且应力值大,为了使锚块内部的应力得以释放,设计上通常采用在锚块内开设预留槽的结构形式。在应力水平较高的区域开槽势必会引起槽体形状突变部位的应力集中,因此合理选择开槽的位置、槽的大小以及几何形状等对缓减应力集中就显得非常重要。本论文结合实际工程,针对开设预留槽对锚块内应力分布的影响这一问题展开研究,具体工作有以下几个方面:
(1)研究了求解有限域的孔口应力集中问题。把弹性力学中求解孔口应力问题的复变函数理论和边界配点最小二乘法相结合,推导了用于计算预应力闸墩槽孔应力的复变函数法的理论公式,并编制了相应的MATLAB程序,通过算例证明了该方法的正确性和求解的有效性。
(2)用本文得到的计算复变函数法对含矩形孔的有限板的孔口周围的应力分布进行了计算,分析了孔口应力集中现象与孔口几何型体的关系,得出了孔口应力峰值的变化规律及发生的位置。
(3)用大型工程分析系统ANSYS对某大型水电站的预应力闸墩进行了三维非线性有限元分析,研究了多种开槽方案的应力分布及锚索布置,并得出了供工程应用的最佳开槽方案。
(4)通过分析得知,闸墩因开槽而引起应力集中可以被充分的利用,不仅可以提高闸墩的预压应力值,降低拉锚系数,还可以通过改善预压应力的传力路径,使预应力传到更为有效的部位,有效抑制闸墩中出现有害的拉性应力,改善闸墩的应力状态。
As a supported structure for a large-scale arch gate, a pre-stressed pier has been widely applied to hydraulic engineering. For the conventional applications in real engineering, the problems of a large tension-anchor coefficient lead commonly to an impropriety structure for the pier. In the conjunction of the rope anchored pre-stress and the hydro push force from the arch gate, a high stresses and complex stress state are often created in the anchor block. A method to solve the problem is to build a rectangular opening in order to release the high stresses in the anchor block and to improve the stress state of the pier. However, a rectangular opening in the highly stressed anchor block will naturally cause stress concentration around the rectangular opening. Therefore, a suitable choice of the rectangular opening position, size and geometrical configuration is to become very important to the design of a pre-stressed pier. This thesis studied the problems of stress concentration due to a rectangular opening in the anchor block of the pier. The tasks done are as follows:
1. A complex function method based on the least square method is used to analyze the stress concentration around an opening in the finite domain, and the theoretical formulae of the computational complex function method (CCFM) are established. A computing program has been written in the Matlab language for a rectangular opening and lots of calculations have been done. The results show that the analysis method suggested in this thesis is effective for analyzing stress concentration in a pre-stressed pier.
2. The stress around a rectangular opening in the finite domain has been computed with CCFM, the phenomenon of stress concentration was analyzed, and the distribution change law of the stress as the opening configuration and size was obtained.
3. A pre-stressed pier of a large-scale hydro power project was studied by using a FEM software — ANSYS and CCFM. Comparisons of many projects of the opening positions and configurations were done. A suitable opening project was obtained and used in the engineering.
4. The results of the study show that a suitable setting of a rectangular opening in the anchor block can have a good utilization of the stress concentration in the anchor block and get to an objective to improve the stress state in the pier.
(1)研究了求解有限域的孔口应力集中问题。把弹性力学中求解孔口应力问题的复变函数理论和边界配点最小二乘法相结合,推导了用于计算预应力闸墩槽孔应力的复变函数法的理论公式,并编制了相应的MATLAB程序,通过算例证明了该方法的正确性和求解的有效性。
(2)用本文得到的计算复变函数法对含矩形孔的有限板的孔口周围的应力分布进行了计算,分析了孔口应力集中现象与孔口几何型体的关系,得出了孔口应力峰值的变化规律及发生的位置。
(3)用大型工程分析系统ANSYS对某大型水电站的预应力闸墩进行了三维非线性有限元分析,研究了多种开槽方案的应力分布及锚索布置,并得出了供工程应用的最佳开槽方案。
(4)通过分析得知,闸墩因开槽而引起应力集中可以被充分的利用,不仅可以提高闸墩的预压应力值,降低拉锚系数,还可以通过改善预压应力的传力路径,使预应力传到更为有效的部位,有效抑制闸墩中出现有害的拉性应力,改善闸墩的应力状态。
As a supported structure for a large-scale arch gate, a pre-stressed pier has been widely applied to hydraulic engineering. For the conventional applications in real engineering, the problems of a large tension-anchor coefficient lead commonly to an impropriety structure for the pier. In the conjunction of the rope anchored pre-stress and the hydro push force from the arch gate, a high stresses and complex stress state are often created in the anchor block. A method to solve the problem is to build a rectangular opening in order to release the high stresses in the anchor block and to improve the stress state of the pier. However, a rectangular opening in the highly stressed anchor block will naturally cause stress concentration around the rectangular opening. Therefore, a suitable choice of the rectangular opening position, size and geometrical configuration is to become very important to the design of a pre-stressed pier. This thesis studied the problems of stress concentration due to a rectangular opening in the anchor block of the pier. The tasks done are as follows:
1. A complex function method based on the least square method is used to analyze the stress concentration around an opening in the finite domain, and the theoretical formulae of the computational complex function method (CCFM) are established. A computing program has been written in the Matlab language for a rectangular opening and lots of calculations have been done. The results show that the analysis method suggested in this thesis is effective for analyzing stress concentration in a pre-stressed pier.
2. The stress around a rectangular opening in the finite domain has been computed with CCFM, the phenomenon of stress concentration was analyzed, and the distribution change law of the stress as the opening configuration and size was obtained.
3. A pre-stressed pier of a large-scale hydro power project was studied by using a FEM software — ANSYS and CCFM. Comparisons of many projects of the opening positions and configurations were done. A suitable opening project was obtained and used in the engineering.
4. The results of the study show that a suitable setting of a rectangular opening in the anchor block can have a good utilization of the stress concentration in the anchor block and get to an objective to improve the stress state in the pier.
引文
[1] 谢德浚,刘致彬.大型弧门预应力闸墩的设计现状及问题[J].水利水电技术,1992,(4):15~20
[2] 刘俊柏,林可冀.预应力闸墩技术及其在我国水电工程中的应用[J].水利发电,1991(5)
[3] 黄安录,石晶.预应力闸墩结构的空间有限元分析研究[J].《工程力学》增刊,1996,291~295
[4] 曹哲云,杨槐.棉花滩水电站预应力闸墩锚索施工[J].水利发电,2001,(7):54~55
[5] 张天刚.MARE软件在糯扎渡溢洪道预应力闸墩结构分析中的运用[J].云南水电技术,2005,150(1):39~43
[6] 李传才,贺采旭,肖明俊.大推力弧门支座新结构型式的研究[J].水利水电技术,1993,(9):43~46
[7] 朱暾,邢贵碧.弧形闸门预应力闸墩颈部开槽设计初探[J].水利发电学报,1994.44(1):18~27
[8] 李传才,贺采旭,何亚伯.大推力预应力闸墩的设计方法[J].水利水电技术,1997,(6):24~29
[9] 胥润生.安康水电站表孔预应力闸墩优化设计[J].重庆交通学院学报,2000,(9):106~108
[10] 赵长海主编.预应力锚固技术[M].北京:中国水利水电出版社,2001
[11] 宋竞正,李鸿,何蕴增等.船体结构非圆孔口问题的复变函数解[J].哈尔滨工程大学学报,2004,25(5):558~562
[12] Kosmodamianskii A S, Chemic V I. Stress state of a fslate weaken by two elliptical holes with parallel exes. Soviet Applied Mechanics. 1981, 17:570~581
[13] 刘荣贵,王俊.预应力开孔梁孔口应力分析[J].江苏理工大学学报,1999,20(1):1~7
[14] M. D. Motok. Stress concentration on the contour of a plate opening of an arbitrary corner radius of curvature. Marine Structures 10 (1997)1~12
[15] Khaled M, El-Sawy, Aly S. Nazmy. Effect of aspect ratio on the elastic buckling of uniaxially loaded plates with eccentric holes. Thin-Walled Structures 39 (2001) 983~998
[16] Lotfi Toubal, Moussa Karama, Bernard Lorrain. Stress concentration in a circular hole in composite plate. Composite Structures. 68 (2005) 31~36
[17] 杨丽红,何蕴增.纯弯曲梁上开矩形孔的边长比对应力集中的影响[J].应用科技,2003,30(4):40~42
[18] 李白林,刘桂荣,韦芳芳.开孔板的有限元分析(自然科学版)[J].江苏大学学报,2002,23(5):28~30
[19] 赵海峰,蒋迪.ANSYS8.0工程结构实例分析[M].北京:中国铁道出版社,2004
[20] 朱晓东,覃启东.基于ANSYS平台含圆孔薄板的应力集中分析[J].苏州大学学报(工科版),2004,24(5):51~53
[21] 徐芝纶.弹性力学[M].第3版.北京:高等教育出版社,1990
[22] 吴家龙.弹性力学[M].上海:同济大学出版社,1987
[23] 李自林、刘兴业、徐光文.开孔薄板应力分析的边界元法[J].河北煤炭建筑工程学院学报,1995,(4):1~9
[24] 杜庆华等著.边界积分方程方法——边界元法[M].北京:高等教育出版社,1989
[25] 萨文著.孔附近的应力集中[M].卢鼎霍译,北京:科学出版社,1958
[26] 著.数学弹性力学的几个基本问题[M].赵惠元译,北京:科学出版社,1965
[27] 列赫尼茨基著.各向异性板[M].胡海昌译,北京:科学出版社,1963
[28] 樊大钧.数学弹性力学[M].北京:新时代出版社,1983
[29] 王林江,林佳铿.含任意多个椭圆孔复合材料层合板的应力场计算[J].复合材料学报,1993,10(4):33~42
[30] 王林江,林佳铿.用多复变量应力函数计算多连通体弹性平面问题[J].应用数学和力学,1994,15(7):657~664
[31] Charles E, Ueng S, Lin JiaKeng. Stresses concentration in composite laminates. J of Engineering Mechanics. 1987, 113(8):1181~1193
[32] Wang Linjiang and Lin Jiakeng. Calculation of stresses in a multiple-connected anisotropoc plate using stress function of multiple complex variables. Anta Mecanic Siruca. 1992, 8(4): 345~354
[33] 王林江,林佳铿.含有多个多种边界椭圆孔复合材料板的应力集中.飞机设计[J],1993,2:36~45
[34] 王林江,林佳铿.用计算复变函数法处理含多个椭圆孔有限大小复合材料板的应力场.东南大学学报[J],1999,29(6):113~118
[35] 田中正孝著.应力集中[M].李安定,郭廷玮译,北京:机械工业出版社,1986
[36] 黄炎.局部应力及其应用[M].北京:机械工业出版社,1986
[37] г.н.萨文,杜尔契в.и.应力集中手册.张国政译,哈尔滨:黑龙江科学技术出版社,1983
[38] 陆明万,罗学富.弹性理论基础[M].北京:清华大学出版社,1990
[39] 杨丽红,何蕴增.无限平面矩形开孔的应力场分析[J].哈尔滨工程大学学报,2002,23(2):106~110
[40] 杨丽红,何蕴增.含矩形孔无限域应力集中的系列分析[J].应用科技,2005,32 (7):53~55
[41] 刘金高,王润富.马蹄形孔口和梯形孔口的应力集中问题[J].岩土工程学报,1995,17(5):57~64
[42] 陆庆乐.复变函数[M].第4版.北京:高等教育出版社,1996
[43] 史济怀,刘太顺.复变函数[M].合肥:中国科学技术大学出版社,1998
[44] 王润富.弹性力学的复变函数计算机解[J].河海大学学报,1991,19(2):84~86
[45] 路见可著.平面弹性复变方法[M].第二版.武汉:武汉大学出版社,2002
[46] 张涛,刘士光,赵耀等.开孔有限扳的孔边应力场分析[J].华中科技大学学报(自然科学版),2002,30(1):87~89
[47] 石博强,滕贵法,李海鹏等.MATLAB数学计算范例教程[M].北京:中国铁道出版社,2004
[48] 赵宏友,彭锋等.MATLAB6.x符号运算及其应用[M].北京:机械工业出版社,2003
[49] Lin Chin-Bing. On the Stress in a Plane Containing Two Circular Holes. J.of Applied Physics.Vol.19,Jan,1948,78~81
[50] Jong T D. Stresses around rectangular holes in orthotropic plate. Composite Materials. 1981,15:311~328
[51] 陈宜周,陆见飞.多圆孔圆板问题的数值解[J].应用力学学报,1996,13(2):109~113
[52] 张志华,王林江,吕庆风.含孔边裂纹各向异性有限板的二维问题[J].南京航空航天大学学报,1999,31(4):470~474
[53] 张有天,王镭,陈平.边界元方法及其在工程中的应用[M].北京:水利电力出版社,1989
[54] 江见鲸,陆新征,叶列平.混凝土结构有限元分析[M].北京:清华大学出版社,2005
[55] 刘北辰.工程计算力学[M].北京:机械工业出版社,1994
[56] 郝文化.ANSYS土木工程应用实例[M].北京:中国水利水电出版社,2005
[57] 叶先磊,史亚杰.ANSYS工程分析软件应用实例[M].北京:清华大学出版社,2003
[58] 张朝晖.ANSYS8.0结构分析及实例解析[M].北京:机械工业出版社,2005
[2] 刘俊柏,林可冀.预应力闸墩技术及其在我国水电工程中的应用[J].水利发电,1991(5)
[3] 黄安录,石晶.预应力闸墩结构的空间有限元分析研究[J].《工程力学》增刊,1996,291~295
[4] 曹哲云,杨槐.棉花滩水电站预应力闸墩锚索施工[J].水利发电,2001,(7):54~55
[5] 张天刚.MARE软件在糯扎渡溢洪道预应力闸墩结构分析中的运用[J].云南水电技术,2005,150(1):39~43
[6] 李传才,贺采旭,肖明俊.大推力弧门支座新结构型式的研究[J].水利水电技术,1993,(9):43~46
[7] 朱暾,邢贵碧.弧形闸门预应力闸墩颈部开槽设计初探[J].水利发电学报,1994.44(1):18~27
[8] 李传才,贺采旭,何亚伯.大推力预应力闸墩的设计方法[J].水利水电技术,1997,(6):24~29
[9] 胥润生.安康水电站表孔预应力闸墩优化设计[J].重庆交通学院学报,2000,(9):106~108
[10] 赵长海主编.预应力锚固技术[M].北京:中国水利水电出版社,2001
[11] 宋竞正,李鸿,何蕴增等.船体结构非圆孔口问题的复变函数解[J].哈尔滨工程大学学报,2004,25(5):558~562
[12] Kosmodamianskii A S, Chemic V I. Stress state of a fslate weaken by two elliptical holes with parallel exes. Soviet Applied Mechanics. 1981, 17:570~581
[13] 刘荣贵,王俊.预应力开孔梁孔口应力分析[J].江苏理工大学学报,1999,20(1):1~7
[14] M. D. Motok. Stress concentration on the contour of a plate opening of an arbitrary corner radius of curvature. Marine Structures 10 (1997)1~12
[15] Khaled M, El-Sawy, Aly S. Nazmy. Effect of aspect ratio on the elastic buckling of uniaxially loaded plates with eccentric holes. Thin-Walled Structures 39 (2001) 983~998
[16] Lotfi Toubal, Moussa Karama, Bernard Lorrain. Stress concentration in a circular hole in composite plate. Composite Structures. 68 (2005) 31~36
[17] 杨丽红,何蕴增.纯弯曲梁上开矩形孔的边长比对应力集中的影响[J].应用科技,2003,30(4):40~42
[18] 李白林,刘桂荣,韦芳芳.开孔板的有限元分析(自然科学版)[J].江苏大学学报,2002,23(5):28~30
[19] 赵海峰,蒋迪.ANSYS8.0工程结构实例分析[M].北京:中国铁道出版社,2004
[20] 朱晓东,覃启东.基于ANSYS平台含圆孔薄板的应力集中分析[J].苏州大学学报(工科版),2004,24(5):51~53
[21] 徐芝纶.弹性力学[M].第3版.北京:高等教育出版社,1990
[22] 吴家龙.弹性力学[M].上海:同济大学出版社,1987
[23] 李自林、刘兴业、徐光文.开孔薄板应力分析的边界元法[J].河北煤炭建筑工程学院学报,1995,(4):1~9
[24] 杜庆华等著.边界积分方程方法——边界元法[M].北京:高等教育出版社,1989
[25] 萨文著.孔附近的应力集中[M].卢鼎霍译,北京:科学出版社,1958
[26] 著.数学弹性力学的几个基本问题[M].赵惠元译,北京:科学出版社,1965
[27] 列赫尼茨基著.各向异性板[M].胡海昌译,北京:科学出版社,1963
[28] 樊大钧.数学弹性力学[M].北京:新时代出版社,1983
[29] 王林江,林佳铿.含任意多个椭圆孔复合材料层合板的应力场计算[J].复合材料学报,1993,10(4):33~42
[30] 王林江,林佳铿.用多复变量应力函数计算多连通体弹性平面问题[J].应用数学和力学,1994,15(7):657~664
[31] Charles E, Ueng S, Lin JiaKeng. Stresses concentration in composite laminates. J of Engineering Mechanics. 1987, 113(8):1181~1193
[32] Wang Linjiang and Lin Jiakeng. Calculation of stresses in a multiple-connected anisotropoc plate using stress function of multiple complex variables. Anta Mecanic Siruca. 1992, 8(4): 345~354
[33] 王林江,林佳铿.含有多个多种边界椭圆孔复合材料板的应力集中.飞机设计[J],1993,2:36~45
[34] 王林江,林佳铿.用计算复变函数法处理含多个椭圆孔有限大小复合材料板的应力场.东南大学学报[J],1999,29(6):113~118
[35] 田中正孝著.应力集中[M].李安定,郭廷玮译,北京:机械工业出版社,1986
[36] 黄炎.局部应力及其应用[M].北京:机械工业出版社,1986
[37] г.н.萨文,杜尔契в.и.应力集中手册.张国政译,哈尔滨:黑龙江科学技术出版社,1983
[38] 陆明万,罗学富.弹性理论基础[M].北京:清华大学出版社,1990
[39] 杨丽红,何蕴增.无限平面矩形开孔的应力场分析[J].哈尔滨工程大学学报,2002,23(2):106~110
[40] 杨丽红,何蕴增.含矩形孔无限域应力集中的系列分析[J].应用科技,2005,32 (7):53~55
[41] 刘金高,王润富.马蹄形孔口和梯形孔口的应力集中问题[J].岩土工程学报,1995,17(5):57~64
[42] 陆庆乐.复变函数[M].第4版.北京:高等教育出版社,1996
[43] 史济怀,刘太顺.复变函数[M].合肥:中国科学技术大学出版社,1998
[44] 王润富.弹性力学的复变函数计算机解[J].河海大学学报,1991,19(2):84~86
[45] 路见可著.平面弹性复变方法[M].第二版.武汉:武汉大学出版社,2002
[46] 张涛,刘士光,赵耀等.开孔有限扳的孔边应力场分析[J].华中科技大学学报(自然科学版),2002,30(1):87~89
[47] 石博强,滕贵法,李海鹏等.MATLAB数学计算范例教程[M].北京:中国铁道出版社,2004
[48] 赵宏友,彭锋等.MATLAB6.x符号运算及其应用[M].北京:机械工业出版社,2003
[49] Lin Chin-Bing. On the Stress in a Plane Containing Two Circular Holes. J.of Applied Physics.Vol.19,Jan,1948,78~81
[50] Jong T D. Stresses around rectangular holes in orthotropic plate. Composite Materials. 1981,15:311~328
[51] 陈宜周,陆见飞.多圆孔圆板问题的数值解[J].应用力学学报,1996,13(2):109~113
[52] 张志华,王林江,吕庆风.含孔边裂纹各向异性有限板的二维问题[J].南京航空航天大学学报,1999,31(4):470~474
[53] 张有天,王镭,陈平.边界元方法及其在工程中的应用[M].北京:水利电力出版社,1989
[54] 江见鲸,陆新征,叶列平.混凝土结构有限元分析[M].北京:清华大学出版社,2005
[55] 刘北辰.工程计算力学[M].北京:机械工业出版社,1994
[56] 郝文化.ANSYS土木工程应用实例[M].北京:中国水利水电出版社,2005
[57] 叶先磊,史亚杰.ANSYS工程分析软件应用实例[M].北京:清华大学出版社,2003
[58] 张朝晖.ANSYS8.0结构分析及实例解析[M].北京:机械工业出版社,2005