碳纤维布加固古建筑木梁的性能研究
|
摘要
木结构是我国古建筑的主要结构形式,我国现存大量的木结构民居、桥梁、寺庙、殿堂、塔、楼阁、衙署和牌坊等古建筑,但它们使用年数已久,结构残损严重,抗震能力严重不足,所以,古建筑的加固修复迫在眉睫。基于梁思成先生提出的古建筑“修旧如旧”的原则,应用碳纤维布加固(CFRP)技术是加固修复木结构的一条有效途径,能取得优良的加固与外观效果。然而国内外还没有碳纤维布加固木结构的技术规程,导致木结构加固设计无据可依,抑制了该项技术的推广应用。
针对碳纤维布加固木梁的技术,基于国内外在此方面的研究现状,本文通过8根试件,证明碳纤维布加固木梁有着明显的加固效果,其强度和延性都有不同程度的增强,极限承载力大约提高18%~30%,并且粘贴两层CFRP布加固效果更加明显,同时,我们发现,碳纤维布加固木梁存在很大的离散性,木梁本身的天然材性(如含水率、木节、髓心、干缩裂缝、腐朽等)对于木梁的极限承载力的影响不可忽视。
针对木梁的几种破坏状态,推导完成了CFRP加固矩形木梁的极限承载力的计算公式,并且尝试性的对二次受力情况给出了初步的推导。最后给出了判断CFRP加固的木梁破坏方式的界限破坏形态,应用公式计算了试件的承载力且与试件的试验值作了对比,试件的计算值和试验值基本吻合。
应用C语言编制了CFRP布加固木梁的全过程分析程序,绘制了其弯距—曲率曲线;并与试验值进行了对比,最后应用程序对影响正截面承载力的截面尺寸、CFRP厚度等参数进行了对比分析,结果表明,木梁高度的影响程度明显大于其宽度的影响,与实际情况相符,计算值与试验值基本吻合,表明程序合理准确。
Timber structure is the main structural style of traditional ancient buildings in China. However, large numbers of exiting ancient timber buildings such as houses,bridges, temple, and towers have been being in service for lots of years, and their structures have been greatly damaged so that the seismic capacity is not enough to resistant the major earthquake. So reinforcement of the traditional ancient buildings is extremely urgent. Based on the principle that repairs as old as before which suggestde by Mr. Liang sicheng,Using the technology of CFRP strengthening is an effective way to strengthen and rehabilitation timber structure. The perfect effect in strengthening and appearance can be obtained using the technology. However, there is not the technical specification for strengthening timber structures with carbon fiber reinforced polymer home and abroad, so that the design of strengthening timber structures accords to nothing. It is restrained heavily for the technology to be applied widely in engineering.
On the basis of the study upon the present situation about CFRP strengthened wood member, through 8 specimens approved that the CFRP have obvious strengthen effect to the wood beam.,Both tehsility and ductility had been strengthed in vary degrees, the limit bearing capacity is increased about 18%~30%, and the strengthen effect is more obvious when Paste two layer of CFRP. At the same time, we find that the strengthen effect have great discreteness. The natrue of the wood such as water-content coefficient, wooden knot, heart-centre, crack, decay and so on, has noticeable function on the ultimate capacities of the wooden beam.
In view of the wooden beam's several kind of destruction condition, the formula of the ultimate capacities about the rectangle wooden beam which is reinforced by the CFRP is deduced in the thesis. the boundary destruction shape was given in the paper to judge the destroy way of the reinforced wooden beams, Ultimate capacities of the experimental beams are calculated using the formula presented in the paper, and compared the experimental value with the calculation, found that the two value is basically coincidence.
A C program for the full-range analysis of the timber beams with externally bonded CFRP sheets has been developed. And the curve of the M-φis drawed , then compared the experimental value with the calculation,A good agreement between the results from the program and test can be found. The parametric study about those beams has been conducted using the program. The result indicated that the influence of the height is more obviously than the width of the timber beams. The result is agree with the actual situation. the two of the experimental value and the calculation is basically coincidence. All proved that the program is true.
针对碳纤维布加固木梁的技术,基于国内外在此方面的研究现状,本文通过8根试件,证明碳纤维布加固木梁有着明显的加固效果,其强度和延性都有不同程度的增强,极限承载力大约提高18%~30%,并且粘贴两层CFRP布加固效果更加明显,同时,我们发现,碳纤维布加固木梁存在很大的离散性,木梁本身的天然材性(如含水率、木节、髓心、干缩裂缝、腐朽等)对于木梁的极限承载力的影响不可忽视。
针对木梁的几种破坏状态,推导完成了CFRP加固矩形木梁的极限承载力的计算公式,并且尝试性的对二次受力情况给出了初步的推导。最后给出了判断CFRP加固的木梁破坏方式的界限破坏形态,应用公式计算了试件的承载力且与试件的试验值作了对比,试件的计算值和试验值基本吻合。
应用C语言编制了CFRP布加固木梁的全过程分析程序,绘制了其弯距—曲率曲线;并与试验值进行了对比,最后应用程序对影响正截面承载力的截面尺寸、CFRP厚度等参数进行了对比分析,结果表明,木梁高度的影响程度明显大于其宽度的影响,与实际情况相符,计算值与试验值基本吻合,表明程序合理准确。
Timber structure is the main structural style of traditional ancient buildings in China. However, large numbers of exiting ancient timber buildings such as houses,bridges, temple, and towers have been being in service for lots of years, and their structures have been greatly damaged so that the seismic capacity is not enough to resistant the major earthquake. So reinforcement of the traditional ancient buildings is extremely urgent. Based on the principle that repairs as old as before which suggestde by Mr. Liang sicheng,Using the technology of CFRP strengthening is an effective way to strengthen and rehabilitation timber structure. The perfect effect in strengthening and appearance can be obtained using the technology. However, there is not the technical specification for strengthening timber structures with carbon fiber reinforced polymer home and abroad, so that the design of strengthening timber structures accords to nothing. It is restrained heavily for the technology to be applied widely in engineering.
On the basis of the study upon the present situation about CFRP strengthened wood member, through 8 specimens approved that the CFRP have obvious strengthen effect to the wood beam.,Both tehsility and ductility had been strengthed in vary degrees, the limit bearing capacity is increased about 18%~30%, and the strengthen effect is more obvious when Paste two layer of CFRP. At the same time, we find that the strengthen effect have great discreteness. The natrue of the wood such as water-content coefficient, wooden knot, heart-centre, crack, decay and so on, has noticeable function on the ultimate capacities of the wooden beam.
In view of the wooden beam's several kind of destruction condition, the formula of the ultimate capacities about the rectangle wooden beam which is reinforced by the CFRP is deduced in the thesis. the boundary destruction shape was given in the paper to judge the destroy way of the reinforced wooden beams, Ultimate capacities of the experimental beams are calculated using the formula presented in the paper, and compared the experimental value with the calculation, found that the two value is basically coincidence.
A C program for the full-range analysis of the timber beams with externally bonded CFRP sheets has been developed. And the curve of the M-φis drawed , then compared the experimental value with the calculation,A good agreement between the results from the program and test can be found. The parametric study about those beams has been conducted using the program. The result indicated that the influence of the height is more obviously than the width of the timber beams. The result is agree with the actual situation. the two of the experimental value and the calculation is basically coincidence. All proved that the program is true.
引文
[1-01] 清华大学建筑系.中国古代建筑[M].北京:清华大学出版社,1985.
[1-02] 罗哲文.中国古代建筑[M].上海:上海古籍出版社.1990.
[1-03] 张驭寰.中国古建筑百问[M].北京:中国档案出版社,2000.
[1-04] 楼庆西.中国古建筑二十讲[M].北京:三联书店,2001.
[1-05] 徐苏斌.日本对中国城市与建筑的研究[M].北京:中国水利水电出版社,1999.
[1-06] 李诫(宋).营造法式[M].上海:商务印书馆.1950.
[1-07] 梁思成.梁思成全集(第六卷)[M].北京:中国建筑工业出版社,2001.
[1-08] 刘致平.中国建筑类型及结构[M].北京:中国建筑工业出版社,1987.
[1-09] 马炳坚.中国古建筑木作营造技术[M].北京:科学出版社,1991.
[1-10] 喻维国,王鲁民编著.中国木构建筑营造技术[M].北京:中国建筑工业出版社,1993.
[1-11] 岳清瑞.我国碳纤维(CFRP)加固修复技术研究应用现状与展望[J].工业建筑,Vol.30No.10,2000:23-26.
[1-12] 田水、朱墩.纤维增强塑料(FRP)在结构加固工程中的应用[J].建筑结构2000,30(3):40-43.
[1-13] 岳清瑞、陈小兵、牟宏远.碳纤维材料(CFRP)加固修补混凝土结构新技术[J].工业建筑,Vol.28 No.11,1998:1-5.
[1-14] 罗菩隆.碳纤维布加固技术应用与发展中的几个问题[J].四川建筑科学研究,Vol.27No.I,Mar 2001:22-24.
[1-15] 娄宇、王红庆、李如白.碳纤维加固技术及其工程应用[J].工业建筑,Vol.30No.10,2000:39-43.
[1-16] 赵彤、张晨军、谢剑、刘明国.碳纤维布加固修复砖砌体的研究与工程实践[J],建筑结构,Vol. 32 No. 3, July 2002:64-67.
[1-17] Saadatmanesh and M.R.Ehsani .Fiber Composite Plates Can Strengthen Beams[J].Concrete international. 1990,3:65-71.
[1-18] Vicki L .Brown and Charles L .Bartholomew .PRP Reinforced Concrete Members[J] .ACI Materials Journal .1993,90(1):34-39.
[1-19] Hamid Saadatmanesh. Fiber Composite for New and Existing Structures [J]. ACI Structural Journal. 1994,9(3):346-354.
[1-20] Charles VV.Dolan.FRP Prestressing in the U.S.A.[J].Concrete Inter-national. 1999,10:21-24.
[1-21] Sami Rizkalla and Pieere Labossiere-Structural Engineering with FRP-in Canada[J].Concrete International. 1999,10:25-28.
[1-22] Hiroshi Fukuyama. FRP Composites in Japan[J].Concrete International. 1999,10: 29-32.
[1-23] Luc R. Tarewe and Stijn Matthys. FRP for Concrete Construction: Activities in Europe[J].Concrete International. 1999,10:33-36.
[1-24] 王文炜,李果.纤维增强塑料(FRP)在混凝土结构中的研究与应用[J].混凝土,2001,10:37-39.
[1-25] 祁英涛著.中国古代建筑的保护与维修[M].北京:文物出版社,1986.
[1-26] 中华人民共和国国家标准,古建筑木结构维护与加固技术规范(GB50165-92),1992.
[1-27] 赵均海、俞茂宏、高大峰、孙家驹.中国古代木结构的弹塑性有限元分析[J].西安建筑科技大学学报,Vol.31 No.2,Jun 1999:131—133.
[1-28] 薛建阳、张鹏程、赵鸿铁.古建木结构抗震机理的探讨[J].西安建筑科技大学学报,Vol,32 No.1.Mar 2000:8-11.
[1-29] 陈平、姚谦峰、赵冬.西安钟楼抗震能力分析[J].西安建筑科技大学学报,Vol.30No.3,Sep 1998:277-283.
[1-30] 奚三彩、王勉、龚德才、万例.化学材料在南通天宇寺古建筑维修中的应用[J].东南文化,No.5,1999:124-126.
[1-31] 魏德敏、李世温.应县木塔残损特征的分析研究[J].华南理工大学学报,Vol.30 No.11,Nov 2002:119-121.
[1-32] 《木结构设计手册》(第二版)[M],中国建筑工业出版社,1997年.
[1-33] 陈祖建,何晓琴,浅谈中国传统木结构建筑的保护[J] 福建建筑2001年第三期
[1-34] 陈允适,李武,《木结构防腐及化学加固》[M] 中国林业出版社,1995年
[1-35] William J.Collins, David, C.Fischetti,etc .THE TOHICKON AQUEDUCT: Demonstrating FRP-Glulams in a State Park Heritage Timber Structure[Z]. America, August 2001:1—17.
[1-36] Thanasis C.Triantafillou erc .Shear Reinforcement of Wood Using FRP Materials[J].Journal of Material in Civil Engineering, ASCE, May 1997:65-69.
[1-37] Romani M and Blal3 HJ .Reinforcement of Glulam Beams with FRP reinforcement[Z] .University of Karlsruhe(TH), Germany, 2001:1-7.
[1-38] FORTIUS.Application of CFRP Laminates in Timber Construction[Z].Wiesbaden Technical University, Germany, 2001.
[1-39] Plevris N and Triantafillou T C. FRP—reinforced wood as structural material [J].Journal of Material in Civil Engineering ASCE, 1992,4(3):300-317.
[1-40] Thanasis C and Triantafillou T C. Shear Reinforcement of Wood Using FRP Materials[J].Journal of Material in Civil Engineering, ASCE, 1997,9(2):65-69.
[1-41] Gilfillan, R., Gilbert S. and Patrick, G. the Improved Performance of Home-grown Timber Glulam Beams Using Fibre Reinforcement[J] .Journal of the Institute of Wood Science, 2001,15(6) :307-317.
[1-42] Bohannan B . Pretressed wood member[J]. Forest Product Journal, 1962,12(12): 596-602.
[1-43] Triantafillou T C and Deskovic N .Innovative prestressing with FRP sheets- mechanics of short-term behavior[J].Journal of Engineering Mechanics, ASCE, 1991,117(7):1652-1672.
[1-44] Triantafillou T C, Plevris N and Deskovic N. Prestressed FRP sheets as external reinforcement of wood members[J] .Journal of Structural Engineering, ASCE, 1992,118(5): 1270-1284.
[1-45] Triantafillou T C, Plevris N and Deskovic N. Nonprestressed and Prestressed FRP Sheets as External Reinfor- cement of Wood Members[A] .Proceedings of the Materials Engineering Congress[C], ASCE, August 10-12, 1992:710-717.
[1-46] Plevris N and Triantafillou C. Creep behavior of FRP-reinforced wood members [J] .Journal of Structural Engineering, ASCE, 1995,121 (2): 174-186.
[1-47] Plevris N and Triantafillou C .Creep behavior of FRP-reinforced wood members-Closure[J] .Journal of Structural Engineering, ASCE, 1996,122(8):981-981.
[1-48] David W Q Dagher H J and Breton J M. Modeling creep deformations of FRP- reinforced glulam beams [J].Wood and Fiber Science. 2001.32(4):426-441.
[1-49] 张大照.CFRP布加固修复木柱梁性能研究[D].上海,同济大学硕士学位论文,2002
[1-50] 张大照,熊学玉,张平.碳纤维片材及预应力加固修复古木结构研究综述[J].工业建筑增刊,2002.
[1-51] 熊学玉,张大照.CFRP布加固木柱性能试验研究[J].滁州职业技术学院学报2003,2(3):5-8.
[1-52] 王增春、何艳丽、王溥.FRP加固木结构的应用和研究[J].建筑技术开发2004,31(3):13-14.
[2-01] 北京林学院主编.木材学[M].北京:中国林业出版社,1987.
[2-02] 孙丽萍,崔永志,刘一星.木材横纹压缩过程中径向、弦向加载差异性分析[J].林业科技,1997,22(3):38-41.
[2-03] 蔡则谟.杉木径向及弦向的木材力学性质的差异[J].林业科学,1996,22(3):254-259.
[2-04] 尹思慈.木材学[M].北京:中国林业出版社,1996.
[2-05] 徐曼琼.火炬松28个家系的力学性质及影响因素的研究[D].北京林业大学,2001.
[2-06] 刘一星,则元京,师岗淳郎.木材的横纹压缩大变形应力—应变关系的定量表征[J].林业科学,1995,31(5):436-441.
[2-07] 沈观林.复合材料力学[M].北京:清华大学出版社,1996.
[2-08] 张鹏程.中国古代木构建筑及其抗震发展研究[D].西安建筑科技大学,2003.
[2-09] 中华人民共和国国家标准.木材物理力学性质试验方法(GB1927~1943-91)[M].北京:中国标准出版社,1991.
[2-10] 陈平,姚谦峰,赵冬.西安钟楼抗震能力分析[J].西安建筑科技大学学报,1998,30(3):276-280.
[2-11] 张舵,卢芳云.木结构古塔的动力特性分析[J].工程力学,2004,21(1):81-86.
[2-12] 王淑娟等.五种白桦木材的抗弯弹性强度和抗弯模量的研究[J].中国林业(中国木业专刊),2001,5:28-29.
[2-13] 龚蒙.用电阻应变法测定木材顺纹抗压弹性常数的研究[J].林业科学,1995,31(2):189-191.
[2-14] 王丽宇.木材裂纹扩展及其断裂行为的研究[M].北京:中国环境科学出版社,2004.
[2-15] 李维秸.木材弹性及木材干燥应力[J].南京林产工业学院学报,1983,6(1):115-122
[3-1] 国家工业建筑诊断与改造工程技术研究中心主编.碳纤维片材加固修复混凝土结构技 术规程[S].北京.中国计划出版社,2003
[3-2] 祝金标.碳纤维布加固修复破损木梁的试验研究.浙江大学硕士论文,2005
[3-3] 古建筑木结构维护与加固技术规范(GB50165-92).北京.中国建筑工业出版社,1993
[3-4] 中华人民共和国国家标准.木材物理力学性质试验方法(GBl927~1943-91).北京:中国标准出版社,1991.
[3-5] 方东平,俞茂宏.木结构古建筑结构特性的实验研究[J].工程力学,2000,17(2):75-83.
[4-1) 王滋军,刘伟庆,姚秋来等.考虑二次受力的碳纤维加固钢筋混凝土梁抗弯性能的试验研究[J].工业建筑,2004,34(7):85-87
[4-2) 过镇海。钢筋混凝土原理[M].北京:清华大学出版社,1999:201-253
[4-3] 岳清瑞、陈小兵、牟宏远.碳纤维材料(CFRP)加固修补混凝土结构新技术[J].工业建 筑,Vol.28 No.11,1998:1-5.
[4-4] 娄宁、王红庆、李如白.碳纤维加困技术及其工程应用[J].工业建筑,Vol.30No.10.2000:39-43.
[4-5] 赵彤、张晨军、谢剑、刘明国.碳纤维布加固修复砖砌体的研究与工程实践[J],建筑结构,Vol,32 No.3,July 2002:64-67.
[4-6] 胡孔国,陈小兵,岳清瑞等.考虑二次受力碳纤维布加固混凝土构件正截面承载力计算[J].建筑结构,2001,31(7):63-65
[4-7] 戚豹,康文梅,陈年和.碳纤维增强钢筋混凝土梁的二次受弯承载力的试验研究[J].高科技纤维与应用,2003,28(4):26-29
[4-8] 田水、朱墩.纤维增强塑料(FRP)在结构加固工程中的应用[J].建筑结构,2000,30(3):40-43.
[4-9] 黄慧明.粘贴碳纤维片材加固钢筋混凝土梁正截面承载力试验研究[D].湖南大学硕士学位论文,2001:1-49
[4-10] 王文炜.纤维复合材料加固钢筋混凝土梁抗弯性能研究[D]:[大连理工大学博士学位论文].大连理工大学土木工程学院,2003:68-84
[4-11] 张大照.CFRP布加固修复木柱梁性能研究[D].同济大学硕士学位论文.
[5-1] 朱伯龙,董振样.钢筋混凝土非线性分析[M].上海:同济大学出版社,1985:50-73
[5-2] 吕西林,金国芳,吴晓涵.钢筋混凝土结构非线性有限元理论与应用[M].上海:同济大学出版社,1997:109-114
[5-3] 赵彤,谢剑,戴自强.碳纤维布加固钢筋混凝土梁的受弯承载力试验研究[J].建筑结构,2000,30(7):11-15
[5-4] 王连广,李立新,刘之洋.钢与混凝土组合梁非线性全过程分析[J],东北大学学报(自然科学版),2001,22(1):51-53
[5-5] 吴刚.CFRP加固钢筋砼梁抗弯性能的试验研究与理论分析[D]:[东南大学博士学位论文] 南京:东南大学土木工程学院,2002:8-22
[5-6] 袁旭斌.碳纤维布对RC梁抗弯加固研究[D]:长安大学硕士学位论文 长安大学土木工程学院,2002:33-44
[5-7] 成正华.碳纤维板加固混凝土梁正截面承载力试验研究[D):重庆大学硕士学位论文重庆大学土木工程学院,2002:31-42
[5-8] 吴刚,安琳,吕志涛.碳纤维布用于钢筋混凝土梁抗弯加固的试验研究[J].建筑结构,2000,30(7):3-6
[5-9] 熊光晶,姜浩,邓伟等.碳纤维一玻璃纤维复合加固混凝土梁的抗弯试验研究[J]。四川建筑科学研究,2001,27(1):25-26
[5-10] 胡新丽.钢筋混凝土框架单元全过程分析[J].湖南大学学报,1985 12(2):12-16
[5-11] 宋世军.钢筋混凝土双向偏压受压构件非线性全过程分析及设计[D]:[硕士学位论文].长沙:湖南大学结构工程研究所,1993,23-46
[5-12] 刘南科,周基岳,肖允徽.钢筋混凝土框架非线性全过程分析[J].土木工程学报,1990,23(4):2—13
[5-13] 吴继峰,纤维布加固钢筋混凝土梁的试验研究[D],湖南大学硕士学位论文,2005.04
[1-02] 罗哲文.中国古代建筑[M].上海:上海古籍出版社.1990.
[1-03] 张驭寰.中国古建筑百问[M].北京:中国档案出版社,2000.
[1-04] 楼庆西.中国古建筑二十讲[M].北京:三联书店,2001.
[1-05] 徐苏斌.日本对中国城市与建筑的研究[M].北京:中国水利水电出版社,1999.
[1-06] 李诫(宋).营造法式[M].上海:商务印书馆.1950.
[1-07] 梁思成.梁思成全集(第六卷)[M].北京:中国建筑工业出版社,2001.
[1-08] 刘致平.中国建筑类型及结构[M].北京:中国建筑工业出版社,1987.
[1-09] 马炳坚.中国古建筑木作营造技术[M].北京:科学出版社,1991.
[1-10] 喻维国,王鲁民编著.中国木构建筑营造技术[M].北京:中国建筑工业出版社,1993.
[1-11] 岳清瑞.我国碳纤维(CFRP)加固修复技术研究应用现状与展望[J].工业建筑,Vol.30No.10,2000:23-26.
[1-12] 田水、朱墩.纤维增强塑料(FRP)在结构加固工程中的应用[J].建筑结构2000,30(3):40-43.
[1-13] 岳清瑞、陈小兵、牟宏远.碳纤维材料(CFRP)加固修补混凝土结构新技术[J].工业建筑,Vol.28 No.11,1998:1-5.
[1-14] 罗菩隆.碳纤维布加固技术应用与发展中的几个问题[J].四川建筑科学研究,Vol.27No.I,Mar 2001:22-24.
[1-15] 娄宇、王红庆、李如白.碳纤维加固技术及其工程应用[J].工业建筑,Vol.30No.10,2000:39-43.
[1-16] 赵彤、张晨军、谢剑、刘明国.碳纤维布加固修复砖砌体的研究与工程实践[J],建筑结构,Vol. 32 No. 3, July 2002:64-67.
[1-17] Saadatmanesh and M.R.Ehsani .Fiber Composite Plates Can Strengthen Beams[J].Concrete international. 1990,3:65-71.
[1-18] Vicki L .Brown and Charles L .Bartholomew .PRP Reinforced Concrete Members[J] .ACI Materials Journal .1993,90(1):34-39.
[1-19] Hamid Saadatmanesh. Fiber Composite for New and Existing Structures [J]. ACI Structural Journal. 1994,9(3):346-354.
[1-20] Charles VV.Dolan.FRP Prestressing in the U.S.A.[J].Concrete Inter-national. 1999,10:21-24.
[1-21] Sami Rizkalla and Pieere Labossiere-Structural Engineering with FRP-in Canada[J].Concrete International. 1999,10:25-28.
[1-22] Hiroshi Fukuyama. FRP Composites in Japan[J].Concrete International. 1999,10: 29-32.
[1-23] Luc R. Tarewe and Stijn Matthys. FRP for Concrete Construction: Activities in Europe[J].Concrete International. 1999,10:33-36.
[1-24] 王文炜,李果.纤维增强塑料(FRP)在混凝土结构中的研究与应用[J].混凝土,2001,10:37-39.
[1-25] 祁英涛著.中国古代建筑的保护与维修[M].北京:文物出版社,1986.
[1-26] 中华人民共和国国家标准,古建筑木结构维护与加固技术规范(GB50165-92),1992.
[1-27] 赵均海、俞茂宏、高大峰、孙家驹.中国古代木结构的弹塑性有限元分析[J].西安建筑科技大学学报,Vol.31 No.2,Jun 1999:131—133.
[1-28] 薛建阳、张鹏程、赵鸿铁.古建木结构抗震机理的探讨[J].西安建筑科技大学学报,Vol,32 No.1.Mar 2000:8-11.
[1-29] 陈平、姚谦峰、赵冬.西安钟楼抗震能力分析[J].西安建筑科技大学学报,Vol.30No.3,Sep 1998:277-283.
[1-30] 奚三彩、王勉、龚德才、万例.化学材料在南通天宇寺古建筑维修中的应用[J].东南文化,No.5,1999:124-126.
[1-31] 魏德敏、李世温.应县木塔残损特征的分析研究[J].华南理工大学学报,Vol.30 No.11,Nov 2002:119-121.
[1-32] 《木结构设计手册》(第二版)[M],中国建筑工业出版社,1997年.
[1-33] 陈祖建,何晓琴,浅谈中国传统木结构建筑的保护[J] 福建建筑2001年第三期
[1-34] 陈允适,李武,《木结构防腐及化学加固》[M] 中国林业出版社,1995年
[1-35] William J.Collins, David, C.Fischetti,etc .THE TOHICKON AQUEDUCT: Demonstrating FRP-Glulams in a State Park Heritage Timber Structure[Z]. America, August 2001:1—17.
[1-36] Thanasis C.Triantafillou erc .Shear Reinforcement of Wood Using FRP Materials[J].Journal of Material in Civil Engineering, ASCE, May 1997:65-69.
[1-37] Romani M and Blal3 HJ .Reinforcement of Glulam Beams with FRP reinforcement[Z] .University of Karlsruhe(TH), Germany, 2001:1-7.
[1-38] FORTIUS.Application of CFRP Laminates in Timber Construction[Z].Wiesbaden Technical University, Germany, 2001.
[1-39] Plevris N and Triantafillou T C. FRP—reinforced wood as structural material [J].Journal of Material in Civil Engineering ASCE, 1992,4(3):300-317.
[1-40] Thanasis C and Triantafillou T C. Shear Reinforcement of Wood Using FRP Materials[J].Journal of Material in Civil Engineering, ASCE, 1997,9(2):65-69.
[1-41] Gilfillan, R., Gilbert S. and Patrick, G. the Improved Performance of Home-grown Timber Glulam Beams Using Fibre Reinforcement[J] .Journal of the Institute of Wood Science, 2001,15(6) :307-317.
[1-42] Bohannan B . Pretressed wood member[J]. Forest Product Journal, 1962,12(12): 596-602.
[1-43] Triantafillou T C and Deskovic N .Innovative prestressing with FRP sheets- mechanics of short-term behavior[J].Journal of Engineering Mechanics, ASCE, 1991,117(7):1652-1672.
[1-44] Triantafillou T C, Plevris N and Deskovic N. Prestressed FRP sheets as external reinforcement of wood members[J] .Journal of Structural Engineering, ASCE, 1992,118(5): 1270-1284.
[1-45] Triantafillou T C, Plevris N and Deskovic N. Nonprestressed and Prestressed FRP Sheets as External Reinfor- cement of Wood Members[A] .Proceedings of the Materials Engineering Congress[C], ASCE, August 10-12, 1992:710-717.
[1-46] Plevris N and Triantafillou C. Creep behavior of FRP-reinforced wood members [J] .Journal of Structural Engineering, ASCE, 1995,121 (2): 174-186.
[1-47] Plevris N and Triantafillou C .Creep behavior of FRP-reinforced wood members-Closure[J] .Journal of Structural Engineering, ASCE, 1996,122(8):981-981.
[1-48] David W Q Dagher H J and Breton J M. Modeling creep deformations of FRP- reinforced glulam beams [J].Wood and Fiber Science. 2001.32(4):426-441.
[1-49] 张大照.CFRP布加固修复木柱梁性能研究[D].上海,同济大学硕士学位论文,2002
[1-50] 张大照,熊学玉,张平.碳纤维片材及预应力加固修复古木结构研究综述[J].工业建筑增刊,2002.
[1-51] 熊学玉,张大照.CFRP布加固木柱性能试验研究[J].滁州职业技术学院学报2003,2(3):5-8.
[1-52] 王增春、何艳丽、王溥.FRP加固木结构的应用和研究[J].建筑技术开发2004,31(3):13-14.
[2-01] 北京林学院主编.木材学[M].北京:中国林业出版社,1987.
[2-02] 孙丽萍,崔永志,刘一星.木材横纹压缩过程中径向、弦向加载差异性分析[J].林业科技,1997,22(3):38-41.
[2-03] 蔡则谟.杉木径向及弦向的木材力学性质的差异[J].林业科学,1996,22(3):254-259.
[2-04] 尹思慈.木材学[M].北京:中国林业出版社,1996.
[2-05] 徐曼琼.火炬松28个家系的力学性质及影响因素的研究[D].北京林业大学,2001.
[2-06] 刘一星,则元京,师岗淳郎.木材的横纹压缩大变形应力—应变关系的定量表征[J].林业科学,1995,31(5):436-441.
[2-07] 沈观林.复合材料力学[M].北京:清华大学出版社,1996.
[2-08] 张鹏程.中国古代木构建筑及其抗震发展研究[D].西安建筑科技大学,2003.
[2-09] 中华人民共和国国家标准.木材物理力学性质试验方法(GB1927~1943-91)[M].北京:中国标准出版社,1991.
[2-10] 陈平,姚谦峰,赵冬.西安钟楼抗震能力分析[J].西安建筑科技大学学报,1998,30(3):276-280.
[2-11] 张舵,卢芳云.木结构古塔的动力特性分析[J].工程力学,2004,21(1):81-86.
[2-12] 王淑娟等.五种白桦木材的抗弯弹性强度和抗弯模量的研究[J].中国林业(中国木业专刊),2001,5:28-29.
[2-13] 龚蒙.用电阻应变法测定木材顺纹抗压弹性常数的研究[J].林业科学,1995,31(2):189-191.
[2-14] 王丽宇.木材裂纹扩展及其断裂行为的研究[M].北京:中国环境科学出版社,2004.
[2-15] 李维秸.木材弹性及木材干燥应力[J].南京林产工业学院学报,1983,6(1):115-122
[3-1] 国家工业建筑诊断与改造工程技术研究中心主编.碳纤维片材加固修复混凝土结构技 术规程[S].北京.中国计划出版社,2003
[3-2] 祝金标.碳纤维布加固修复破损木梁的试验研究.浙江大学硕士论文,2005
[3-3] 古建筑木结构维护与加固技术规范(GB50165-92).北京.中国建筑工业出版社,1993
[3-4] 中华人民共和国国家标准.木材物理力学性质试验方法(GBl927~1943-91).北京:中国标准出版社,1991.
[3-5] 方东平,俞茂宏.木结构古建筑结构特性的实验研究[J].工程力学,2000,17(2):75-83.
[4-1) 王滋军,刘伟庆,姚秋来等.考虑二次受力的碳纤维加固钢筋混凝土梁抗弯性能的试验研究[J].工业建筑,2004,34(7):85-87
[4-2) 过镇海。钢筋混凝土原理[M].北京:清华大学出版社,1999:201-253
[4-3] 岳清瑞、陈小兵、牟宏远.碳纤维材料(CFRP)加固修补混凝土结构新技术[J].工业建 筑,Vol.28 No.11,1998:1-5.
[4-4] 娄宁、王红庆、李如白.碳纤维加困技术及其工程应用[J].工业建筑,Vol.30No.10.2000:39-43.
[4-5] 赵彤、张晨军、谢剑、刘明国.碳纤维布加固修复砖砌体的研究与工程实践[J],建筑结构,Vol,32 No.3,July 2002:64-67.
[4-6] 胡孔国,陈小兵,岳清瑞等.考虑二次受力碳纤维布加固混凝土构件正截面承载力计算[J].建筑结构,2001,31(7):63-65
[4-7] 戚豹,康文梅,陈年和.碳纤维增强钢筋混凝土梁的二次受弯承载力的试验研究[J].高科技纤维与应用,2003,28(4):26-29
[4-8] 田水、朱墩.纤维增强塑料(FRP)在结构加固工程中的应用[J].建筑结构,2000,30(3):40-43.
[4-9] 黄慧明.粘贴碳纤维片材加固钢筋混凝土梁正截面承载力试验研究[D].湖南大学硕士学位论文,2001:1-49
[4-10] 王文炜.纤维复合材料加固钢筋混凝土梁抗弯性能研究[D]:[大连理工大学博士学位论文].大连理工大学土木工程学院,2003:68-84
[4-11] 张大照.CFRP布加固修复木柱梁性能研究[D].同济大学硕士学位论文.
[5-1] 朱伯龙,董振样.钢筋混凝土非线性分析[M].上海:同济大学出版社,1985:50-73
[5-2] 吕西林,金国芳,吴晓涵.钢筋混凝土结构非线性有限元理论与应用[M].上海:同济大学出版社,1997:109-114
[5-3] 赵彤,谢剑,戴自强.碳纤维布加固钢筋混凝土梁的受弯承载力试验研究[J].建筑结构,2000,30(7):11-15
[5-4] 王连广,李立新,刘之洋.钢与混凝土组合梁非线性全过程分析[J],东北大学学报(自然科学版),2001,22(1):51-53
[5-5] 吴刚.CFRP加固钢筋砼梁抗弯性能的试验研究与理论分析[D]:[东南大学博士学位论文] 南京:东南大学土木工程学院,2002:8-22
[5-6] 袁旭斌.碳纤维布对RC梁抗弯加固研究[D]:长安大学硕士学位论文 长安大学土木工程学院,2002:33-44
[5-7] 成正华.碳纤维板加固混凝土梁正截面承载力试验研究[D):重庆大学硕士学位论文重庆大学土木工程学院,2002:31-42
[5-8] 吴刚,安琳,吕志涛.碳纤维布用于钢筋混凝土梁抗弯加固的试验研究[J].建筑结构,2000,30(7):3-6
[5-9] 熊光晶,姜浩,邓伟等.碳纤维一玻璃纤维复合加固混凝土梁的抗弯试验研究[J]。四川建筑科学研究,2001,27(1):25-26
[5-10] 胡新丽.钢筋混凝土框架单元全过程分析[J].湖南大学学报,1985 12(2):12-16
[5-11] 宋世军.钢筋混凝土双向偏压受压构件非线性全过程分析及设计[D]:[硕士学位论文].长沙:湖南大学结构工程研究所,1993,23-46
[5-12] 刘南科,周基岳,肖允徽.钢筋混凝土框架非线性全过程分析[J].土木工程学报,1990,23(4):2—13
[5-13] 吴继峰,纤维布加固钢筋混凝土梁的试验研究[D],湖南大学硕士学位论文,2005.04