现代竹结构的研究与工程应用
|
摘要
竹材是世界上为数不多的可再生资源,是建筑行业的理想材料。随着经济社会的发展、科学技术的进步、国家政策的推动,全生命周期均可实现与生态环境协调共存的竹结构是未来发展方向之一。虽然从基本方法与手段上,竹结构的研究可以从已经较为成熟的传统结构研究中汲取经验,但是,竹材的特殊使得竹结构在构件、节点以及体系构成上与传统结构存在显著差别,且目前针对竹结构的研究尚缺乏统一材料本构,手段也较为单一,节点连接形式局限性大,均限制了竹结构在工程中的广泛应用。结合已有成果,对竹结构中所涉及的竹材、竹构件、节点的力学性能作出分析;结合现代科技,对竹结构体系进行研究、总结。提出一种喷涂复合砂浆-原竹骨架组合结构体系,其整体力学性能好,功能性和适应能力强,施工速度快,可代替传统砖混结构,在低层房屋及村镇建筑中应用,具有较高的推广价值。
Bamboo is one of the renewable resources in the world. It is an ideal material for building industry because of its good mechanical properties. With the improvement of social economy, the development of science and technology, and the promotion of national policy, bamboo structures will be one of the development directions in the future. This is mainly because the whole life cycle of bamboo structures can achieve co-existence with an ecological environment. The basic methods for the research of bamboo structures can learn from more mature traditional structural studies. However, bamboo is the foundation of bamboo structures. This special material makes bamboo structures different from traditional structures in terms of members, joints and systems. At present,the research on bamboo structures lacks uniform material constitutive. Not only that, but the research methods are single, and the connection forms of nodes are limited. The above-mentioned problems limit the wide application of bamboo structures in engineering. An overall review is given on mechanical properties of bamboo, bamboo members and joints, as well as common bamboo structural systems based on published literatures and authors' research work. The structural system of sprayed composite mortar–original bamboo has a good mechanical behavior, functionality, adaptability, and efficiency. It can replace traditional brick concrete structures and is applied to township and rural low-rise buildings. The structural system of sprayed composite mortar–original bamboo has high application value.
Bamboo is one of the renewable resources in the world. It is an ideal material for building industry because of its good mechanical properties. With the improvement of social economy, the development of science and technology, and the promotion of national policy, bamboo structures will be one of the development directions in the future. This is mainly because the whole life cycle of bamboo structures can achieve co-existence with an ecological environment. The basic methods for the research of bamboo structures can learn from more mature traditional structural studies. However, bamboo is the foundation of bamboo structures. This special material makes bamboo structures different from traditional structures in terms of members, joints and systems. At present,the research on bamboo structures lacks uniform material constitutive. Not only that, but the research methods are single, and the connection forms of nodes are limited. The above-mentioned problems limit the wide application of bamboo structures in engineering. An overall review is given on mechanical properties of bamboo, bamboo members and joints, as well as common bamboo structural systems based on published literatures and authors' research work. The structural system of sprayed composite mortar–original bamboo has a good mechanical behavior, functionality, adaptability, and efficiency. It can replace traditional brick concrete structures and is applied to township and rural low-rise buildings. The structural system of sprayed composite mortar–original bamboo has high application value.
引文
[1]李正,顾正.竹材及其在建筑工程中的应用[M].上海:科学技术出版社,1957:11―12.Li Zheng,Gu Zheng.Application of bamboo in constructional engineering[M].Shanghai:Science and Technology Press,1957:11―12.(in Chinese)
[2]徐斌,任海清,江泽慧,等.竹类资源标准体系构建[J].竹子研究汇刊,2010,29(2):6―10.Xu Bin,Ren Haiqing,Jiang Zehui,et al.Standard system construction of bamboo resources[J].Journal of Bamboo Research,2010,29(2):6―10.(in Chinese)
[3]Van der Lugt P,Van den Dobbelsteen AAJF,Janssen JJA.An environmental,economic and practical assessment of bamboo as a building material for supporting structures[J].Construction and Building Materials,2006,20:648―656.
[4]刘可为,奥利弗·弗里斯.全球竹建筑概述-趋势和挑战[J].世界建筑,2013(12):27―34.Liu Kewei,Frith O.An overview of global bamboo architecture:Trends and challenges[J].World Architecture,2013(12):27―34.(in Chinese)
[5]李霞镇,钟永,任海青.现代竹结构建筑在我国的发展前景[J].木材加工机械,2011,22(6):44―47.Li Xiazhen,Zhong Yong,Ren Haiqing.Development prospect of modern bamboo construction in China[J].Wood Processing Machinery,2011,22(6):44―47.(in Chinese)
[6]王慧英,赵卫锋,补国斌.竹筋混凝土技术在建筑结构中的应用[J].建筑技术,2012,43(7):605―607.Wang Huiying,Zhao Weifeng,Bu Guobin.Application technology of bamboo reinforced concrete in building structures[J].Architecture Technology,2012,43(7):605―607.(in Chinese)
[7]哈尔滨市工业先进经验展览馆,哈尔滨科学技术普及协会.先进生产技术11:竹筋混凝土[M].哈尔滨:哈尔滨市工业先进经验展览馆,哈尔滨科学技术普及协会(内部资料),1955:15―18.Exhibition Hall of Industrial Advanced Experience in Harbin,Popularization Association of Science and Technology in Harbin.Advanced production technology11:Bamboo reinforced concrete[M].Harbin:Exhibition Hall of Industrial Advanced Experience in Harbin,Popularization Association of Science and Technology in Harbin,1955:15―18.(in Chinese)
[8]中国共产党中央委员会,中华人民共和国国务院.国家新型城镇化规划(2014-2020年)[Z].2014.Central Committee of the Communist Party of China,State Council of the People’s Republic of China.National new urbanization plan(2014-2020)[Z].2014.(in Chinese)
[9]中国共产党中央委员会,中华人民共和国国务院.关于加快推进生态文明建设的意见[Z].2015.Central Committee of the Communist Party of China,State Council of the People’s Republic of China.Opinions on accelerating the construction of ecological civilization[Z].2015.(in Chinese)
[10]中国共产党第十八届中央委员会第五次全体会议.五大发展理念[Z].2015.Fifth Plenary Session of 18th CPC Central Committee.Five development concepts[Z].2015.(in Chinese)
[11]竹内叔雄.竹の研究[M].东京:养賢堂,1932:10―12.Zhu Neishuxiong.Research of bamboo[M].Tokyo:Yang Xian Tang,1932:10―12.(in Chinese)
[12]梁希,周光荣.竹材之物理性质及力学性质初步试验报告[G].原农林部中央林业实验所,1944.Liang Xi,Zhou Guangrong.Preliminary test report on physical properties and mechanical properties of bamboo[G].Chongqing:Former Central Forestry Laboratory of the Ministry of Agriculture and Forestry,1944.(in Chinese)
[13]余仲奎,沈兰根.川产楠竹性质之研究[R].航空委员会:航空研究院,1944.Yu Zhongkui,Shen Langen.Research on Sichuan phyllostachys pubescens[R].Committee of Aviation:Aeronautical Establishment,1944.(in Chinese)
[14]工程材料教研组.北京市用毛竹性质研究[J].清华大学学报(自然科学版),1955(00):139―170.Teaching and Research Group of Engineering Materials.Research on the properties of bamboo in Beijing[J].Journal of Tsinghua University(Science and Technology),1955(00):139―170.(in Chinese)
[15]南京林产工业学院竹类研究室.竹林培育[M].北京:中国农业出版社,1974:225―226.Bamboo Research Laboratory of Nanjing Institute of Forestry Industry.Bamboo forest cultivation[M].Beijing:China Agricultural Press,1974:225―226.(in Chinese)
[16]于文吉,江泽慧,叶克林.竹材特性研究及其进展[J].世界林业研究,2002,15(2):50―55.Yu Wenji,Jiang Zehui,Ye Kelin.Characteristics research of bamboo and its development[J].World Forestry Research,2002,15(2):50―55.(in Chinese)
[17]虞华强,费本华,任海青,等.毛竹顺纹抗拉性质的变异及与气干密度的关系[J].林业科学,2006,42(3):72―76.Yu Huaqiang,Fei Benhua,Ren Haiqing,et al.Variation in tensile properties and relationship between tensile properties and air-dried density for moso bamboo[J].Scientia Silvae Sinicae,2006,42(3):72―76.(in Chinese)
[18]张晓冬,程秀才,朱一辛.毛竹不同高度径向弯曲性能的变化[J].南京林业大学学报(自然科学版),2006,30(6):44―46.Zhang Xiaodong,Cheng Xiucai,Zhu Yixin.Variation of bending performance with different location of bamboo[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2006,30(6):44―46.(in Chinese)
[19]周芳纯.竹材物理力学性质的研究[J].南京林业大学学报(自然科学版),1981,5(2):1―32.Zhou Fangchun.Study on physical and mechanical properties of bamboo woods[J].Journal of Nanjing Forestry University(Natural Sciences Edition),1981,5(2):1―32.(in Chinese)
[20]许敏敏,孙正军,武秀明,等.毛竹径向断裂韧性的研究[J].林业机械与木工设备,2014,42(12):34―37.Xu Minmin,Sun Zhengjun,Wu Xiuming,et al.Research on moso bamboo radical fracture toughness[J].Forestry Machinery&Woodworking Equipment,2014,42(12):34―37.(in Chinese)
[21]Awalluddin D,Ariffin M,Osman M,et al.Mechanical properties of different bamboo species[C].MATEC Web of Conferences,2017,138:01024.
[22]张丹,王戈,张文福,等.毛竹圆竹力学性能的研究[J].中南林业科技大学学报,2012,32(7):119―123.Zhang Dan,Wang Ge,Zhang Wenfu,et al.Mechanical properties of Phyllostachys pubescens[J].Journal of Central South University of Forestry&Technology,2012,32(7):119―123.(in Chinese)
[23]Fei B H,Liu Z J,Jiang Z H,et al.Mechanical properties of moso bamboo treated with chemical agents[J].Wood&Fiber Science,2013,45(1):34―41.
[24]马媛媛,朱松松.安吉毛竹主要力学性能的测定[J].实验科学与技术,2013,11(4):22―24,86.Ma Yuanyuan,Zhu Songsong.Determination of the mechanical properties of Anji moso bamboo[J].Experiment Science and Technology,2013,11(4):22―24,86.(in Chinese)
[25]Lee P H,Odlin M,Yin H M.Development of a hollow cylinder test for the elastic modulus distribution and the ultimate strength of bamboo[J].Construction and Building Materials,2014,51:235―243.
[26]Moran R,Webb K,Harries K,et al.Edge bearing tests to assess the influence of radial gradation on the transverse behavior of bamboo[J].Construction and Building Materials,2017,131:574―584.
[27]Mitch D,Harries K A,Sharma B.Characterization of splitting behavior of bamboo culms[J].Journal of Materials in Civil Engineering,2010,22(11):1195―1199.
[28]郝际平,秦梦浩,田黎敏,等.毛竹顺纹方向力学性能的试验研究[J].西安建筑科技大学学报(自然科学版),2017,49(6):777―783.Hao Jiping,Qin Menghao,Tian Limin,et al.Experimental research on the mechanical properties of phyllostachys pubescen along the grain direction[J].Journal of Xi’an University of Architecture&Technology(Natural Science Edition),2017,49(6):777―783.(in Chinese)
[29]ISO 22157-2004,Bamboo-determination of physical and mechanical properties[S].Switzerland:International Organization for Standardization,2004.
[30]GB/T 15780-1995,竹材物理力学性质试验方法[S].北京:中国标准出版社,1995.GB/T 15780-1995,Testing methods for physical and mechanical properties of bamboo[S].Beijing:China Standard Press,1995.(in Chinese)
[31]CECS 434:2016,圆竹结构建筑技术规程[S].北京:中国计划出版社,2016.CECS 434:2016,Technical specification for round bamboo-structure building[S].Beijing:China Planning Press,2016.(in Chinese)
[32]JG/T 199-2007,建筑用竹材物理力学性能试验方法[S].北京:中国标准出版社,2007.JG/T 199-2007,Testing methods for physical and mechanical properties of bamboo used in building[S].Beijing:China Standard Press,2007.(in Chinese)
[33]LYT 2564-2015,圆竹物理力学性能试验方法[S].北京:中国标准出版社,2015.LYT 2564-2015,Determination of physical and mechanical properties of bamboo culm[S].Beijing:China Standard Press,2015.(in Chinese)
[34]Bureau of Indian Standards.National building code of India 2005:Part 6:Structural Design:Section 3:Timber and bamboo[S].New Delhi:Bureau of Indian Standards,2005.
[35]NSR 10.Título G Estructuras de Madera y Estructuras de Guadua[S].Colombia:Asociación Colombiana de Ingenieria Sísmica,2010.
[36]曾其蕴,李世红,鲍贤镕.竹节对竹材力学强度影响的研究[J].林业科学,1992,28(3):247―252.Zeng Qiyun,Li Shihong,Bao Xianrong.Effect of bamboo nodal on mechanical properties of bamboo wood[J].Scientia Silvae Sinicae,1992,28(3):247―252.(in Chinese)
[37]邵卓平,黄盛霞,吴福社,等.毛竹节间材与节部材的构造与强度差异研究[J].竹子研究汇刊,2008,27(2):48―52.Shao Zhuoping,Huang Shengxia,Wu Fushe,et al.Astudy on the difference of structure and strength between internodes and nodes of moso bamboo[J].Journal of Bamboo Research,2008,27(2):48―52.(in Chinese)
[38]于金光,郝际平,田黎敏,等.圆竹的力学性能及影响因素研究[J].西安建筑科技大学学报(自然科学版),2018,50(1):30―36.Yu Jinguang,Hao Jiping,Tian Limin,et al.The study on the main influencing factors and mechanical properties of phyllostachys pubescens[J].Journal of Xi'an University of Architecture&Technology(Natural Science Edition),2018,50(1):30―36.(in Chinese)
[39]邵卓平.竹材在压缩大变形下的力学行为Ⅰ.应力-应变关系[J].木材工业,2003,17(2):12―14,32.Shao Zhuoping.Mechanical behavior of bamboo with large deformation:Ⅰ.The relationship between stress and strain[J].China Wood Industry,2003,17(2):12―14,32.(in Chinese)
[40]任海青,张东升,潘雁红.竹材抗压动态破坏过程分析[J].南京林业大学学报(自然科学版),2007,31(2):47―50.Ren Haiqing,Zhang Dongsheng,Pan Yanhong.Dynamic compressive mechanical behavior of bamboo[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2007,31(2):47―50.(in Chinese)
[41]GB 50068-2001,建筑结构可靠度设计统一标准[S].北京:中国建筑工业出版社,2001.GB 50068-2001,Unified standard for reliability design of building structures[S].Beijing:China Architecture&Building Press,2001.(in Chinese)
[42]Trujillo D,Jangra S.Grading of bamboo[J].INBARWorking Paper 79,2016:12―41.
[43]肖岩,杨瑞珍,单波,等.结构用胶合竹力学性能试验研究[J].建筑结构学报,2012,33(11):150―157.Xiao Yan,Yang Ruizhen,Shan Bo,et al.Experimental research on mechanical properties of glubam[J].Journal of Building Structures,2012,33(11):150―157.(in Chinese)
[44]Xiao Y,Wu Y,Li J,et al.An experimental study on shear strength of glubam[J].Construction and Building Materials,2017,150:490―500.
[45]盛宝璐,周爱萍,黄东升.重组竹的单轴与纯剪应力应变关系[J].土木建筑与环境工程,2015,37(6):24―31.Sheng Baolu,Zhou Aiping,Huang Dongsheng.Stress-strain relationship of parallel strand bamboo under uniaxial or pure shear load[J].Journal of Civil,Architectural and Environmental Engineering,2015,37(6):24―31.(in Chinese)
[46]Sulastiningsih I M,Nurwati.Physical and mechanical properties of laminated bamboo board[J].Journal of Tropical Forest Science,2009,21(3):246―251.
[47]李霞镇,钟永,任海青,等.毛竹基重组竹力学性能研究[J].木材加工机械,2016,27(4):28―32.Li Xiazhen,Zhong Yong,Ren Haiqing,et al.Study on mechanical properties of recombinant bamboo produced by moso bamboo[J].Wood Processing Machinery,2016,27(4):28―32.(in Chinese)
[48]江泽慧,常亮,王正,等.结构用竹集成材物理力学性能研究[J].木材工业,2005,19(4):22―24,30.Jiang Zehui,Chang Liang,Wang Zheng,et al.Physical and mechanical properties of glued structural laminated bamboo[J].China Wood Industry,2005,19(4):22―24,30.(in Chinese)
[49]Li H T,Zhang Q S,Huang D S,et al.Compressive performance of laminated bamboo[J].Composites Part B:Engineering,2013,54:319―328.
[50]张秀华,鄂婧,李玉顺,等.重组竹抗压和抗弯力学性能试验研究[J].工业建筑,2016,46(1):7―12.Zhang Xiuhua,E Jing,Li Yushun,et al.Experimental research on compression and flexural mechanical performance of recombinant bamboo[J].Industrial Construction,2016,46(1):7―12.(in Chinese)
[51]Mahdavi M,Clouston P L,Arwade S R.Development of laminated bamboo lumber:Review of processing,performance,and economical considerations[J].Journal of Materials in Civil Engineering,2011,23(7):1036―1042.
[52]Lee C H,Chung M J,Lin C H,et al.Effects of layered structure on the physical and mechanical properties of laminated moso bamboo(Phyllosachys edulis)flooring[J].Construction and Building Materials,2012,28(1):31―35.
[53]张文福,王戈,于子绚,等.竹材单元形态对竹木复合层积材性能的影响[J].南京林业大学学报(自然科学版),2012,36(5):167―169.Zhang Wenfu,Wang Ge,Yu Zixuan,et al.Effect of bamboo shape on properties of bamboo/wood LVL[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2012,36(5):167―169.(in Chinese)
[54]蒋身学,朱一辛,张齐生.竹木复合层积材结构及其性能[J].南京林业大学学报(自然科学版),2002,26(6):10―12.Jiang Shenxue,Zhu Yixin,Zhang Qisheng.The structure and properties of laminated bamboo-wood composite lumber[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2002,26(6):10―12.(in Chinese)
[55]单波,高黎,肖岩,等.预制装配式圆竹结构房屋的试验与应用[J].湖南大学学报(自然科学版),2013,40(3):7―14.Shan Bo,Gao Li,Xiao Yan,et al.Experimental research and application of prefabricated bamboo pole house[J].Journal of Hunan University(Natural Sciences),2013,40(3):7―14.(in Chinese)
[56]Nurmadina,Nugroho N,Bahtiar E T.Structural grading of Gigantochloa apus bamboo based on its flexural properties[J].Construction and Building Materials,2017,157:1173―1189.
[57]Chung K F,Yu W K.Mechanical properties of structural bamboo for bamboo scaffoldings[J].Engineering Structures,2001,24:429―442.
[58]Albermani F,Goh G Y,Chan S L.Lightweight bamboo double layer grid system[J].Engineering Structures,2007,29(7):1499―1506.
[59]Janssen J J A.Designing and building with bamboo[M].The Netherlands:Technical Report,2000:21―24.
[60]唐卓,肖岩.胶合竹I形搁栅梁受力性能试验研究[J].建筑结构学报,2017,38(9):138―146.Tang Zhuo,Xiao Yan.Experimental study on mechanical behavior of glue laminated bamboo I-joists[J].Journal of Building Structures,2017,38(9):138―146.(in Chinese)
[61]苏毅,宗生京,徐丹,等.竹集成材梁非线性弯曲性能试验研究[J].建筑结构学报,2016,37(10):36―43.Su Yi,Zong Shengjing,Xu Dan,et al.Experimental study on nonlinear bending of glued laminated bamboo beams[J].Journal of Building Structures,2016,37(10):36―43.(in Chinese)
[62]Chen F M,Jiang Z H,Wang G,et al.The bending properties of bamboo bundle laminated veneer lumber(BLVL)double beams[J].Construction and Building Materials,2016,119:145―151.
[63]周军文,沈玉蓉.重组竹梁受弯承载力数值分析[J].中国科技论文,2018,13(1):83―86.Zhou Junwen,Shen Yurong.Numerical analysis of the flexural bearing capacity for the parallel strand bamboo beams[J].China Science Paper,2018,13(1):83―86.(in Chinese)
[64]张苏俊,李晨,肖忠平,等.重组竹工字梁抗弯特性研究及模拟分析[J].林业工程学报,2017,2(1):125―129.Zhang Sujun,Li Chen,Xiao Zhongping,et al.Bending strength and loading simulation analysis of bamboo scrimber I-shaped beam[J].Journal of Forestry Engineering,2017,2(1):125―129.(in Chinese)
[65]吴文清,吴忠振,马雪媛,等.竹质复合材料工字形梁的抗弯性能试验[J].中国公路学报,2014,27(4):69―78.Wu Wenqing,Wu Zhongzhen,Ma Xueyuan,et al.Test on bending resistance properties of bamboo-based composite I-shaped beam[J].China Journal of Highway and Transport,2014,27(4):69―78.(in Chinese)
[66]陈国,周涛,李成龙,等.竹木组合工字梁的静载试验研究[J].南京林业大学学报(自然科学版),2016,40(5):121―125.Chen Guo,Zhou Tao,Li Chenglong,et al.Experimental study on the OSB webbed bamboo beams[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2016,40(5):121―125.(in Chinese)
[67]Shan B,Xiao Y,Zhang W L,et al.Mechanical performance of connections for glubam-concrete composite beams[J].Construction and Building Materials,2017,143:158―168.
[68]Wei Y,Ji X W,Duan M J,et al.Flexural performance of bamboo scrimber beams strengthened with fiber-reinforced polymer[J].Construction and Building Materials,2017,142:66―82.
[69]Shen Y R,Huang D S,Zhou A P,et al.An inelastic model for ultimate state analysis of CFRP reinforced PSB beams[J].Composites Part B:Engineering,2017,115:266―274.
[70]Li Y S,Shan W,Shen H Y,et al.Bending resistance of I-section bamboo-steel composite beams utilizing adhesive bonding[J].Thin-Walled Structures,2015,89:17―24.
[71]Tian L M,Kou Y F,Hao J P.Flexural behavior of sprayed lightweight composite mortar-original bamboo composite beams-experimental study[J].Bio Resources,2019,14(1):500―517.
[72]陈肇元.中心受压的圆竹杆件[J].哈尔滨工业大学学报,1957(4):23―38.Chen Zhaoyuan.A round bamboo member under central compression[J].Journal of Harbin Institute of Technology,1957(4):23―38.(in Chinese)
[73]Yu W K,Chung K F,Chan S L.Axial buckling of bamboo columns in bamboo scaffolds[J].Engineering Structures,2005,27:61―73.
[74]Richard M J,Harries K A.Experimental buckling capacity of multiple-culm bamboo columns[J].Key Engineering Materials,2012,517:51―62.
[75]肖岩,冯立,吕小红,等.胶合竹柱轴心受压试验研究[J].工业建筑,2015,45(4):13―17.Xiao Yan,Feng Li,Lv Xiaohong,et al.Experimental studies of glubam columns under axial loads[J].Industrial Construction,2015,45(4):13―17.(in Chinese)
[76]Li H T,Su J W,Zhang Q S,et al.Mechanical performance of laminated bamboo column under axial compression[J].Composites Part B:Engineering,2015,79:374―382.
[77]刘涛,李玉顺,许科科,等.钢-竹组合箱形短柱力学性能研究[J].工业建筑,2016,46(1):25―29.Liu Tao,Li Yushun,Xu Keke,et al.Research on mechanical performance of steel-bamboo composite box short column[J].Industrial Construction,2016,46(1):25―29.(in Chinese)
[78]解其铁,张王丽,蒋天元,等.钢-竹组合柱轴心受压性能的试验研究[J].工程力学,2012,29(增刊2):221―225.Xie Qitie,Zhang Wangli,Jiang Tianyuan,et al.Experimental study on performance of steel-bamboo composite column under axial compression[J].Engineering Mechanics,2012,29(S2):221―225.(in Chinese)
[79]Zhao W F,Chen Z S,Yang B.Axial compression performance of steel/bamboo composite column[J].Procedia Engineering,2017,210:18―23.
[80]祝明桥,王华,汪建群,等.竹芯竹筋混凝土单向板抗弯承载力试验研究[J].工业建筑,2017,47(1):79―83.Zhu Mingqiao,Wang Hua,Wang Jianqun,et al.Study of the flexural bearing capacity of bamboo core and rebar reinforced concrete one-way slab[J].Industrial Construction,2017,47(1):79―83.(in Chinese)
[81]柏文峰,王修通,袁媛.干栏民居新型原竹承重楼板技术研究与实践[J].世界竹藤通讯,2017,15(5):30―33.Bai Wenfeng,Wang Xiutong,Yuan Yuan.Research and practices on new technology of bamboo bearing slab[J].World Bamboo and Rattan,2017,15(5):30―33.(in Chinese)
[82]田黎敏,寇跃峰,郝际平,等.喷涂保温材料-原竹组合楼板抗弯性能研究[J].华中科技大学学报(自然科学版),2017,45(11):41―45.Tian Limin,Kou Yuefeng,Hao Jiping,et al.Study on flexural behavior of bamboo composite slabs with sprayed thermal insulation material[J].Journal of Huazhong University of Science and Technology(Natural Science Edition),2017,45(11):41―45.(in Chinese)
[83]Chithambaram S J,Kumar S.Flexural behaviour of bamboo based ferrocement slab panels with flyash[J].Construction and Building Materials,2017,134:641―648.
[84]Li Y S,Shen H Y,Shan W,et al.Flexural behavior of lightweight bamboo-steel composite slabs[J].Thin-Walled Structures,2012,53:83―90.
[85]李玉顺,张王丽,沈煌莹,等.复合胶结型压型钢板-竹胶板组合楼板受弯性能试验研究[J].建筑结构学报,2009,30(增刊2):176―181.Li Yushun,Zhang Wangli,Shen Huangying,et al.Experimental study on flexural behavior of mutiple-interlink profiled steel sheet-bamboo plywood composite slabs[J].Journal of Building Structures,2009,30(Suppl 2):176―181.(in Chinese)
[86]Ganesan N,Indira P V,Himasree P R.Strength and behaviour of bamboo reinforced concrete wall panels under two way in-plane action[J].Advances in Concrete Construction,2018,6(1):1―13.
[87]江泽慧,王正,常亮,等.建筑用竹材墙体制造技术研究[J].北京林业大学学报,2006,28(6):155―158.Jiang Zehui,Wang Zheng,Chang Liang,et al.Manufacture technology of the bamboo building wall[J].Journal of Beijing Forestry University,2006,28(6):155―158.(in Chinese)
[88]Li Y S,Yao J,Li R,et al.Thermal and energy performance of a steel-bamboo composite wall structure[J].Energy and Buildings,2017,156:225―237.
[89]田黎敏,郝际平,寇跃峰.喷涂保温材料-原竹骨架组合墙体抗震性能研究[J].建筑结构学报,2018,39(6):102―109.Tian Limin,Hao Jiping,Kou Yuefeng.Research on seismic behavior of bamboo framing walls with sprayed thermal insulation material[J].Journal of Building Structures,2018,39(6):102―109.(in Chinese)
[90]王振家.竹結構圓鋼梢結合的設計[J].哈尔滨工业大学学报,1958(1):25―33.Wang Zhenjia.Design of round steel tip in bamboo structures[J].Journal of Harbin Institute of Technology,1958(1):25―33.(in Chinese)
[91]张楠,柏文峰.原竹建筑节点构造分析及改进[J].科学技术与工程,2008,8(18):5318―5322.Zhang Nan,Bai Wenfeng.Analyzing and improving the construction of bamboo houses node[J].Science Technology and Engineering,2008,8(18):5318―5322.(in Chinese)
[92]Paraskeva T S,Grigoropoulos G,Dimitrakopoulos E G.Design and experimental verification of easily constructible bamboo footbridges for rural areas[J].Engineering Structures,2017,143:540―548.
[93]Sinha A,Miyamoto B T.Lateral load carrying capacity of laminated bamboo lumber to oriented strand board connections[J].Journal of Materials in Civil Engineering,2014,26(4):741―747.
[94]Janssen J J A.Bamboo in building structures[D].Eindhoven:Eindhoven University of Technology,1981.
[95]黄熊.屋顶竹结构[M].北京:建筑工程出版社,1959:47―74.Huang Xiong.Bamboo structures of roof[M].Beijing:China Architecture&Building Press,1959:47―74.(in Chinese)
[96]Awaludin A,Andriani V.Bolted bamboo joints reinforced with fibers[J].Procedia Engineering,2014,95:15―21.
[97]戴培琪,罗志远,何敏娟.上海世博会德中同行亭结构设计与研究[J].结构工程师,2011,27(4):6―11.Dai Peiqi,Luo Zhiyuan,He Minjuan.Structural design and analysis for shanghai expo special project DuC[J].Structural Engineers,2011,27(4):6―11.(in Chinese)
[98]Villegas L,Morán R,García J J.A new joint to assemble light structures of bamboo slats[J].Construction and Building Materials,2015,98:61―68.
[99]陈肇元.竹、木結構中圓鋼梢結合的計算[J].哈尔滨工业大学学报,1957(8):86―98.Chen Zhaoyuan.Calculation of round steel tip in bamboo and wood structures[J].Journal of Harbin Institute of Technology,1957(8):86―98.(in Chinese)
[100]王振家.按容許应力計算竹結構圓鋼梢結合的研究[J].哈尔滨工业大学学报,1957(4):62―71.Wang Zhenjia.Research on calculation of round steel tip in bamboo structures according to the allowable stress[J].Journal of Harbin Institute of Technology,1957(4):62―71.(in Chinese)
[101]王振家.按破坏阶段計算竹結構圓鋼梢結合的研究[J].哈尔滨工业大学学报,1957(4):41―61.Wang Zhenjia.Research on calculation of round steel tip in bamboo structures according to the failure stage[J].Journal of Harbin Institute of Technology,1957(4):41―61.(in Chinese)
[102]Oka G M,Triwiyono A,Awaludin A,et al.Experimental and theoretical investigation of bolted bamboo joints without void filled material[J].Applied Mechanics and Materials,2015,776:59―65.
[103]Awaludin A.Aplikasi EYM model pada analisis tahanan lateral sambungan sistem morisco-mardjono:Sambungan tiga komponen bambu dengan material pengisi rongga[J]Proceedings of Nasional Rekayasa dan Budidaya Bambu Symposium,Yogyakarta,2012.
[104]胡行,杨健,王斐亮,等.装配式圆竹结构螺栓连接节点的力学性能[J].林业工程学报,2018,3(5):128―135.Hu Xing,Yang Jian,Wang Feiliang,et al.Mechanical properties of bolted joints in prefabricated round bamboo structures[J].Journal of Forestry Engineering,2018,3(5):128―135.(in Chinese)
[105]Moran R,Mu?oz J,Silvac H F,et al.A bamboo beam-column connection capable to transmit moment[C].17th International Conference on Non-Conventional Materials and Technologies,2017,11.
[106]钟永,任海青,张俊珍,等.竹层积材钢夹板螺栓节点的承压性能[J].建筑材料学报,2013,16(4):642―648.Zhong Yong,Ren Haiqing,Zhang Junzhen,et al.Compression performance of bolted-connection with metal plates for laminated bamboo board[J].Journal of Building Materials,2013,16(4):642―648.(in Chinese)
[107]周军文,赵风华,齐永胜,等.新型竹木框架装配节点抗震性能试验研究[J].工业建筑,2017,47(9):70―74,105.Zhou Junwen,Zhao Fenghua,Qi Yongsheng,et al.Experimental research on seismic behavior of a new fabricated bamboo(timber)frame connection[J].Industrial Construction,2017,47(9):70―74,105.(in Chinese)
[108]冯立,肖岩,单波,等.胶合竹结构梁柱螺栓连接节点承载力试验研究[J].建筑结构学报,2014,35(4):230―235.Feng Li,Xiao Yan,Shan Bo,et al.Experimental study on bearing capacity of glubam beam-column bolted joints[J].Journal of Building Structures,2014,35(4):230―235.(in Chinese)
[109]李玉顺,蒋天元,单炜,等.钢-竹组合梁柱边节点拟静力试验研究[J].工程力学,2013,30(4):241―248.Li Yushun,Jiang Tianyuan,Shan Wei,et al.Quasi-static test on steel-bamboo composite beam-column exterior joints[J].Engineering Mechanics,2013,30(4):241―248.(in Chinese)
[110]细田贯一.竹筋コンクリート工[M].东京:修教社書院,1942:22―25.細田クーン.Bamboo reinforced concrete[M].Tokyo:Religious Society College,1942:22―25.(in Chinese)
[111]Tatumi Juniti.On the bending test of concrete beam reinforced with bamboo[J].Institute of Architecture Papers,1939,13:184―193.
[112]高智能,杨晓东,陶忠,等.竹筋夯土墙在水平单调荷载作用下的试验研究[J].昆明理工大学学报(理工版),2009,34(2):68―70,75.Gao Zhineng,Yang Xiaodong,Tao Zhong,et al.Experimental study of rammed-earth wall with bamboo cane under monotonic horizontal-load[J].Journal of Kunming University of Science and Technology(Science and Technology),2009,34(2):68―70,75.(in Chinese)
[113]谢咸颂,丁雄峰,朱朝晖.竹筋混凝土楼板的结构性能检验及评估[J].工程建设与设计,2010(11):39―42.Xie Xiansong,Ding Xiongfeng,Zhu Chaohui.The inspection and evaluation of the bamboo concrete structural performance[J].Construction and Design for Engineering,2010(11):39―42.(in Chinese)
[114]柳菁,张家亮,郭军,等.现代竹结构建筑的发展现状[J].森林工程,2013,29(5):126―130,134.Liu Jing,Zhang Jialiang,Guo Jun,et al.The development status of the modern bamboo structure buildings[J].Forest Engineering,2013,29(5):126―130,134.(in Chinese)
[115]Ghavami K.Bamboo as reinforcement in structural concrete elements[J].Cement and Concrete Composites,2005,27:637―649.
[116]Terai M,Minami K.Fracture behavior and mechanical properties of bamboo reinforced concrete members[J].Procedia Engineering,2011,10:2967―2972.
[117]Agarwal A,Nanda B,Maity D.Experimental investigation on chemically treated bamboo reinforced concrete beams and columns[J].Construction and Building Materials,2014,71:610―617.
[118]邹立华,钟坤禄,谢吉鸿,等.改性竹筋混凝土受弯构件力学性能试验研究[J].土木建筑与环境工程,2015,37(5):33―40.Zou Lihua,Zhong Kunlu,Xie Jihong,et al.Experimental analysis of mechanical property of processed bamboo reinforced concrete flexural member[J].Journal of Civil,Architectural and Environmental Engineering,2015,37(5):33―40.(in Chinese)
[119]郝林.INTEGER现代复合竹结构建筑[J].世界建筑,2010(2):64―69.Hao Lin.Integer modern reconstituted bamboo building in China[J].World Architecture,2010(2):64―69.(in Chinese)
[120]肖岩,李智,吴越,等.胶合竹结构的研究与工程应用进展[J].建筑结构,2018,48(10):84―88.Xiao Yan,Li Zhi,Wu Yue,et al.Research and engineering application progress of laminated bamboo structure[J].Building Structure,2018,48(10):84―88.(in Chinese)
[121]魏洋,吕清芳,张齐生,等.现代竹结构抗震安居房的设计与施工[J].施工技术,2009,38(11):52―54.Wei Yang,Lv Qingfang,Zhang Qisheng,et al.Design and construction of modern bamboo anti-seismic livingroom[J].Construction Technology,2009,38(11):52―54.(in Chinese)
[122]吕清芳,魏洋,张齐生,等.新型抗震竹质工程材料安居示范房及关键技术[J].特种结构,2008,25(4):6―10.Lv Qingfang,Wei Yang,Zhang Qisheng,et al.New bamboo anti-seismic model living room and key technologies[J].Special Structures,2008,25(4):6―10.(in Chinese)
[123]单波,梁龙辉,肖岩,等.胶合竹-混凝土复合式凹槽连接性能的试验研究[J].工业建筑,2015,45(4):18―25.Shan Bo,Liang Longhui,Xiao Yan,et al.Experimental research on notched connection for glubam-concrete composite beams[J].Industrial Construction,2015,45(4):18―25.(in Chinese)
[124]纳依都,刘可为.印度馆,2010年上海世博会,中国[J].世界建筑,2013,12:81―85.Naidu DR,Liu Kewei.India pavilion,Expo 2010Shanghai,China,2010[J].Industrial Construction,2013,12:81―85.(in Chinese)
[125]田黎敏,郝际平,寇跃峰,等.原竹-保温材料界面黏结滑移性能试验研究[J].建筑材料学报,2018,21(1):65―70.Tian Limin,Hao Jiping,Kou Yuefeng,et al.Experimental study on bond-slip behavior of bamboo-thermal insulation material interface[J].Journal of Building Materials,2018,21(1):65―70.(in Chinese)
[126]西安建筑科技大学.一种基于原竹骨架的楼板[P].中国:201510507728.8,2018.01.16.Xi’an University of Architecture&Technology.A floor slab based on original bamboo skeleton[P].CN:201510507728.8,2018.01.16.(in Chinese)
[127]西安建筑科技大学.一种墙体立柱与楼板骨架的连接节点[P].中国:201410030213.9,2017.02.01.Xi’an University of Architecture&Technology.Aconnecting joint between wall stud and slab skeleton[P].CN:201410030213.9,2017.02.01.(in Chinese)
[128]西安建筑科技大学.原竹骨架梁柱装配式节点[P].中国:201720917888.4,2018.02.06.Xi’an University of Architecture&Technology.Aassembly joint between beam and column in original bamboo skeleton[P].CN:201720917888.4,2018.02.06.(in Chinese)
[129]郝际平,寇跃峰,田黎敏,等.基于竹材含水率的喷涂多功能环保材料-原竹黏结界面抗滑移性能试验研究[J].建筑结构学报,2018,39(7):154―161.Hao Jiping,Kou Yuefeng,Tian Limin,et al.Experimental study on anti-slip behavior of multi-functional environmental material-bamboo interface based on moisture content of bamboo[J].Journal of Building Structures,2018,39(7):154―161.(in Chinese)
[2]徐斌,任海清,江泽慧,等.竹类资源标准体系构建[J].竹子研究汇刊,2010,29(2):6―10.Xu Bin,Ren Haiqing,Jiang Zehui,et al.Standard system construction of bamboo resources[J].Journal of Bamboo Research,2010,29(2):6―10.(in Chinese)
[3]Van der Lugt P,Van den Dobbelsteen AAJF,Janssen JJA.An environmental,economic and practical assessment of bamboo as a building material for supporting structures[J].Construction and Building Materials,2006,20:648―656.
[4]刘可为,奥利弗·弗里斯.全球竹建筑概述-趋势和挑战[J].世界建筑,2013(12):27―34.Liu Kewei,Frith O.An overview of global bamboo architecture:Trends and challenges[J].World Architecture,2013(12):27―34.(in Chinese)
[5]李霞镇,钟永,任海青.现代竹结构建筑在我国的发展前景[J].木材加工机械,2011,22(6):44―47.Li Xiazhen,Zhong Yong,Ren Haiqing.Development prospect of modern bamboo construction in China[J].Wood Processing Machinery,2011,22(6):44―47.(in Chinese)
[6]王慧英,赵卫锋,补国斌.竹筋混凝土技术在建筑结构中的应用[J].建筑技术,2012,43(7):605―607.Wang Huiying,Zhao Weifeng,Bu Guobin.Application technology of bamboo reinforced concrete in building structures[J].Architecture Technology,2012,43(7):605―607.(in Chinese)
[7]哈尔滨市工业先进经验展览馆,哈尔滨科学技术普及协会.先进生产技术11:竹筋混凝土[M].哈尔滨:哈尔滨市工业先进经验展览馆,哈尔滨科学技术普及协会(内部资料),1955:15―18.Exhibition Hall of Industrial Advanced Experience in Harbin,Popularization Association of Science and Technology in Harbin.Advanced production technology11:Bamboo reinforced concrete[M].Harbin:Exhibition Hall of Industrial Advanced Experience in Harbin,Popularization Association of Science and Technology in Harbin,1955:15―18.(in Chinese)
[8]中国共产党中央委员会,中华人民共和国国务院.国家新型城镇化规划(2014-2020年)[Z].2014.Central Committee of the Communist Party of China,State Council of the People’s Republic of China.National new urbanization plan(2014-2020)[Z].2014.(in Chinese)
[9]中国共产党中央委员会,中华人民共和国国务院.关于加快推进生态文明建设的意见[Z].2015.Central Committee of the Communist Party of China,State Council of the People’s Republic of China.Opinions on accelerating the construction of ecological civilization[Z].2015.(in Chinese)
[10]中国共产党第十八届中央委员会第五次全体会议.五大发展理念[Z].2015.Fifth Plenary Session of 18th CPC Central Committee.Five development concepts[Z].2015.(in Chinese)
[11]竹内叔雄.竹の研究[M].东京:养賢堂,1932:10―12.Zhu Neishuxiong.Research of bamboo[M].Tokyo:Yang Xian Tang,1932:10―12.(in Chinese)
[12]梁希,周光荣.竹材之物理性质及力学性质初步试验报告[G].原农林部中央林业实验所,1944.Liang Xi,Zhou Guangrong.Preliminary test report on physical properties and mechanical properties of bamboo[G].Chongqing:Former Central Forestry Laboratory of the Ministry of Agriculture and Forestry,1944.(in Chinese)
[13]余仲奎,沈兰根.川产楠竹性质之研究[R].航空委员会:航空研究院,1944.Yu Zhongkui,Shen Langen.Research on Sichuan phyllostachys pubescens[R].Committee of Aviation:Aeronautical Establishment,1944.(in Chinese)
[14]工程材料教研组.北京市用毛竹性质研究[J].清华大学学报(自然科学版),1955(00):139―170.Teaching and Research Group of Engineering Materials.Research on the properties of bamboo in Beijing[J].Journal of Tsinghua University(Science and Technology),1955(00):139―170.(in Chinese)
[15]南京林产工业学院竹类研究室.竹林培育[M].北京:中国农业出版社,1974:225―226.Bamboo Research Laboratory of Nanjing Institute of Forestry Industry.Bamboo forest cultivation[M].Beijing:China Agricultural Press,1974:225―226.(in Chinese)
[16]于文吉,江泽慧,叶克林.竹材特性研究及其进展[J].世界林业研究,2002,15(2):50―55.Yu Wenji,Jiang Zehui,Ye Kelin.Characteristics research of bamboo and its development[J].World Forestry Research,2002,15(2):50―55.(in Chinese)
[17]虞华强,费本华,任海青,等.毛竹顺纹抗拉性质的变异及与气干密度的关系[J].林业科学,2006,42(3):72―76.Yu Huaqiang,Fei Benhua,Ren Haiqing,et al.Variation in tensile properties and relationship between tensile properties and air-dried density for moso bamboo[J].Scientia Silvae Sinicae,2006,42(3):72―76.(in Chinese)
[18]张晓冬,程秀才,朱一辛.毛竹不同高度径向弯曲性能的变化[J].南京林业大学学报(自然科学版),2006,30(6):44―46.Zhang Xiaodong,Cheng Xiucai,Zhu Yixin.Variation of bending performance with different location of bamboo[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2006,30(6):44―46.(in Chinese)
[19]周芳纯.竹材物理力学性质的研究[J].南京林业大学学报(自然科学版),1981,5(2):1―32.Zhou Fangchun.Study on physical and mechanical properties of bamboo woods[J].Journal of Nanjing Forestry University(Natural Sciences Edition),1981,5(2):1―32.(in Chinese)
[20]许敏敏,孙正军,武秀明,等.毛竹径向断裂韧性的研究[J].林业机械与木工设备,2014,42(12):34―37.Xu Minmin,Sun Zhengjun,Wu Xiuming,et al.Research on moso bamboo radical fracture toughness[J].Forestry Machinery&Woodworking Equipment,2014,42(12):34―37.(in Chinese)
[21]Awalluddin D,Ariffin M,Osman M,et al.Mechanical properties of different bamboo species[C].MATEC Web of Conferences,2017,138:01024.
[22]张丹,王戈,张文福,等.毛竹圆竹力学性能的研究[J].中南林业科技大学学报,2012,32(7):119―123.Zhang Dan,Wang Ge,Zhang Wenfu,et al.Mechanical properties of Phyllostachys pubescens[J].Journal of Central South University of Forestry&Technology,2012,32(7):119―123.(in Chinese)
[23]Fei B H,Liu Z J,Jiang Z H,et al.Mechanical properties of moso bamboo treated with chemical agents[J].Wood&Fiber Science,2013,45(1):34―41.
[24]马媛媛,朱松松.安吉毛竹主要力学性能的测定[J].实验科学与技术,2013,11(4):22―24,86.Ma Yuanyuan,Zhu Songsong.Determination of the mechanical properties of Anji moso bamboo[J].Experiment Science and Technology,2013,11(4):22―24,86.(in Chinese)
[25]Lee P H,Odlin M,Yin H M.Development of a hollow cylinder test for the elastic modulus distribution and the ultimate strength of bamboo[J].Construction and Building Materials,2014,51:235―243.
[26]Moran R,Webb K,Harries K,et al.Edge bearing tests to assess the influence of radial gradation on the transverse behavior of bamboo[J].Construction and Building Materials,2017,131:574―584.
[27]Mitch D,Harries K A,Sharma B.Characterization of splitting behavior of bamboo culms[J].Journal of Materials in Civil Engineering,2010,22(11):1195―1199.
[28]郝际平,秦梦浩,田黎敏,等.毛竹顺纹方向力学性能的试验研究[J].西安建筑科技大学学报(自然科学版),2017,49(6):777―783.Hao Jiping,Qin Menghao,Tian Limin,et al.Experimental research on the mechanical properties of phyllostachys pubescen along the grain direction[J].Journal of Xi’an University of Architecture&Technology(Natural Science Edition),2017,49(6):777―783.(in Chinese)
[29]ISO 22157-2004,Bamboo-determination of physical and mechanical properties[S].Switzerland:International Organization for Standardization,2004.
[30]GB/T 15780-1995,竹材物理力学性质试验方法[S].北京:中国标准出版社,1995.GB/T 15780-1995,Testing methods for physical and mechanical properties of bamboo[S].Beijing:China Standard Press,1995.(in Chinese)
[31]CECS 434:2016,圆竹结构建筑技术规程[S].北京:中国计划出版社,2016.CECS 434:2016,Technical specification for round bamboo-structure building[S].Beijing:China Planning Press,2016.(in Chinese)
[32]JG/T 199-2007,建筑用竹材物理力学性能试验方法[S].北京:中国标准出版社,2007.JG/T 199-2007,Testing methods for physical and mechanical properties of bamboo used in building[S].Beijing:China Standard Press,2007.(in Chinese)
[33]LYT 2564-2015,圆竹物理力学性能试验方法[S].北京:中国标准出版社,2015.LYT 2564-2015,Determination of physical and mechanical properties of bamboo culm[S].Beijing:China Standard Press,2015.(in Chinese)
[34]Bureau of Indian Standards.National building code of India 2005:Part 6:Structural Design:Section 3:Timber and bamboo[S].New Delhi:Bureau of Indian Standards,2005.
[35]NSR 10.Título G Estructuras de Madera y Estructuras de Guadua[S].Colombia:Asociación Colombiana de Ingenieria Sísmica,2010.
[36]曾其蕴,李世红,鲍贤镕.竹节对竹材力学强度影响的研究[J].林业科学,1992,28(3):247―252.Zeng Qiyun,Li Shihong,Bao Xianrong.Effect of bamboo nodal on mechanical properties of bamboo wood[J].Scientia Silvae Sinicae,1992,28(3):247―252.(in Chinese)
[37]邵卓平,黄盛霞,吴福社,等.毛竹节间材与节部材的构造与强度差异研究[J].竹子研究汇刊,2008,27(2):48―52.Shao Zhuoping,Huang Shengxia,Wu Fushe,et al.Astudy on the difference of structure and strength between internodes and nodes of moso bamboo[J].Journal of Bamboo Research,2008,27(2):48―52.(in Chinese)
[38]于金光,郝际平,田黎敏,等.圆竹的力学性能及影响因素研究[J].西安建筑科技大学学报(自然科学版),2018,50(1):30―36.Yu Jinguang,Hao Jiping,Tian Limin,et al.The study on the main influencing factors and mechanical properties of phyllostachys pubescens[J].Journal of Xi'an University of Architecture&Technology(Natural Science Edition),2018,50(1):30―36.(in Chinese)
[39]邵卓平.竹材在压缩大变形下的力学行为Ⅰ.应力-应变关系[J].木材工业,2003,17(2):12―14,32.Shao Zhuoping.Mechanical behavior of bamboo with large deformation:Ⅰ.The relationship between stress and strain[J].China Wood Industry,2003,17(2):12―14,32.(in Chinese)
[40]任海青,张东升,潘雁红.竹材抗压动态破坏过程分析[J].南京林业大学学报(自然科学版),2007,31(2):47―50.Ren Haiqing,Zhang Dongsheng,Pan Yanhong.Dynamic compressive mechanical behavior of bamboo[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2007,31(2):47―50.(in Chinese)
[41]GB 50068-2001,建筑结构可靠度设计统一标准[S].北京:中国建筑工业出版社,2001.GB 50068-2001,Unified standard for reliability design of building structures[S].Beijing:China Architecture&Building Press,2001.(in Chinese)
[42]Trujillo D,Jangra S.Grading of bamboo[J].INBARWorking Paper 79,2016:12―41.
[43]肖岩,杨瑞珍,单波,等.结构用胶合竹力学性能试验研究[J].建筑结构学报,2012,33(11):150―157.Xiao Yan,Yang Ruizhen,Shan Bo,et al.Experimental research on mechanical properties of glubam[J].Journal of Building Structures,2012,33(11):150―157.(in Chinese)
[44]Xiao Y,Wu Y,Li J,et al.An experimental study on shear strength of glubam[J].Construction and Building Materials,2017,150:490―500.
[45]盛宝璐,周爱萍,黄东升.重组竹的单轴与纯剪应力应变关系[J].土木建筑与环境工程,2015,37(6):24―31.Sheng Baolu,Zhou Aiping,Huang Dongsheng.Stress-strain relationship of parallel strand bamboo under uniaxial or pure shear load[J].Journal of Civil,Architectural and Environmental Engineering,2015,37(6):24―31.(in Chinese)
[46]Sulastiningsih I M,Nurwati.Physical and mechanical properties of laminated bamboo board[J].Journal of Tropical Forest Science,2009,21(3):246―251.
[47]李霞镇,钟永,任海青,等.毛竹基重组竹力学性能研究[J].木材加工机械,2016,27(4):28―32.Li Xiazhen,Zhong Yong,Ren Haiqing,et al.Study on mechanical properties of recombinant bamboo produced by moso bamboo[J].Wood Processing Machinery,2016,27(4):28―32.(in Chinese)
[48]江泽慧,常亮,王正,等.结构用竹集成材物理力学性能研究[J].木材工业,2005,19(4):22―24,30.Jiang Zehui,Chang Liang,Wang Zheng,et al.Physical and mechanical properties of glued structural laminated bamboo[J].China Wood Industry,2005,19(4):22―24,30.(in Chinese)
[49]Li H T,Zhang Q S,Huang D S,et al.Compressive performance of laminated bamboo[J].Composites Part B:Engineering,2013,54:319―328.
[50]张秀华,鄂婧,李玉顺,等.重组竹抗压和抗弯力学性能试验研究[J].工业建筑,2016,46(1):7―12.Zhang Xiuhua,E Jing,Li Yushun,et al.Experimental research on compression and flexural mechanical performance of recombinant bamboo[J].Industrial Construction,2016,46(1):7―12.(in Chinese)
[51]Mahdavi M,Clouston P L,Arwade S R.Development of laminated bamboo lumber:Review of processing,performance,and economical considerations[J].Journal of Materials in Civil Engineering,2011,23(7):1036―1042.
[52]Lee C H,Chung M J,Lin C H,et al.Effects of layered structure on the physical and mechanical properties of laminated moso bamboo(Phyllosachys edulis)flooring[J].Construction and Building Materials,2012,28(1):31―35.
[53]张文福,王戈,于子绚,等.竹材单元形态对竹木复合层积材性能的影响[J].南京林业大学学报(自然科学版),2012,36(5):167―169.Zhang Wenfu,Wang Ge,Yu Zixuan,et al.Effect of bamboo shape on properties of bamboo/wood LVL[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2012,36(5):167―169.(in Chinese)
[54]蒋身学,朱一辛,张齐生.竹木复合层积材结构及其性能[J].南京林业大学学报(自然科学版),2002,26(6):10―12.Jiang Shenxue,Zhu Yixin,Zhang Qisheng.The structure and properties of laminated bamboo-wood composite lumber[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2002,26(6):10―12.(in Chinese)
[55]单波,高黎,肖岩,等.预制装配式圆竹结构房屋的试验与应用[J].湖南大学学报(自然科学版),2013,40(3):7―14.Shan Bo,Gao Li,Xiao Yan,et al.Experimental research and application of prefabricated bamboo pole house[J].Journal of Hunan University(Natural Sciences),2013,40(3):7―14.(in Chinese)
[56]Nurmadina,Nugroho N,Bahtiar E T.Structural grading of Gigantochloa apus bamboo based on its flexural properties[J].Construction and Building Materials,2017,157:1173―1189.
[57]Chung K F,Yu W K.Mechanical properties of structural bamboo for bamboo scaffoldings[J].Engineering Structures,2001,24:429―442.
[58]Albermani F,Goh G Y,Chan S L.Lightweight bamboo double layer grid system[J].Engineering Structures,2007,29(7):1499―1506.
[59]Janssen J J A.Designing and building with bamboo[M].The Netherlands:Technical Report,2000:21―24.
[60]唐卓,肖岩.胶合竹I形搁栅梁受力性能试验研究[J].建筑结构学报,2017,38(9):138―146.Tang Zhuo,Xiao Yan.Experimental study on mechanical behavior of glue laminated bamboo I-joists[J].Journal of Building Structures,2017,38(9):138―146.(in Chinese)
[61]苏毅,宗生京,徐丹,等.竹集成材梁非线性弯曲性能试验研究[J].建筑结构学报,2016,37(10):36―43.Su Yi,Zong Shengjing,Xu Dan,et al.Experimental study on nonlinear bending of glued laminated bamboo beams[J].Journal of Building Structures,2016,37(10):36―43.(in Chinese)
[62]Chen F M,Jiang Z H,Wang G,et al.The bending properties of bamboo bundle laminated veneer lumber(BLVL)double beams[J].Construction and Building Materials,2016,119:145―151.
[63]周军文,沈玉蓉.重组竹梁受弯承载力数值分析[J].中国科技论文,2018,13(1):83―86.Zhou Junwen,Shen Yurong.Numerical analysis of the flexural bearing capacity for the parallel strand bamboo beams[J].China Science Paper,2018,13(1):83―86.(in Chinese)
[64]张苏俊,李晨,肖忠平,等.重组竹工字梁抗弯特性研究及模拟分析[J].林业工程学报,2017,2(1):125―129.Zhang Sujun,Li Chen,Xiao Zhongping,et al.Bending strength and loading simulation analysis of bamboo scrimber I-shaped beam[J].Journal of Forestry Engineering,2017,2(1):125―129.(in Chinese)
[65]吴文清,吴忠振,马雪媛,等.竹质复合材料工字形梁的抗弯性能试验[J].中国公路学报,2014,27(4):69―78.Wu Wenqing,Wu Zhongzhen,Ma Xueyuan,et al.Test on bending resistance properties of bamboo-based composite I-shaped beam[J].China Journal of Highway and Transport,2014,27(4):69―78.(in Chinese)
[66]陈国,周涛,李成龙,等.竹木组合工字梁的静载试验研究[J].南京林业大学学报(自然科学版),2016,40(5):121―125.Chen Guo,Zhou Tao,Li Chenglong,et al.Experimental study on the OSB webbed bamboo beams[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2016,40(5):121―125.(in Chinese)
[67]Shan B,Xiao Y,Zhang W L,et al.Mechanical performance of connections for glubam-concrete composite beams[J].Construction and Building Materials,2017,143:158―168.
[68]Wei Y,Ji X W,Duan M J,et al.Flexural performance of bamboo scrimber beams strengthened with fiber-reinforced polymer[J].Construction and Building Materials,2017,142:66―82.
[69]Shen Y R,Huang D S,Zhou A P,et al.An inelastic model for ultimate state analysis of CFRP reinforced PSB beams[J].Composites Part B:Engineering,2017,115:266―274.
[70]Li Y S,Shan W,Shen H Y,et al.Bending resistance of I-section bamboo-steel composite beams utilizing adhesive bonding[J].Thin-Walled Structures,2015,89:17―24.
[71]Tian L M,Kou Y F,Hao J P.Flexural behavior of sprayed lightweight composite mortar-original bamboo composite beams-experimental study[J].Bio Resources,2019,14(1):500―517.
[72]陈肇元.中心受压的圆竹杆件[J].哈尔滨工业大学学报,1957(4):23―38.Chen Zhaoyuan.A round bamboo member under central compression[J].Journal of Harbin Institute of Technology,1957(4):23―38.(in Chinese)
[73]Yu W K,Chung K F,Chan S L.Axial buckling of bamboo columns in bamboo scaffolds[J].Engineering Structures,2005,27:61―73.
[74]Richard M J,Harries K A.Experimental buckling capacity of multiple-culm bamboo columns[J].Key Engineering Materials,2012,517:51―62.
[75]肖岩,冯立,吕小红,等.胶合竹柱轴心受压试验研究[J].工业建筑,2015,45(4):13―17.Xiao Yan,Feng Li,Lv Xiaohong,et al.Experimental studies of glubam columns under axial loads[J].Industrial Construction,2015,45(4):13―17.(in Chinese)
[76]Li H T,Su J W,Zhang Q S,et al.Mechanical performance of laminated bamboo column under axial compression[J].Composites Part B:Engineering,2015,79:374―382.
[77]刘涛,李玉顺,许科科,等.钢-竹组合箱形短柱力学性能研究[J].工业建筑,2016,46(1):25―29.Liu Tao,Li Yushun,Xu Keke,et al.Research on mechanical performance of steel-bamboo composite box short column[J].Industrial Construction,2016,46(1):25―29.(in Chinese)
[78]解其铁,张王丽,蒋天元,等.钢-竹组合柱轴心受压性能的试验研究[J].工程力学,2012,29(增刊2):221―225.Xie Qitie,Zhang Wangli,Jiang Tianyuan,et al.Experimental study on performance of steel-bamboo composite column under axial compression[J].Engineering Mechanics,2012,29(S2):221―225.(in Chinese)
[79]Zhao W F,Chen Z S,Yang B.Axial compression performance of steel/bamboo composite column[J].Procedia Engineering,2017,210:18―23.
[80]祝明桥,王华,汪建群,等.竹芯竹筋混凝土单向板抗弯承载力试验研究[J].工业建筑,2017,47(1):79―83.Zhu Mingqiao,Wang Hua,Wang Jianqun,et al.Study of the flexural bearing capacity of bamboo core and rebar reinforced concrete one-way slab[J].Industrial Construction,2017,47(1):79―83.(in Chinese)
[81]柏文峰,王修通,袁媛.干栏民居新型原竹承重楼板技术研究与实践[J].世界竹藤通讯,2017,15(5):30―33.Bai Wenfeng,Wang Xiutong,Yuan Yuan.Research and practices on new technology of bamboo bearing slab[J].World Bamboo and Rattan,2017,15(5):30―33.(in Chinese)
[82]田黎敏,寇跃峰,郝际平,等.喷涂保温材料-原竹组合楼板抗弯性能研究[J].华中科技大学学报(自然科学版),2017,45(11):41―45.Tian Limin,Kou Yuefeng,Hao Jiping,et al.Study on flexural behavior of bamboo composite slabs with sprayed thermal insulation material[J].Journal of Huazhong University of Science and Technology(Natural Science Edition),2017,45(11):41―45.(in Chinese)
[83]Chithambaram S J,Kumar S.Flexural behaviour of bamboo based ferrocement slab panels with flyash[J].Construction and Building Materials,2017,134:641―648.
[84]Li Y S,Shen H Y,Shan W,et al.Flexural behavior of lightweight bamboo-steel composite slabs[J].Thin-Walled Structures,2012,53:83―90.
[85]李玉顺,张王丽,沈煌莹,等.复合胶结型压型钢板-竹胶板组合楼板受弯性能试验研究[J].建筑结构学报,2009,30(增刊2):176―181.Li Yushun,Zhang Wangli,Shen Huangying,et al.Experimental study on flexural behavior of mutiple-interlink profiled steel sheet-bamboo plywood composite slabs[J].Journal of Building Structures,2009,30(Suppl 2):176―181.(in Chinese)
[86]Ganesan N,Indira P V,Himasree P R.Strength and behaviour of bamboo reinforced concrete wall panels under two way in-plane action[J].Advances in Concrete Construction,2018,6(1):1―13.
[87]江泽慧,王正,常亮,等.建筑用竹材墙体制造技术研究[J].北京林业大学学报,2006,28(6):155―158.Jiang Zehui,Wang Zheng,Chang Liang,et al.Manufacture technology of the bamboo building wall[J].Journal of Beijing Forestry University,2006,28(6):155―158.(in Chinese)
[88]Li Y S,Yao J,Li R,et al.Thermal and energy performance of a steel-bamboo composite wall structure[J].Energy and Buildings,2017,156:225―237.
[89]田黎敏,郝际平,寇跃峰.喷涂保温材料-原竹骨架组合墙体抗震性能研究[J].建筑结构学报,2018,39(6):102―109.Tian Limin,Hao Jiping,Kou Yuefeng.Research on seismic behavior of bamboo framing walls with sprayed thermal insulation material[J].Journal of Building Structures,2018,39(6):102―109.(in Chinese)
[90]王振家.竹結構圓鋼梢結合的設計[J].哈尔滨工业大学学报,1958(1):25―33.Wang Zhenjia.Design of round steel tip in bamboo structures[J].Journal of Harbin Institute of Technology,1958(1):25―33.(in Chinese)
[91]张楠,柏文峰.原竹建筑节点构造分析及改进[J].科学技术与工程,2008,8(18):5318―5322.Zhang Nan,Bai Wenfeng.Analyzing and improving the construction of bamboo houses node[J].Science Technology and Engineering,2008,8(18):5318―5322.(in Chinese)
[92]Paraskeva T S,Grigoropoulos G,Dimitrakopoulos E G.Design and experimental verification of easily constructible bamboo footbridges for rural areas[J].Engineering Structures,2017,143:540―548.
[93]Sinha A,Miyamoto B T.Lateral load carrying capacity of laminated bamboo lumber to oriented strand board connections[J].Journal of Materials in Civil Engineering,2014,26(4):741―747.
[94]Janssen J J A.Bamboo in building structures[D].Eindhoven:Eindhoven University of Technology,1981.
[95]黄熊.屋顶竹结构[M].北京:建筑工程出版社,1959:47―74.Huang Xiong.Bamboo structures of roof[M].Beijing:China Architecture&Building Press,1959:47―74.(in Chinese)
[96]Awaludin A,Andriani V.Bolted bamboo joints reinforced with fibers[J].Procedia Engineering,2014,95:15―21.
[97]戴培琪,罗志远,何敏娟.上海世博会德中同行亭结构设计与研究[J].结构工程师,2011,27(4):6―11.Dai Peiqi,Luo Zhiyuan,He Minjuan.Structural design and analysis for shanghai expo special project DuC[J].Structural Engineers,2011,27(4):6―11.(in Chinese)
[98]Villegas L,Morán R,García J J.A new joint to assemble light structures of bamboo slats[J].Construction and Building Materials,2015,98:61―68.
[99]陈肇元.竹、木結構中圓鋼梢結合的計算[J].哈尔滨工业大学学报,1957(8):86―98.Chen Zhaoyuan.Calculation of round steel tip in bamboo and wood structures[J].Journal of Harbin Institute of Technology,1957(8):86―98.(in Chinese)
[100]王振家.按容許应力計算竹結構圓鋼梢結合的研究[J].哈尔滨工业大学学报,1957(4):62―71.Wang Zhenjia.Research on calculation of round steel tip in bamboo structures according to the allowable stress[J].Journal of Harbin Institute of Technology,1957(4):62―71.(in Chinese)
[101]王振家.按破坏阶段計算竹結構圓鋼梢結合的研究[J].哈尔滨工业大学学报,1957(4):41―61.Wang Zhenjia.Research on calculation of round steel tip in bamboo structures according to the failure stage[J].Journal of Harbin Institute of Technology,1957(4):41―61.(in Chinese)
[102]Oka G M,Triwiyono A,Awaludin A,et al.Experimental and theoretical investigation of bolted bamboo joints without void filled material[J].Applied Mechanics and Materials,2015,776:59―65.
[103]Awaludin A.Aplikasi EYM model pada analisis tahanan lateral sambungan sistem morisco-mardjono:Sambungan tiga komponen bambu dengan material pengisi rongga[J]Proceedings of Nasional Rekayasa dan Budidaya Bambu Symposium,Yogyakarta,2012.
[104]胡行,杨健,王斐亮,等.装配式圆竹结构螺栓连接节点的力学性能[J].林业工程学报,2018,3(5):128―135.Hu Xing,Yang Jian,Wang Feiliang,et al.Mechanical properties of bolted joints in prefabricated round bamboo structures[J].Journal of Forestry Engineering,2018,3(5):128―135.(in Chinese)
[105]Moran R,Mu?oz J,Silvac H F,et al.A bamboo beam-column connection capable to transmit moment[C].17th International Conference on Non-Conventional Materials and Technologies,2017,11.
[106]钟永,任海青,张俊珍,等.竹层积材钢夹板螺栓节点的承压性能[J].建筑材料学报,2013,16(4):642―648.Zhong Yong,Ren Haiqing,Zhang Junzhen,et al.Compression performance of bolted-connection with metal plates for laminated bamboo board[J].Journal of Building Materials,2013,16(4):642―648.(in Chinese)
[107]周军文,赵风华,齐永胜,等.新型竹木框架装配节点抗震性能试验研究[J].工业建筑,2017,47(9):70―74,105.Zhou Junwen,Zhao Fenghua,Qi Yongsheng,et al.Experimental research on seismic behavior of a new fabricated bamboo(timber)frame connection[J].Industrial Construction,2017,47(9):70―74,105.(in Chinese)
[108]冯立,肖岩,单波,等.胶合竹结构梁柱螺栓连接节点承载力试验研究[J].建筑结构学报,2014,35(4):230―235.Feng Li,Xiao Yan,Shan Bo,et al.Experimental study on bearing capacity of glubam beam-column bolted joints[J].Journal of Building Structures,2014,35(4):230―235.(in Chinese)
[109]李玉顺,蒋天元,单炜,等.钢-竹组合梁柱边节点拟静力试验研究[J].工程力学,2013,30(4):241―248.Li Yushun,Jiang Tianyuan,Shan Wei,et al.Quasi-static test on steel-bamboo composite beam-column exterior joints[J].Engineering Mechanics,2013,30(4):241―248.(in Chinese)
[110]细田贯一.竹筋コンクリート工[M].东京:修教社書院,1942:22―25.細田クーン.Bamboo reinforced concrete[M].Tokyo:Religious Society College,1942:22―25.(in Chinese)
[111]Tatumi Juniti.On the bending test of concrete beam reinforced with bamboo[J].Institute of Architecture Papers,1939,13:184―193.
[112]高智能,杨晓东,陶忠,等.竹筋夯土墙在水平单调荷载作用下的试验研究[J].昆明理工大学学报(理工版),2009,34(2):68―70,75.Gao Zhineng,Yang Xiaodong,Tao Zhong,et al.Experimental study of rammed-earth wall with bamboo cane under monotonic horizontal-load[J].Journal of Kunming University of Science and Technology(Science and Technology),2009,34(2):68―70,75.(in Chinese)
[113]谢咸颂,丁雄峰,朱朝晖.竹筋混凝土楼板的结构性能检验及评估[J].工程建设与设计,2010(11):39―42.Xie Xiansong,Ding Xiongfeng,Zhu Chaohui.The inspection and evaluation of the bamboo concrete structural performance[J].Construction and Design for Engineering,2010(11):39―42.(in Chinese)
[114]柳菁,张家亮,郭军,等.现代竹结构建筑的发展现状[J].森林工程,2013,29(5):126―130,134.Liu Jing,Zhang Jialiang,Guo Jun,et al.The development status of the modern bamboo structure buildings[J].Forest Engineering,2013,29(5):126―130,134.(in Chinese)
[115]Ghavami K.Bamboo as reinforcement in structural concrete elements[J].Cement and Concrete Composites,2005,27:637―649.
[116]Terai M,Minami K.Fracture behavior and mechanical properties of bamboo reinforced concrete members[J].Procedia Engineering,2011,10:2967―2972.
[117]Agarwal A,Nanda B,Maity D.Experimental investigation on chemically treated bamboo reinforced concrete beams and columns[J].Construction and Building Materials,2014,71:610―617.
[118]邹立华,钟坤禄,谢吉鸿,等.改性竹筋混凝土受弯构件力学性能试验研究[J].土木建筑与环境工程,2015,37(5):33―40.Zou Lihua,Zhong Kunlu,Xie Jihong,et al.Experimental analysis of mechanical property of processed bamboo reinforced concrete flexural member[J].Journal of Civil,Architectural and Environmental Engineering,2015,37(5):33―40.(in Chinese)
[119]郝林.INTEGER现代复合竹结构建筑[J].世界建筑,2010(2):64―69.Hao Lin.Integer modern reconstituted bamboo building in China[J].World Architecture,2010(2):64―69.(in Chinese)
[120]肖岩,李智,吴越,等.胶合竹结构的研究与工程应用进展[J].建筑结构,2018,48(10):84―88.Xiao Yan,Li Zhi,Wu Yue,et al.Research and engineering application progress of laminated bamboo structure[J].Building Structure,2018,48(10):84―88.(in Chinese)
[121]魏洋,吕清芳,张齐生,等.现代竹结构抗震安居房的设计与施工[J].施工技术,2009,38(11):52―54.Wei Yang,Lv Qingfang,Zhang Qisheng,et al.Design and construction of modern bamboo anti-seismic livingroom[J].Construction Technology,2009,38(11):52―54.(in Chinese)
[122]吕清芳,魏洋,张齐生,等.新型抗震竹质工程材料安居示范房及关键技术[J].特种结构,2008,25(4):6―10.Lv Qingfang,Wei Yang,Zhang Qisheng,et al.New bamboo anti-seismic model living room and key technologies[J].Special Structures,2008,25(4):6―10.(in Chinese)
[123]单波,梁龙辉,肖岩,等.胶合竹-混凝土复合式凹槽连接性能的试验研究[J].工业建筑,2015,45(4):18―25.Shan Bo,Liang Longhui,Xiao Yan,et al.Experimental research on notched connection for glubam-concrete composite beams[J].Industrial Construction,2015,45(4):18―25.(in Chinese)
[124]纳依都,刘可为.印度馆,2010年上海世博会,中国[J].世界建筑,2013,12:81―85.Naidu DR,Liu Kewei.India pavilion,Expo 2010Shanghai,China,2010[J].Industrial Construction,2013,12:81―85.(in Chinese)
[125]田黎敏,郝际平,寇跃峰,等.原竹-保温材料界面黏结滑移性能试验研究[J].建筑材料学报,2018,21(1):65―70.Tian Limin,Hao Jiping,Kou Yuefeng,et al.Experimental study on bond-slip behavior of bamboo-thermal insulation material interface[J].Journal of Building Materials,2018,21(1):65―70.(in Chinese)
[126]西安建筑科技大学.一种基于原竹骨架的楼板[P].中国:201510507728.8,2018.01.16.Xi’an University of Architecture&Technology.A floor slab based on original bamboo skeleton[P].CN:201510507728.8,2018.01.16.(in Chinese)
[127]西安建筑科技大学.一种墙体立柱与楼板骨架的连接节点[P].中国:201410030213.9,2017.02.01.Xi’an University of Architecture&Technology.Aconnecting joint between wall stud and slab skeleton[P].CN:201410030213.9,2017.02.01.(in Chinese)
[128]西安建筑科技大学.原竹骨架梁柱装配式节点[P].中国:201720917888.4,2018.02.06.Xi’an University of Architecture&Technology.Aassembly joint between beam and column in original bamboo skeleton[P].CN:201720917888.4,2018.02.06.(in Chinese)
[129]郝际平,寇跃峰,田黎敏,等.基于竹材含水率的喷涂多功能环保材料-原竹黏结界面抗滑移性能试验研究[J].建筑结构学报,2018,39(7):154―161.Hao Jiping,Kou Yuefeng,Tian Limin,et al.Experimental study on anti-slip behavior of multi-functional environmental material-bamboo interface based on moisture content of bamboo[J].Journal of Building Structures,2018,39(7):154―161.(in Chinese)
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |