Evaluation of Physical and Mechanical Properties of Glued Bamboo: A Review

Guosong Yang (School of Civil Engineering, Nanjing University of Technology, Nanjing 211800, China; Beijing Yanhuang International Engineering Design Co., Ltd., Nanjing 210017, China)
Chunle Ye (College of Civil Engineering, Yangzhou University, Yangzhou 225127, China)
Honghong Ye (College of Civil Engineering, Yangzhou University, Yangzhou 225127, China)

Abstract


The use of glued bamboo (GB) in structural engineering is growing interest in the construction industry, as it is a kind of natural material with strong regenerative ability. In addition, the utilizing of GB can reduce the demand for concrete, a possible way to decrease the destruction to natural environment and the consumption of fossil energy. This paper presents a comprehensive analysis on the properties of GB based on the experimental data available in the published researches. Some important physical, mechanical, and chemical properties of GB are discussed. It can be concluded that, at present, more emphasis has been given to study the mechanical property and gluing performance of GB. By analyzing existing research results, this paper provides some recommendations for future research. 


Keywords


glued bamboo; physical property; mechanical property; durability; constitutive relationship

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References


[1] Li Xiazhen, Zhong Yong, Ren Haiqing. Development prospect of modern bamboo construction in China, Wood Processing Machinery, 2011, 22 (06):44-47. (in Chinese)

[2] Rtironk, S., and Elnieiri, M,. Investigating laminated bamboo lumber as an alternate to wood lumber in residential construction in the United States. Proc., 1st Int. Conf. on Modern Bamboo Structures, Taylor & Francis, Abingdon, UK, 2007 83–96.

[3] Zhang Bo. Resource recycling of renewable bamboo material in building filed, New Chemical Materials, 2016, 44 (10):30-32. (in Chinese)

[4] van der Lugt, P., van den Dobbelsteen, A. A. J. F., and Janssen, J. J. A,. An environmental, economic, and practical assessment of bamboo as a building material for supporting structures. Construction and Building Materials, 2006 20(9), 648–656.

[5] Xiao Yan, Shan Bo. Glubam Structures. Beijing: China Building Industry Press, 2013. (in Chinese)

[6] Sharma B, Gatóo A, Bock M, M Ramage. Engineered bamboo for structural applications. Construction and Building Materials, 2015, 81:66-73.

[7] Zhou Fangchun. Study on physical and mechanical properties of bamboo. Journal of Nanjing Institute of Forestry Industry, 1981, 2 (1) :1-32. (in Chinese)

[8] Sharma B, Harries K A, Ghavami K,. Methods of determining transverse mechanical properties of full-culm bamboo. Construction and Building Materials, 2013, 38:627-637.

[9] Yang T, Lee C, Lee C, Cheng Y,. Effects of different thermal modification media on physical and mechanical properties of moso bamboo, Construction and Building Materials, 2016, 119:251-259.

[10] Saikia P, Dutta D, Kalita D, Dipul Kalita, Jayanta Jyoti Bora, Tridip Goswami. Improvement of mechano-chemical properties of bamboo by bio-chemical treatment. Construction and Building Materials, 2015, 101:1031-1036.

[11] T. Tan, N. Rahbar, S.M. Allameh, S. Kwofie, D. Dissmore, K. Ghavami f , W.O. Soboyejo. Mechanical properties of functionally graded hierarchical bamboo structures, Acta Biomaterialia, 2011, 7:3796–3803.

[12] C.S. Verma, V.M. Chariar. Stiffness and strength analysis of four layered laminate bamboo composite at macroscopic scale, Composites: Part B, 2013, 45: 369–376.

[13] Naresworo Nugroho. Naoto Ando. Development of structural composite products made from bamboo II: fundamental properties of laminated bamboo lumber, Journal of Wood Science, 2001, 47:237-242.

[14] Tao Li, Da-li Cheng, Magnus E.P. Wålinder b, Ding-guo Zhou. Wettability of oil heat-treated bamboo and bonding strength of laminated bamboo board, Industrial Crops and Products, 2015, 69: 15–20.

[15] Hakkou, M., Pétrissans, M., Zoulalian, A., Gerardin, P.,. Investigation of wood wettability changes during heat treatment on the basis of chemical analysis. Polym. Degrad. Stabil. 2005, 89 (1), 1–5.

[16] Shao Zhuoping. Mechanical Behavior of Bamboo with Large Deformation:Ⅰ . The Relationship between Stress and Strain. China Wood Industry, 2003, 17(02) :12-14. (in Chinese)

[17] Shao Zhuoping. Mechanical Behavior of Bamboo with Large DeformationⅡ. The Characteristics of Microcosmic Deformation. China Wood Industry, 2004, 18(01) :27-29. (in Chinese)

[18] Askarinejad S, Kotowski P, Youssefian S, Nima Rahbar. Fracture and mixed-mode resistance curve behavior of bamboo. Mechanics Research Communications, 2016, 78:79-85.

[19] Sheng Baolu , Zhou Aiping,Huang Dongsheng,Huang Zhen. Uniaxial strength and constitutive law of parallel strand bamboo. Journal of Nanjing Forestry University (Natural Sciences Edition), 2015, 39 (5):123-128.

[20] Nguyen Thi Huong Giang,ZHANG Qisheng,JIANG Shenxue. Technology of glued laminated bamboo laminated in high frequency hot press and the properties,China Forestry Science and Technology, 2014, 28 (04) :109-112. (in Chinese)

[21] Li Zhi, Yang Guosong, Zhou Quan, Xiao Yan. Bending Performance of Gluban Beam Made with Difference Processes. Advances in Structural Engineering, 2019, 22(2):144

[22] Yang Ruizhen. Research on material properties of Glubam and its application. Hunan University, 2013. (in Chinese)

[23] Yan Shoubai,. Research on gluing outdoor glued structural laminated bamboo. Nanjing Forestry University, 2011. (in Chinese)

[24] Zheng Y, Jiang Z, Sun Z, Ren H,. Effect of microwave-assisted curing on bamboo glue strength: Bonded by thermosetting phenolic resin. Construction and Building Materials, 2014, 68:320-325.

[25] Tian Lei. Outdoor Bamboo Strip Glulam Preparation and Properities Analysis. Nanjing Forestry University, 2013. (in Chinese)

[26] Shan Bo, Xiao Yan, Chen Jie. Experimental Research of Glubam after Artificial Accelerated Aging. Industrial Construction, 2015, 45 (04): 26-32. (in Chinese)

[27] Saikia P, Dutta D, Kalita D, JJ Bora, T Goswami. Improvement of mechano-chemical properties of bamboo by bio-chemical treatment. Construction and Building Materials, 2015, 101:1031-1036.

[28] Anwar U M K, Paridah M T, Hamdan H, S.M. Sapuan, E.S. Bakar. Effect of curing time on physical and mechanical properties of phenolic-treated bamboo strips. Industrial Crops and Products, 2009, 29 (1):214-219.

[29] Zhang Lusheng, Qin Daochun, Ren Hongling, Jin Xiaobei. Effects of Preservative Post-treatment of the Bamboo Glulam on it’s Durability. China Forest Product Industry, 2013, 40 (05): 55-57. (in Chinese)

[30] Zhang Rong, Zhang Lusheng, Fei Benhua, Tan Daochun. Ant mold and Waterproof Properties of the Bamboo Glulam Painted with Silane Modified Acrylate Latex. China Forest Product Industry, 2013, 40 (6): 57-59. (in Chinese)

[31] Xiao Yan, Ma Jian, Shan Bo, Chen Guo, She Liyong. Experimental research on fire safety of lightweight bamboo frame buildings. Building Structure, 2012, 42 (02): 165-169. (in Chinese)

[32] Xiao Yan, Yang Ruizhen, Shan Bo. Experimental research on mechanical properties of glubam. Journal of Building Structures, 2012, 33 (11): 150-157. (in Chinese)

[33] Hong Chen, Haitao Cheng, Ge Wang, Zixuan Yu, Sheldon Qiang Shi. Tensile properties of bamboo in different sizes, Journal rhe Japan Wood Research Society, 2015, 61:552–561.

[34] Li Haitao,Su Jingwen,Zhang Qisheng, Chen Guo. Experimental study on mechanical performance of side pressure laminated bamboo beam. Journal of Building Structures, 2015, 36 (03):121-126. (in Chinese)

[35] Djoko S M H P, 2014. Influence of shape and dimensions of lamina on shear and bending strength of vertically glue laminated bamboo beam. Procedia Engineering, 2014, 95:22-30.

[36] Lingfei Zhang, Haitao Li, Jingwen Su, Xiuyu Chen , Wei Liu,Minhui Xu , Jian Dai , Fan Wu, Zhao Song, Bin Li, Zhengqiang Zhou , Jian Chen,. Experimental study on glued bamboo beam, Advanced Materials Research, 2014, 919-921:123-127.

[37] Arijit Sinha, A.M.ASCE, Daniel Way, and Skyler Mlasko. Structural Performance of Glued Laminated Bamboo Beams, J. Struct. Eng, 2013, 140(1): 04013021-1~8.

[38] Lo T Y, Cui H Z, Leung H C,. The effect of fiber density on strength capacity of bamboo [J]. Materials Letters, 2004, 58 (21):2595-2598.

[39] Ma Lingfei, Ma Naixun. Study on the Variation of Moso Bamboo, Forestry science, 1997, 33(04):356-364.

[40] Huang Yanwen, Wu Xiahua, Qian Jun. The Comparison of Mechanical Properties of the Softening Treated Bamboos at Various Position and Different Age. Journal of bamboo research, 2015, 34 (02):40-46. (in Chinese)

[41] Zhang Xiaodong , Cheng Xiucai , Zhu Yixin. Variation of Bending Performance with Different Location of Bamboo. Journal of Nanjing Forestry University (Natural Sciences Edition), 2006, 30 (06):44-46. (in Chinese) )

[42] Shao Zhuoping, Huang Shengxia, Wu Fushe, Zhou Liang. A Study on the Difference of Structure and Strength between Internodes and Nodes of Moso Bamboo. Journal of bamboo research, 2008, 27 (02):48-52. (in Chinese)

[43] Askarinejad S, Kotowski P, Youssefian S, N Rahbar. Fracture and mixed-mode resistance curve behavior of bamboo. Mechanics Research Communications, 2016, 78:79-85.

[44] Zhang Junzhen,Ren Haiqing,Zhong Yong,Zhao Rongjun. Analysis of compressive and tensile mechanical properties, of recombinant bamboo, Journal of Nanjing Forestry University (Natural Science Edition), 2012, 36(4): 107-111. (in Chinese)

[45] Zhang Lingfeng, Xu Haifeng, Wang Youhong, Liu Xinge, Xu Bin, Wang Chuangui, Ke Shuhua. Impact on bamboo anatomical characteristics of different altitudes and slope and the relationship between them and the main physical& mechanical properties. Journal of Anhui Agricultural University, 2009, 36 (01):77-80. (in Chinese)

[46] Wang Youhong, Wang Shan, Wwang Chuangui, Ke Shuhua, Xu Bin, Liu Xinge. Difference in Main Physical and Mechanical Properties of Bamboo Located at Different Elevations and Slopes, Journal of Northeast forestry University, 2008, 36 (01):20-22. (in Chinese)

[47] Askarinejad S, Kotowski P, Shalchy F, N Rahbar. Effects of humidity on shear behavior of bamboo. Theoretical and Applied Mechanics Letters, 2015, 5(6):236-243.

[48] Qingfeng Xu, Kent Harries, Xiangmin Li, Qiong Liu, Jennifer Gottron. Mechanical properties of structural bamboo following immersion in water. Engineering Structures, 2014, 81: 230–239

[49] Zhang Lusheng, Qin Daochun, Reng Hongling, Jin Xiaobei. Effects of Preservative Pre-treatment on the Mechanical Properties of the Bamboo Glulam. China Forest Product Industry, 2013, 40 (04):54-56. (in Chinese)

[50] Bhavna Sharma, Ana Gatóo, Michael H,. Ramage. Effect of processing methods on the mechanical properties of engineered bamboo. Construction and Building Materials,2015, 83: 95–101.

[51] Nugroho N, Ando N,. Development of structural composite products made from bambooⅠ: fundamental properties of bamboo zephyr board. Journal of Wood Science (Japan). 2000, 46 (1):68-74.

[52] Nugroho N, Ando N,. Development of structural composite products made from bambooⅡ: fundamental properties of laminated bamboo lumber. Journal of Wood Science, 2001, 47 (3):237-242.

[53] Erwan Castanet, Quanxiang Li, Ludovic F. Dume ´, Christopher Garvey, Rangam Rajkhowa, Jin Zhang, Bernard Rolfe, Kevin Magniez. Structure–property relationships of elementary bamboo fibers, Cellulose, 2016, 23:3521–3534.

[54] José Jaime García, Christian Rangel , Khosrow Ghavami. Experiments with rings to determine the anisotropic elastic constants of bamboo. Construction and Building Materials, 2012, 31:52-57.

[55] Sheng Baolu,Zhou Aiping,Huang Dongsheng,Huang Zhen. Uniaxial strength and constitutive law of parallel strand bamboo, Journal of Nanjing Forestry University (Natural Sciences Edition), 2015, 39(05):123-128.

[56] Shao Zhuoping. Mechanical Behavior of Bamboo with Large Deformation:I. The Relationship between Stress and Strain. China Wood Industry, 2003, 17(02):12-14. (in Chinese)

[57] Shao Zhuoping, 2004. Mechanical Behavior of Bamboo with Large Deformation II. The Characteristics of Microcosmic Deformation. China Wood Industry, 2004, 18(01):27-29. (in Chinese)

[58] Hai-tao Li, Qi-sheng Zhang, Dong-sheng Huang, Andrew John Deeks. Compressive performance of laminated bamboo. Composites: Part B, 2013, 54: 319–328

[59] Zhou Quan. Experimental study and engineering application of glue laminated bamboo beam. Hunan University, 2013. (in Chinese)



DOI: https://doi.org/10.30564/jaeser.v2i4.1780

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