{"title":"Bamboo Reinforced Panels for Fence Walls","authors":"S. Suppiah","doi":"10.9734/BPI/CASTR/V11/6826D","DOIUrl":null,"url":null,"abstract":"The construction industry consumes large quantity of steel and emits carbon leading to global warming, which is a dampener for sustainable growth all over the world. As an alternative to steel, bamboo has been tried as reinforcement in different countries (e. g., Indonesia, China, Malaysia, India) on a limited scale only. Presently, fence walls erected with precast steel reinforced concrete (SRC) panels are widely in demand due to saving in time and simple craftsmanship when compared to conventional fence walls erected with materials such as stone, brick or barbed wire. Preparation of SRC panels has become a cottage industry due to a higher demand. However, these panels are prepared without adhering to any specification or standards. This work aims at exploring the methods of adopting bamboo as an alternative to steel for erecting fence walls. As many as thirty (30) bamboo reinforced concrete (BRC) slabs of dimension 1000 mm x 300 mm x 50 mm (length: height: thickness) were cast in the laboratory adopting M20 mix. Fifteen (15) slabs each were cast with (i) bambusa balcooa and (ii) bambusa polymorpha species as reinforcement with a pretreatment using coal tar creosote. The slabs were tested using (a) ultrasonic instrument to assess the quality of concrete used and (b) universal testing machine to establish the load versus deflection characteristics. As a comparative study these tests were repeated on precast, SRC panels, procured from a locally manufacturing unit. The test results reveal that the quality of concrete in BRC slabs was better than that of the SRC slabs. The BRC slabs with either type of species failed at approximately 50% of the magnitude of load taken by SRC slabs at failure. The deflection and the associated crack width also followed the same trend. The cost analysis performed indicates that BRC slabs are cheaper by 30 to 35% in comparison to SRC panels. Therefore, it is recommended to adopt BRC slabs for erecting fence walls and barns leading to benefits such as, sustainable growth of the environment, wider cultivation of bamboo species and more rural employment.","PeriodicalId":199049,"journal":{"name":"Current Approaches in Science and Technology Research Vol. 11","volume":"150 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2021-07-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Current Approaches in Science and Technology Research Vol. 11","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.9734/BPI/CASTR/V11/6826D","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract
The construction industry consumes large quantity of steel and emits carbon leading to global warming, which is a dampener for sustainable growth all over the world. As an alternative to steel, bamboo has been tried as reinforcement in different countries (e. g., Indonesia, China, Malaysia, India) on a limited scale only. Presently, fence walls erected with precast steel reinforced concrete (SRC) panels are widely in demand due to saving in time and simple craftsmanship when compared to conventional fence walls erected with materials such as stone, brick or barbed wire. Preparation of SRC panels has become a cottage industry due to a higher demand. However, these panels are prepared without adhering to any specification or standards. This work aims at exploring the methods of adopting bamboo as an alternative to steel for erecting fence walls. As many as thirty (30) bamboo reinforced concrete (BRC) slabs of dimension 1000 mm x 300 mm x 50 mm (length: height: thickness) were cast in the laboratory adopting M20 mix. Fifteen (15) slabs each were cast with (i) bambusa balcooa and (ii) bambusa polymorpha species as reinforcement with a pretreatment using coal tar creosote. The slabs were tested using (a) ultrasonic instrument to assess the quality of concrete used and (b) universal testing machine to establish the load versus deflection characteristics. As a comparative study these tests were repeated on precast, SRC panels, procured from a locally manufacturing unit. The test results reveal that the quality of concrete in BRC slabs was better than that of the SRC slabs. The BRC slabs with either type of species failed at approximately 50% of the magnitude of load taken by SRC slabs at failure. The deflection and the associated crack width also followed the same trend. The cost analysis performed indicates that BRC slabs are cheaper by 30 to 35% in comparison to SRC panels. Therefore, it is recommended to adopt BRC slabs for erecting fence walls and barns leading to benefits such as, sustainable growth of the environment, wider cultivation of bamboo species and more rural employment.
建筑行业消耗大量钢材,排放大量碳,导致全球变暖,这是全球可持续增长的阻碍。作为钢的替代品,竹子已经在不同的国家(如印度尼西亚、中国、马来西亚、印度)进行了小规模的加固试验。目前,与用石头、砖或铁丝网等材料建造的传统围栏墙相比,用预制钢筋混凝土(SRC)板建造的围栏墙由于节省时间和工艺简单而受到广泛需求。由于更高的需求,SRC板的制备已经成为一个家庭手工业。然而,这些面板是在不遵守任何规范或标准的情况下制备的。这项工作旨在探索采用竹子作为钢的替代品来竖立栅栏墙的方法。多达三十(30)块尺寸为1000mm x 300mm x 50mm(长:高:厚)的竹钢筋混凝土(BRC)板在实验室中采用M20混合料浇筑。每块板用(i)竹叶和(ii)多形竹作为加固,用煤焦油杂酚油预处理。使用(a)超声波仪器来评估所用混凝土的质量,(b)万能试验机来确定荷载与挠度的特性。作为一项比较研究,这些测试在从当地制造单位采购的预制SRC面板上重复进行。试验结果表明,BRC板的混凝土质量优于SRC板。两种类型的BRC板在破坏时所承受的荷载约为SRC板的50%。挠度和相关裂缝宽度也遵循相同的趋势。成本分析表明,BRC板比SRC板便宜30 - 35%。因此,建议采用BRC板建造围栏墙和谷仓,从而带来诸如环境可持续增长,更广泛的竹种种植和更多的农村就业等效益。
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