FRP筋混凝土构件裂缝控制标准安全度设置水平研究
引用文献:
李扬 戴欣. FRP筋混凝土构件裂缝控制标准安全度设置水平研究[J]. 建筑结构,2022,48(18):115-118,127.
LI Yang DAI Xin. Research on safety setting level of crack control standard for FRP bar concrete component[J]. Building Structure,2022,48(18):115-118,127.
摘要:针对纤维增强复合材料(FRP)筋混凝土构件设计规范关于裂缝宽度计算公式的有关规定,研究裂缝宽度计算公式的保证率与荷载组合的关系。提出了以等效保证率作为衡量频遇组合或准永久组合下裂缝宽度计算公式的安全度评判指标的建议。并据此研究了《纤维增强复合材料建设工程应用技术规范》(GB 50608—2010)(简称GB 50608—2010规范)裂缝宽度计算公式的安全度设置水平。在此基础上,对GB 50608—2010规范的裂缝宽度计算公式提出了两种修订建议:在原规范的标准组合下将裂缝宽度公式的计算保证率由95%降为85%,相应的受弯构件受力特征系数由2.1降为1.8;考虑采用频遇组合代替标准组合进行裂缝宽度计算。
关键词:纤维增强复合材料;等效保证率;裂缝宽度;裂缝控制;安全度设置水平
基金:国家自然科学基金(51508171);湖北省科技厅自然科学基金(2020CFB860)。
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[7] 金峤,李京龙,高猛,等.含FRP约束环的钢筋搭接连接试验研究[J].建筑结构,2020,50(15):74-79.
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[13] 吴毅彬,金国芳,李敏峰.基于可靠度的FRP加固混凝土结构研究综述[J].玻璃钢/复合材料,2014(1):85-89,34.
[14] 李扬,侯建国.中外混凝土规范裂缝控制标准的可靠度分析与比较[J].中南大学学报(自然科学版),2013,44(9):3786-3792.
[15] BARRIS C,TORRES L,COMAS J,et al.Cracking and deflections in GFRP RC beams:an experimental study[J].Composites Part B:Engineering,2013,55:580-590.
[16] 建筑结构荷载规范:GB 50009—2012[S].北京:中国建筑工业出版社,2012.
[17] Control of cracking in concrete structures:ACI 224R-01 [S].Farmington Hills:American Concrete Institute,2001.
[18] Guide for the design and construction of structural concrete reinforced with fiber reinforced polymer(FRP) bars :ACI 440.1R-15[S].Farmington Hills:American Concrete Institute,2015.
[19] BEEBY A W.The prediction of crack widths in hardened concrete[J].Structural Engineer,1979,57A(1):9-17.
[2] BARRIS C,TORRES L,VILANOVA I,et al.Experimental study on crack width and crack spacing for Glass-FRP reinforced concrete beams[J].Engineering Structures,2017,131:231-242.
[3] 周满清,张智梅,魏久燚.钢筋与FRP筋混合配筋混凝土梁最大裂缝宽度计算[J].复合材料科学与工程,2022(3):73-80.
[4] 孙艺嘉,吴涛,刘喜.基于粘结-滑移的FRP筋钢纤维轻骨料混凝土梁裂缝宽度计算方法[J].工程力学,2022,39(1):34-44,90.
[5] 欧进萍,韩世文,白石.FRP-钢筋复合筋及其增强混凝土构件的等效刚度设计法[J].中国公路学报,2022,35(2):1-11.
[6] 张童,雷真,朱争光,等.地震作用下纤维编织网增强钢筋混凝土柱的抗震性能分析[J].地震工程学报,2020,42(1):57-62,72.
[7] 金峤,李京龙,高猛,等.含FRP约束环的钢筋搭接连接试验研究[J].建筑结构,2020,50(15):74-79.
[8] 张季超,霍灵召,许勇,等.高强经编聚酯纤维筋增强混凝土梁抗弯性能试验研究[J].施工技术,2014,43(15):63-66,70.
[9] 刘喜,王征,吴涛.FRP筋混凝土梁挠度与裂缝宽度计算模型分析[J].建筑科学与工程学报,2017,34(5):163-170.
[10] 董志强,吴刚.基于试验数据分析的FRP筋混凝土受弯构件最大裂缝宽度计算方法[J].土木工程学报,2017,50(10):1-8.
[11] 纤维增强复合材料建设工程应用技术规范:GB 50608—2010[S].北京:中国计划出版社,2011.
[12] 蔡江勇,钟鸣,王雪亮,等.高强钢筋混凝土梁裂缝控制可靠度分析[J].建筑结构,2020,50(3):85-88.
[13] 吴毅彬,金国芳,李敏峰.基于可靠度的FRP加固混凝土结构研究综述[J].玻璃钢/复合材料,2014(1):85-89,34.
[14] 李扬,侯建国.中外混凝土规范裂缝控制标准的可靠度分析与比较[J].中南大学学报(自然科学版),2013,44(9):3786-3792.
[15] BARRIS C,TORRES L,COMAS J,et al.Cracking and deflections in GFRP RC beams:an experimental study[J].Composites Part B:Engineering,2013,55:580-590.
[16] 建筑结构荷载规范:GB 50009—2012[S].北京:中国建筑工业出版社,2012.
[17] Control of cracking in concrete structures:ACI 224R-01 [S].Farmington Hills:American Concrete Institute,2001.
[18] Guide for the design and construction of structural concrete reinforced with fiber reinforced polymer(FRP) bars :ACI 440.1R-15[S].Farmington Hills:American Concrete Institute,2015.
[19] BEEBY A W.The prediction of crack widths in hardened concrete[J].Structural Engineer,1979,57A(1):9-17.
Research on safety setting level of crack control standard for FRP bar concrete component
Abstract: The relationship between the guarantee rate of crack width calculation formula and the load combination was studied according to the crack width calculation formula in fiber reinforcement polymer(FRP)bar concrete component design code. A suggestion was put forward to use equivalent guarantee rate as the safety evaluation index of crack width calculation formula under frequency encounter combination or quasi-permanent combination. Based on this, the safety setting level of the crack width calculation formula of Technical code for infrastructure application of FRP Composites(GB 50608—2010)(for short GB 50608—2010 code)was studied. Two revision suggestions were proposed for the calculation formula of crack width of GB 50608—2010 code. Under the standard combination of the original specification, the calculated guarantee rate of the crack width formula is reduced from 95% to 85%, and the corresponding stress characteristic coefficient of bending members is reduced from 2.1 to 1.8. Alternatively, the crack width calculation is performed in lieu of a standard combination using frequency encounter combination.
Keywords: fiber reinforcement polymer; equivalent guarantee rate; crack width; crack control; safety setting level
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