基于虚拟裂缝黏聚应力分布,采用解析法与权函数法,对高温后混凝土断裂全过程的裂缝扩展阻力曲线进行求解.试验采用楔入劈拉法,设置20~600℃共10组温度.混凝土断裂全过程划分为四个部分,裂缝黏聚应力按照Petersson及CEB-FIP Model 1990...基于虚拟裂缝黏聚应力分布,采用解析法与权函数法,对高温后混凝土断裂全过程的裂缝扩展阻力曲线进行求解.试验采用楔入劈拉法,设置20~600℃共10组温度.混凝土断裂全过程划分为四个部分,裂缝黏聚应力按照Petersson及CEB-FIP Model 1990两类双线性软化本构曲线分布.结果表明:断裂韧度阻力曲线随裂缝扩展长度的增加而增长,但随温度的上升呈下降趋势;解析法与权函数法计算结果吻合较好;软化本构曲线对断裂韧度阻力曲线的形状有明显影响.展开更多
Fracture behavior is one of the most important,yet still little understood properties of ultra-high performance cementitious composites(UHPCC),a new marine structural engineering material. Research on the fracture and...Fracture behavior is one of the most important,yet still little understood properties of ultra-high performance cementitious composites(UHPCC),a new marine structural engineering material. Research on the fracture and direct tension behavior of UHPCC was carried out.The constitution law of UHPCC was divided into three phases:pre-partial debonding,partial debonding,and pullout phases.A direct tension constitution law was constructed based on the proposed fiber reinforcing parameter as a function of fiber volume fraction,fiber diameter and length,and fiber bonding strength.With the definition of linear crack shape,the energy release rate of UHPCC was derived and the R-curve equation was calculated from this.Loading tests of UHPCC using a three-point bending beam with an initial notch were carried out.The predictions from the proposed R-curve were in good agreement with the test results, indicating that the proposed R-curve accurately describes the fracture resistance of UHPCC.Introduction of a fiber reinforcement parameter bridges the fracture property R-curve and micro-composites’ mechanics parameters together.This has laid the foundation for further research into fracture properties based on micro-mechanics.The proposed tension constitution law and R-curve can be references for future UHPCC fracture evaluation.展开更多
文摘基于虚拟裂缝黏聚应力分布,采用解析法与权函数法,对高温后混凝土断裂全过程的裂缝扩展阻力曲线进行求解.试验采用楔入劈拉法,设置20~600℃共10组温度.混凝土断裂全过程划分为四个部分,裂缝黏聚应力按照Petersson及CEB-FIP Model 1990两类双线性软化本构曲线分布.结果表明:断裂韧度阻力曲线随裂缝扩展长度的增加而增长,但随温度的上升呈下降趋势;解析法与权函数法计算结果吻合较好;软化本构曲线对断裂韧度阻力曲线的形状有明显影响.
基金the Center of Concrete Corea,Korea Development and Application of High Performance and Multi-Function Concrete(05-CCT-D11)
文摘Fracture behavior is one of the most important,yet still little understood properties of ultra-high performance cementitious composites(UHPCC),a new marine structural engineering material. Research on the fracture and direct tension behavior of UHPCC was carried out.The constitution law of UHPCC was divided into three phases:pre-partial debonding,partial debonding,and pullout phases.A direct tension constitution law was constructed based on the proposed fiber reinforcing parameter as a function of fiber volume fraction,fiber diameter and length,and fiber bonding strength.With the definition of linear crack shape,the energy release rate of UHPCC was derived and the R-curve equation was calculated from this.Loading tests of UHPCC using a three-point bending beam with an initial notch were carried out.The predictions from the proposed R-curve were in good agreement with the test results, indicating that the proposed R-curve accurately describes the fracture resistance of UHPCC.Introduction of a fiber reinforcement parameter bridges the fracture property R-curve and micro-composites’ mechanics parameters together.This has laid the foundation for further research into fracture properties based on micro-mechanics.The proposed tension constitution law and R-curve can be references for future UHPCC fracture evaluation.