摘要
混凝土材料由于自身结构问题,导致影响混凝土材料损伤的因素较为复杂,为有效监测多孔混凝土材料损伤程度,需对路面面层用多孔混凝土材料损伤规律展开演化分析,为此提出路面面层用多孔混凝土材料损伤演化规律仿真方法。对路面面层用多孔混凝土材料应力-应变关系展开具体分析,以此建立流动准则,结合有限元软件完成多孔混凝土材料损伤演化模型的建立,通过建立的演化模型实现路面面层用多孔混凝土材料损伤规律演化分析,获取多孔混凝土材料损伤演化规律。研究结果表明,多孔混凝土材料会随着时间的延长、温度的变化、载荷值的增长损伤程度不断增加;与此同时,路面面层厚度、裂纹扩展系数的增加以及位移值的增大,同样会增加多孔混凝土材料的损伤程度。
In order to effectively monitor the degree of damage to porous concrete material,it is necessary to conduct an evolution analysis of the damage law of porous concrete materials used in pavement surface layers.To this end,a simulation method for the evolution law of the damage of porous concrete materials used in pavement surface layers was put forward.Firstly,the stress-strain relationship of porous concrete materials used in pavement surface layers was analyzed in detail.Based on this,a flow criterion was established.Then,finite element software was used to construct a damage evolution model for porous concrete materials.Moreover,the evolution analysis was completed by the model.Finally,the evolution law of the damage of porous concrete materials was obtained.The following conclusions can be drawn from the simulation results.The damage degree of porous concrete materials increases with the extension of time,temperature changes,and increases in load values.Meanwhile,the increase of the thickness in pavement surface layer and crack propagation coefficient,as well as the increase of displacement value also increase the degree of damage of porous concrete materials.
作者
马腾飞
吉卓礼
李涛
杨方
MA Teng-fei;JI Zhuo-li;LI Tao;YANG Fang(Liupanshui Normal University,School of Civil Engineering and Urban Planning,Guizhou Liupanshui 553000,China;Liupanshui Normal University,School of Mining and Mechanical Engineering,Guizhou Liupanshui 553000,China;School of Architecture and Planning Yunnan University,Yunnan Kunming 650000,China)
出处
《计算机仿真》
2024年第5期329-332,475,共5页
Computer Simulation
基金
贵州省教育厅青年科技人才成长项目(黔教合KY字[2020]119)
六盘水师范学院学科(培育)团队(LPSSY2023XKPYTD01)
贵州省教育厅青年科技人才成长项目(黔教合KY字[2022]045)
贵州省教育厅青年科技人才成长项目(黔教合KY字[2022]057)
贵州省科技计划项目(黔科合基础-ZK[2022]一般529)
六盘水师范学院校级项目(LPSSYYBZK202213)。
