基于宏细观多尺度的GFRP杆体损伤路径试验研究

采用宏细观相结合的多尺度力学试验对玻璃纤维增强塑料(GFRP)杆体的损伤路径进行研究,选取不饱和聚酯基和聚乙烯基的杆体进行试验,通过不同形式的拉伸试验并结合电镜扫描技术获取GFRP杆体的拉伸强度及破坏历程。试验结果得出:裂缝宽度观测,循环荷载拉伸试验下的性能表现以及初始状态与80%破坏荷载下杆体的SEM图多尺度说明聚乙烯基杆体的基体与纤维之间复合效应优于不饱和聚酯基杆体;在同一应力水平下,不饱和聚酯基杆体渐进损伤程度高于聚乙烯基杆体;聚乙烯基杆体裂纹扩展的临界应力在破坏荷载的80%左右,而不饱和聚酯基杆体为破坏荷载的60%左右,聚乙烯基杆体有更好的断裂韧性。

地质雷达超前预报正演模拟及应用

地质雷达超前预报往往受环境、操作、数据处理和图像解释等因素影响,使得预报结果有一定的误差。文中针对各向同性均匀介质和典型不良地质情况进行建模,利用时域有限差分法对地质雷达探测进行正演模拟,通过分析雷达剖面图、时域波形图和频谱图,总结出典型不良地质体的地质雷达解释准则,电导率越大,波的振幅吸收越明显;相邻界面相对介电常数的差值越大,反射波振幅越大;在非色散介质中,雷达信号具有较好的保真性能,色散介质对信号吸收更强,保真性较差。并结合工程实例验证了地质雷达探测正演模拟和解释准则的可靠性。

桥墩承台对高架桥下路面不均匀沉降的影响

为研究承台对高架桥下桥墩间路面不均匀沉降的影响,运用midas GTS NX软件从承台埋深和路面刚度两方面对高架桥下路面不均匀沉降的影响进行模拟分析。当承台的埋深在1~2.5m的范围内时,随着承台的埋深增加,路面的沉降差也逐渐减小,并且减小幅度较大。当路面的弹性模量在5~15GPa的范围内时,道路的沉降差递减变化显著,递减的速率较大,差值减小幅度也较大。随着承台埋深的增加,高架桥下路面的沉降差逐渐减小。随着路面刚度的增加,高架桥下路面的沉降差也逐渐减小。适当的增加承台的埋深,提高路面刚度有利于改善高架桥下桥墩间路面的不均匀沉降。

Behaviour of Multiscale Progressive Damage for Different Matrix Glass Fiber Reinforced Plastics Bars

The damage formation and evolution of glass fiber reinforced plastics( GFRP) bar on mechanical properties were mainly evaluated by theoretical analysis and numerical calculations which lack of test basis of damage process. The two different matrices of unsaturated polyester and vinylester GFRP bars were selected to carry out a series of macro-mesoscopic physical and mechanical tests to analyze the tensile progressive damage process on a multiscale. The formation of apparent crack,the bonding of internal components as well as the strain change were all reflected damage evolution of GFRP bar,and a certain correlation existed between them. Wherein the matrix has an obvious impact on the damage of bar,the component stress transfer effect of vinylester bar is better than unsaturated polyester from crack propagation observation and scanning electron microscopy( SEM). The cyclic loading tests quantitatively reflect the difference of damage accumulation between different matrix bars,and the failure load of bars decreases nearly 10%.