减缩型聚羧酸减水剂提高混凝土早期抗裂性的作用研究

减缩型聚羧酸减水剂(SRPC)是一类兼具减缩与减水双重作用的新型混凝土外加剂,它对混凝土早期抗裂性的作用将影响其在工程中的应用。本文利用平板抗裂试验对比测试了掺SRPC、聚羧酸减水剂(PCE)及小分子减缩剂(SRA)的混凝土早期抗裂性,并通过对表面张力、收缩率、孔结构、水化热等参数的分析,讨论了SRPC影响混凝土抗裂性的作用机理。试验结果表明,尽管SRPC在掺量0.15%(质量分数)下的减缩效果弱于掺量1.5%(质量分数)的SRA,但SRPC表现出更佳的早期抗裂性能。机理分析表明,SRPC除了与SRA都是通过降低孔溶液表面张力及改变毛细孔结构从而减少混凝土的收缩外,还通过延缓水泥水化速率、降低早期水化放热量、抑制混凝土中水分蒸发等作用,改善混凝土的早期抗裂性。

吸水性微胶囊界面修饰提高水泥基材料抗渗性研究

在自修复水泥基材料中,微胶囊与水泥基体间的界面结合决定着微胶囊被裂缝触发的概率,从而影响自修复效果。本文针对吸水性微胶囊的界面结合问题,利用硅烷偶联剂KH550修饰环氧/海藻酸钙微胶囊表面,以改善其与水泥基体间的界面结合情况。采用X射线光电子能谱仪、电感耦合等离子体发射光谱仪等表征硅烷偶联剂在微胶囊表面的键合状况,利用压汞法分析水泥基材料的孔结构,并测试水泥基材料的抗渗性与自修复效果。结果表明,硅烷偶联剂能够与微胶囊外壁的海藻酸钙发生化学键合,微胶囊与水泥基体间的界面结合得到有效改善,水泥基体中有害孔数量减少,无害孔和少害孔数量增加,水泥基材料的抗渗性和自修复效果获得提升。

海藻酸钙/环氧微胶囊在水泥基材料中的自修复作用

采用锐孔-凝固浴法制备海藻酸钙/环氧树脂复合微胶囊,将其应用于水泥基自修复材料。表征了微胶囊的微结构、力学强度和吸水溶胀等性能,并通过X射线计算机断层扫描技术和SEM/EDS分析微胶囊在水泥基材料中的修复作用机制。结果表明:制备的海藻酸钙微胶囊为三维网络支架结构;在粒径为0.7～2mm,粒径尺寸不影响微胶囊的强度;海藻酸钙含量决定微胶囊的强度、吸水率和溶胀率。海藻酸钙/环氧微胶囊的裂缝修复机制为:基体产生裂缝,微胶囊发生破裂释放环氧树脂,粘结裂缝;裂缝中有水渗入时,微胶囊吸水溶胀,堵塞裂缝,进而促进周围水泥颗粒的继续水化,修复裂缝。

Characteristics of Self-Healing Microcapsules for Cementitious Composites

Urea formaldehyde/epoxy resin microcapsules were prepared by an in situ polymerization method and the effect of emulsifier on the syntheses process of the microcapsules was discussed. The surface morphology of the microcapsules was observed by optical microscopy and scanning electron microscopy（SEM）. Chemical structure was characterized by Fourier transform infrared spectroscopy（FTIR）. Thermal stability was obtained using simultaneous thermal analysis（STA）. The microcapsules were composed of urea-formaldehyde resin shell and epoxy resin core. Emulsifier played an important role in the polymerization process when the core material was packed by pre-polymer, so the effects of different emulsifiers（OP-10, SDS and SDBS） were discussed respectively. Results showed that the particle size of the microcapsules was uniform when SDBS as an emulsifier. Microcapsules showed good thermal stability below 240 ℃ and the initial decomposition temperature of the microcapsules was 265 ℃. The core materials released after microcapsules rupturing, which could be proven by the images of SEM. When implanted in cementitious composites, complete shape of microcapsules and good interface between microcapsules and cement specimen substrate could also be observed.

高吸水树脂作为混凝土内养护材料的研究进展

为保证混凝土质量,在混凝土施工过程中进行合理充分的养护是必不可少的。目前常用的洒水、覆膜等传统的外养护方式存在养护深度有限、对构件形状、施工部位依赖性大等问题,而采用内养护方式能够很好地解决这些问题,对于易于收缩开裂、不便进行外养护的部位和结构具有很好的应用价值。本工作回顾了内养护材料的发展,重点介绍了具有发展前景的内养护材料–高吸水树脂(SAP)的种类与吸/释水作用机理及相应的体积变化,综合归纳了在水泥基材料中SAP的吸/释水行为及其影响因素,探讨了SAP的掺入对于水泥基材料水化进程、孔隙结构和宏观性能的影响,并且对SAP作为混凝土内养护材料的发展方向进行了展望。