Mechanism behind the improvement of coupling agent in interface bonding performance between organic transparent resin and inorganic cement matrix

• Published in: Construction & building materials Vol. 143; pp. 138 - 146
• Main Authors: Wang, Xingang, Zhai, Shengtian, Xie, Tao
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 15.07.2017; Elsevier B.V
• Subjects: Analysis; Cements (Building materials); Chemical properties; Chemical reaction; Coupling agent; Infrared spectroscopy; Micro-hardness; Micro-morphology; Surface morphology structure; China; Surface morphology structure; Micro-hardness; Micro-morphology; Chemical reaction; Coupling agent
• ISSN: 0950-0618; 1879-0526
• DOI: 10.1016/j.conbuildmat.2017.03.072

•We adopt the tapping mode AFM to study surface morphology structure.•The micro morphology is studied in detail by ESEM.•We study the interfacial chemical reaction by FTIR spectra analysis.•The interface performance is systematic studied from the perspective of micro and meso.•The coupling agent could significantly improve interface bonding properties of RLCCM. Resin light conductive cementitious materials (RLCCM) is a kind of advanced composite materials with good prospects for development, but there is the most vulnerable area on the interface of RLCCM. To find out the effect of coupling agent on interface bonding mechanism of organic-inorganic composite, the micro-hardness, micro-topography, surface morphology structure and chemical reaction of organic transparent resin and inorganic cement matrix interface were evaluated by the micro-hardness tester, environmental scanning electron microscopy (ESEM), atomic force microscope (AFM) and Fourier transform infrared spectroscopy (FTIR) tests. The results show that the silane coupling agent A-151 and aluminate coupling agent not only reduced the transparent resin performance weakened region thickness up to 100μm and the micro-hardness in the transition region was increased by 19.6% and 39.9%, respectively, but also improved the micro-hardness of the surface of the cement matrix in the range of 30μm, 20μm to 22.2 and 21.9MPa, respectively. The interface treated with silane coupling agent A-151, the interfacial micro cracks caused by the sampling process have narrowed and discontinuous in the direction of length. The interface treated with aluminate coupling agent, although the boundary between transparent resin and cement matrix still exists, but the micro cracks caused by the sampling process is almost disappeared, and two substances are closely combined together to present a natural transition state. Silane coupling agent A-151 and cement hydration products formed flat spherical particle diameter of about 78nm, and these particles mosaiced and fused in the surface of hydrate as a whole, therefore the surface become more denser and smoother. Hydrolyzing silane coupling agent A-151 to produce silanol (–SiOH), which could react with hydroxy (–OH) function groups of CSH to form Si–O–Si bond. Hydrophilic inorganic groups of aluminate coupling agent reacted with hydroxyl (–OH) function groups of CSH to form Al–O–Si bond, and hydrophilic organic groups and resin make crosslinking, twisting reaction happened.