Kim Ill Yong, Ohtsuki Chikara, Coughlan Aisling, Placek Lana, Wren Anthony W, Towler Mark R
Graduate School of Engineering, Nagoya University, Furo-cho, Chikusa-ku, Nagoya, 464-8603, Japan,
J Mater Sci Mater Med. 2013 Dec;24(12):2677-82. doi: 10.1007/s10856-013-5017-z. Epub 2013 Aug 7.
Glass ionomer cements (GICs) are composed of an acid degradable glass, polyacrylic acid and water. Sol-gel processing to prepare the glass phase has certain advantages, such as the ability to employ lower synthesis temperatures than melt quenching and glasses that are reported to have higher purity. A previous study reported the effects of glass synthesis route on GIC fabrication. However, in that study, the sol-gel derived glass exhibited a reduced concentration of cations. This study investigates increasing the cation content of a sol-gel derived glass, 12CaO.4SrO.36ZnO.48SiO2 (molar ratio) by heating before aging to reduce dissolution of cations. This glass was prepared by both sol-gel and melt-quenched routes. GICs were subsequently prepared using both glasses. The resultant cement based on the sol-gel derived glass had a shorter working time than the cement based on the melt-quenched one. Contrary to this, setting time was considerably longer for the cement based on the sol-gel derived glass than for the cement based on the melt-quenched one. The cements based on the sol-gel derived glass were stronger in both compression and biaxial flexure than the cements prepared from the melt-quenched glass. The differences in setting and mechanical properties were associated with both cation content in the glass phase and the different surface area of the resultant cements.
玻璃离子水门汀(GICs)由可酸降解的玻璃、聚丙烯酸和水组成。采用溶胶 - 凝胶工艺制备玻璃相具有一定优势,例如能够采用比熔融淬火更低的合成温度,并且据报道所制备的玻璃具有更高的纯度。先前的一项研究报道了玻璃合成路线对GIC制备的影响。然而,在该研究中,溶胶 - 凝胶法制备的玻璃阳离子浓度降低。本研究通过老化前加热来提高溶胶 - 凝胶法制备的玻璃12CaO.4SrO.36ZnO.48SiO2(摩尔比)的阳离子含量,以减少阳离子的溶解。该玻璃通过溶胶 - 凝胶法和熔融淬火法两种路线制备。随后使用这两种玻璃制备GICs。基于溶胶 - 凝胶法制备的玻璃所得的水门汀比基于熔融淬火法制备的水门汀工作时间更短。与此相反,基于溶胶 - 凝胶法制备的玻璃所得的水门汀的凝固时间比基于熔融淬火法制备的水门汀长得多。基于溶胶 - 凝胶法制备的玻璃所得的水门汀在压缩和双轴弯曲方面都比由熔融淬火玻璃制备的水门汀更强。凝固和力学性能的差异与玻璃相中的阳离子含量以及所得水门汀的不同表面积有关。
