Stabilization of aqueous α-Al2O3 suspensions with block copolymers

J. Orth, W. H. Meyer, C. Bellmann, G. Wegner
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引用次数: 31

Abstract

Water-soluble diblock copolymers (DBCPs) with a polyelectrolyte block are accessible by sequential anionic polymerization of tert-butylmethacrylate (TBMA) and ethylene oxide (EO), followed by polymer analogous conversion of the PTBMA into poly(methyacrylic acid) (PMAA) blocks. These materials are highly efficient dispersants for oxide ceramic powders in aqueous media. A series of block copolymer samples with Mn ranging from 1300 to 38 900, and (EO:MAA) block length ratios from 0.5 to 11.7 were prepared with polydispersities close to 1.2. The influence of overall molecular weight and block length ratio, pH and ionic strength on the stability of aqueous α-Al2O3 suspensions was investigated by sedimentation and adsorption experiments, surface plasmon resonance (SPR) and electrokinetic measurements. The copolymers are capable of stabilizing alumina suspensions by a combination of specific adsorption of one block on the particle surface and a shielding effect provided by the nonadsorbing block. In addition, the adsorption of the negatively charged PMAA block on the oppositely charged alumina surface reverses the electrophoretic potential of the oxide particles, a process which is strongly pH dependent. With respect to the powder dispersing efficiency, an optimum was found when the DBCP consisted of a short PMAA anchoring and an approximately tenfold longer PEO stabilizer block with an overall molecular weight of about 5000. Alumina suspensions with the DBCP added were highly dispersed and rather stable against salt addition in a much wider pH window than block-copolymer-free suspensions.

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嵌段共聚物对α-Al2O3悬浮液的稳定作用
具有聚电解质嵌段的水溶性二嵌段共聚物(DBCPs)可通过甲基丙烯酸叔丁酯(TBMA)和环氧乙烷(EO)的顺序阴离子聚合,然后将PTBMA转化为聚甲基丙烯酸(PMAA)嵌段。这些材料是水介质中氧化物陶瓷粉末的高效分散剂。制备了一系列嵌段共聚物样品,Mn在1300 ~ 38900之间,(EO:MAA)嵌段长度比在0.5 ~ 11.7之间,多分散度接近1.2。通过沉降、吸附实验、表面等离子体共振(SPR)和电动力学测量,研究了α-Al2O3悬浮液的总分子量、块长比、pH和离子强度对其稳定性的影响。共聚物能够通过一个嵌段在颗粒表面的特定吸附和由非吸附嵌段提供的屏蔽作用的组合来稳定氧化铝悬浮液。此外,带负电荷的PMAA块在带相反电荷的氧化铝表面的吸附会逆转氧化物颗粒的电泳电位,这一过程强烈依赖于pH值。关于粉末分散效率,当DBCP由短PMAA锚定和大约10倍长的PEO稳定剂块组成,总分子量约为5000时,发现最佳。与无嵌段共聚物的悬液相比,添加DBCP的氧化铝悬液在更宽的pH窗口内具有高度分散性和抗盐稳定性。
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