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双甲基丙烯酸缩水甘油酯聚氨酯衍生物的合成、表征及评价

Synthesis, characterization and evaluation of urethane derivatives of Bis-GMA.

作者信息

Khatri Chetan A, Stansbury Jeffery W, Schultheisz Carl R, Antonucci Joseph M

机构信息

NIST, Polymers Division, 100 Bureau Drive, Mail Stop 8545, Gaithersburg, MD 20899-8545, USA.

出版信息

Dent Mater. 2003 Nov;19(7):584-8. doi: 10.1016/s0109-5641(02)00108-2.

DOI:10.1016/s0109-5641(02)00108-2
PMID:12901981
Abstract

OBJECTIVES

The aims of the study were to synthesize derivatives of Bis-GMA having pendant n-alkyl urethane substituents and to characterize and evaluate their physicochemical properties.

METHODS

Stoichiometric amounts of Bis-GMA and n-alkyl isocyanates were reacted in dichloromethane with dibutyltin dilaurate as a catalyst. Volumetric shrinkage, water uptake, degree of vinyl conversion, refractive index and viscosity of resulting urethane monomers and those of Bis-GMA were measured. The flexural strengths of their corresponding homopolymers and that of Bis-GMA were also measured.

RESULTS

These types of urethane derivatives of Bis-GMA exhibited lower viscosities and were more hydrophobic than Bis-GMA. Generally, the viscosity of these experimental monomers decreased with increasing chain length of the alkyl urethane substituent. Photopolymerization of the new monomers gave high degrees of vinyl conversion compared to Bis-GMA. The experimental monomers also yielded polymers with lower polymerization shrinkages at equivalent degrees of vinyl conversion, than Bis-GMA. The refractive indices of these urethane derivatives were similar to Bis-GMA, but the flexural strengths of their polymers were lower than that of the Bis-GMA homopolymer, decreasing with increasing chain length of the alkyl urethane substituent.

SIGNIFICANCE

Because of their excellent overall properties, these new derivatives of Bis-GMA have potential as dental monomers that can improve many properties of resin based dental materials that utilize methacrylate monomer systems.

摘要

目的

本研究旨在合成具有侧链正烷基脲烷取代基的双甲基丙烯酸缩水甘油酯(Bis-GMA)衍生物,并对其物理化学性质进行表征和评估。

方法

将化学计量的Bis-GMA和正烷基异氰酸酯在二氯甲烷中,以二月桂酸二丁基锡作为催化剂进行反应。测量所得聚氨酯单体以及Bis-GMA的体积收缩率、吸水率、乙烯基转化率、折射率和粘度。还测量了它们相应的均聚物以及Bis-GMA均聚物的弯曲强度。

结果

这些类型的Bis-GMA聚氨酯衍生物表现出比Bis-GMA更低的粘度且更疏水。一般来说,这些实验性单体的粘度随着烷基脲烷取代基链长的增加而降低。与Bis-GMA相比,这些新型单体的光聚合反应具有较高的乙烯基转化率。在相同的乙烯基转化率下,这些实验性单体生成的聚合物的聚合收缩率也比Bis-GMA低。这些聚氨酯衍生物的折射率与Bis-GMA相似,但其聚合物的弯曲强度低于Bis-GMA均聚物,且随着烷基脲烷取代基链长的增加而降低。

意义

由于其优异的综合性能,这些新型Bis-GMA衍生物有潜力作为牙科单体,可改善利用甲基丙烯酸酯单体体系的树脂基牙科材料的许多性能。

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