弹性、粘弹性和粘塑性对义齿暂时化材料在应力作用下变形的顺应性有贡献。

Acta Biomaterialia Odontologica Scandinavica Pub Date : 2016-08-24 eCollection Date: 2016-12-01 DOI:10.1080/23337931.2016.1219664
Tritala K Vaidyanathan, Jayalakshmi Vaidyanathan, David Arghavani
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引用次数: 5

摘要

目的:本研究的目的是表征用于临时(临时冠和桥)应用的选定聚合物的顺应性。方法:以聚甲基丙烯酸甲酯(PMMA)和聚甲基丙烯酸甲酯(PEMA)为基材,采用两种双丙烯酸基复合树脂(LUXATEMP和PROTEMP 3 GARANT)对JET和TRIM II进行了研究。矩形树脂样品在口腔温度(27°C、37°C和47°C)及附近的动态力学分析仪中进行蠕变恢复试验。确定并分析了材料的瞬时(弹性)和随时间变化的粘弹性和粘塑性柔度曲线作为材料和温度的函数。结果:弹性,粘弹性和粘塑性柔度值的平均值作为材料的函数存在显著差异(p = 0.0001)。TRIM II的粘塑性变形比其他三种材料(LUXATEMP、PROTEMP 3 GARANT和JET)高一个数量级。结论:与双丙烯酸酯复合材料和PMMA临时冠桥材料相比,PEMA具有更大的弹性、粘弹性,更重要的是具有更大的粘塑性顺应性。这表明PEMA器具与-à-vis PMMA和双丙烯酸基复合材料相比具有高维不稳定性和较差的刚度和弹性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Elastic, viscoelastic and viscoplastic contributions to compliance during deformation under stress in prosthodontic temporization materials.

Elastic, viscoelastic and viscoplastic contributions to compliance during deformation under stress in prosthodontic temporization materials.

Elastic, viscoelastic and viscoplastic contributions to compliance during deformation under stress in prosthodontic temporization materials.

Elastic, viscoelastic and viscoplastic contributions to compliance during deformation under stress in prosthodontic temporization materials.

Purpose: The goal of this investigation was to characterize the compliance properties in selected polymers used for temporary (provisional crown and bridge) applications. Method: Polymethyl methacrylate (PMMA)- and polyethyl methacrylate (PEMA)-based JET and TRIM II were investigated along with two bisacryl composite resins (LUXATEMP and PROTEMP 3 GARANT). Rectangular samples of the resins were subjected to creep-recovery tests in a dynamic mechanical analyzer at and near the oral temperature (27 °C, 37 °C and 47 °C). The instantaneous (elastic), and time-dependent viscoelastic, and viscoplastic compliance profiles of the materials were determined and analyzed as a function of materials and temperature. Results: Highly significant (p = 0.0001) differences among means of elastic, viscoelastic and viscoplastic compliance values were found as a function of materials. TRIM II showed an order of magnitude higher viscoplastic deformation than the other three materials (LUXATEMP, PROTEMP 3 GARANT and JET). Conclusions: The results indicate that PEMA is susceptible to significantly greater elastic, viscoelastic, and more importantly to viscoplastic compliant behavior compared with bisacryl composite and PMMA provisional crown and bridge materials. This indicates high-dimensional instability and poor stiffness and resiliency in PEMA appliances vis-à-vis those of PMMA and bisacryl composites.

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