中国组织工程研究

中国组织工程研究 ›› 2010, Vol. 14 ›› Issue (12): 2164-2166.doi: 10.3969/j.issn.1673-8225.2010.12.018

• 组织工程口腔材料 tissue-engineered oral materials • 上一篇    下一篇

不同聚合方法对热凝基托树脂力学性能的影响

邓再喜1,李石保2,张春宝1,甘云娜1,白石柱1,孙  翔1   

  1. 解放军第四军医大学口腔医院, 1修复工艺科, 2生物材料教研室,陕西省西安市  710032
  • 出版日期:2010-03-19 发布日期:2010-03-19
  • 通讯作者: 张春宝,副主任医师,解放军第四军医大学口腔医院修复工艺科,陕西省西安市 710032 zhangcb@fmmu.edu.cn
  • 作者简介:邓再喜★,男,1972年生,陕西省合阳县人,汉族,2005年解放军第四军医大学毕业,硕士,主管技师,主要从事口腔修复工艺的研究。 dengzaixi@fmmu.edu.cn

Mechanical properties of denture base resin polymerized by different methods

Deng Zai-xi1, Li Shi-bao2, Zhang Chun-bao1, Gan Yun-na1, Bai Shi-zhu1, Sun Xiang1   

  1. 1 Department of Prosthodontics, 2 Teaching and Research Section of Biomaterials, Hospital of Stomatology, Fourth Military Medical University of Chinese PLA, Xi’an  710032, Shaanxi Province, China
  • Online:2010-03-19 Published:2010-03-19
  • Contact: Zhang Chun-bao, Associate chief physician, Department of Prosthodontics, Hospital of Stomatology, Fourth Military Medical University of Chinese PLA, Xi’an 710032, Shaanxi Province, China zhangcb@fmmu.edu.cn
  • About author:Deng Zai-xi★, Master, Technician-in-charge, Department of Prosthodontics, Hospital of Stomatology, Fourth Military Medical University of Chinese PLA, Xi’an 710032, Shaanxi Province, China dengzaixi@fmmu.edu.cn

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496

被引次数

2

摘要:

背景:近年来,新型热凝基托树脂可以采用快速方法进行聚合,这种快速聚合的方法对热凝基托树脂力学性能及微观结构有什么影响?
目的:观察快速和传统方法聚合热凝基托树脂后其力学性能的变化。
方法:实验分为两组,实验组为热凝基托树脂经过快速方法聚合,对照组为热凝基托树脂传统方法聚合,两种方法聚合的基托树脂试样在材料试验机上对其冲击强度、弯曲强度、弹性模量和布氏硬度进行测定,并对断面进行扫描电镜观察。
结果与结论:快速聚合基托树脂和传统聚合基托树脂的冲击强度分别为(6.73±1.23),(7.35±0.93) kJ/mm3;弯曲强度为(89.93±12.92),(90.19±6.88) MPa;弹性模量为(2.2±0.2),(2.4±0.1) GPa,布氏硬度为(20.70±2.89),(19.57±1.05) kg/mm2,其各项力学性能差异无显著性意义(P > 0.05);扫描电镜观察不同方法聚合的基托树脂断面的微观结构也比较相似。提示基托树脂的力学性能和微观结构不受不同聚合方法的影响。

关键词: 聚合方法, 基托树脂, 力学性能, 全口义齿, 可摘局部义齿

Abstract:

BACKGROUND: Novel denture base resin can be polymerized rapidly. However, the effect of this method on resin mechanical performance and microstructure remains unclear.
OBJECTIVE: To observe the effects on the mechanical properties of denture base resin polymerized by different methods.
METHODS: The denture base resin of experimental and control groups were respectively polymerized by rapid or traditional methods. The impact strength, flexural strength, elastic modulus and Brinell hardness of two groups were measured. The cross-sections of different resin samples were detected by scanning electron microscopy.
RESULTS AND CONCLUSION: The impact strength of resin were (6.73±1.23) and (7.35±0.93) kJ/mm3, the flexural strength were (89.93±12.92) and (90.19±6.88) MPa, the elastic modulus were (2.2±0.2) and (2.4±0.1) GPa, and the Brinell hardness were (20.70±2.89) and (9.57±1.05) kg/mm2, respectively in experimental and control groups. All data of two different groups were not statistically significant (P > 0.05). Microstructures of cross-sections of two different groups observed by scanning electron microscopy were also similar. The mechanical properties and the microstructures of the denture base resin were not affected by different polymerization methods.

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