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微波聚合法对义齿基托树脂力学性能影响的研究 被引量:3

Effect of Microwave Polymerization on Mechanical Properties of Denture Base Resin
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摘要 目的研究微波聚合方法对义齿基托树脂力学性能的影响。方法分别用微波聚合和水浴聚合方法制作63.0 mm×10.0 mm×2.5 mm的树脂试样各10个,经过10 000次冷热循环后,用电子万能试验机测量其弯曲强度和弯曲模量;同法制作同样规格的树脂试样各10个,用电子万能试验机测量其拉伸强度。结果微波法和水浴法制作的义齿基托树脂弯曲强度分别为(76.18±15.56)MPa和(73.06±13.01)MPa,差异无统计学意义(t=0.534 2,P>0.05);弯曲模量分别为(1 709.10±98.76)MPa和(1 699.21±90.23)MPa,差异无统计学意义(t=0.568 2,P>0.05);拉伸强度分别为(42.19±1.12)MPa和(44.35±1.22)MPa,差异无统计学意义(t=0.627 4,P>0.05)。结论微波聚合方法制作的义齿基托树脂力学性能与水浴法制作的相当,但微波法聚合时间较水浴法明显缩短。 Objective To evaluate the effect of microwave polymerization and water-bath heat polymerization on mechanical properties of denture base resin.Methods Specimens with 63.0 mm×10.0 mm×2.5 mm were made by microwave polymeric mode or water-bath heat polymeric mode.Flexural strength and flexural modulus were tested using electronic universal test machine.And other 20 Specimens with 60.0 mm×4.0 mm×2.5 mm were made for measuring tensile strength by electronic universal test machine.Results The flexural strength of denture base resin cured by two methods was(76.18±15.56) MPa and(73.06±13.01) MPa respectively;flexural modulus was(1 709.10±98.76) MPa and(1 699.21±90.23) MPa respectively;tensile strength was(42.19±1.12) MPa and(44.35±1.22) MPa respectively.There were no statistical differences in mechanical properties between two groups(P0.05).Conclusion Mechanical properties including flexural strength,flexural modulus and tensile strength of denture base Resin will not be affected by microwave polymerization compared to water-bath heat polymerization,but the time that microwave polymerization takes is shorter than that by water-bath heat polymerization.
出处 《广东牙病防治》 2011年第3期118-121,共4页 Journal of Dental Prevention and Treatment
基金 深圳市科技局科研项目(201003286)
关键词 微波 聚合方法 义齿基托树脂 力学性能 Microwave Polymeric mode Denture base resin Mechanical properties
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参考文献7

  • 1Bendale PM, Khadilkar BM. Selective hydrolysis of nitriles to amides using NaOH-PEG under microwave irradiation. Synth Commun, 2000,30(10) : 1713-1718.
  • 2Nikaido T, Kunzelmann KH, Chen H, et al. Evaluation of thermal cycling and mechanical loading on bond strength of a self-etching primer system to dentin. Dent Mater, 2002,18 (3) :269-275.
  • 3De Munek J, Van Landuyt K, Peumans M, et al. A critical review of the durability of adhesion to tooth tissue: methods and results. J Dent Res, 2005,84 ( 2 ) : 118-132.
  • 4唐立辉,张惠军,郭天文,侯德门.不同聚合方式义齿基托树脂的力学性能评价[J].生物医学工程学杂志,1996,13(3):204-206. 被引量:1
  • 5李振春,刘威,郝凤渝,王宇明.不同聚合方法对基托树脂挠曲强度影响的实验研究[J].口腔材料器械杂志,2008,17(3):129-131. 被引量:7
  • 6詹惠瑾.微波聚合法填充义齿136例分析[J].实用诊断与治疗杂志,2004,18(1):74-74. 被引量:1
  • 7Wiskott HW, Nicholls JI, Belser UC. Stress fatigue: basic principles and prosthodontie implications. Int J Prosthodont, 1995,8 (2) : 105- 116.

二级参考文献6

  • 1团体著者,1982年
  • 2陈汉清,1979年
  • 3江铭,江欣,吴景轮,黄城外.义齿基托塑料电热聚合器的研制[J].实用口腔医学杂志,1997,13(2):116-117. 被引量:5
  • 4林映荷 邓红颖 巢永烈.微波加热法及常规水浴处理聚甲基丙烯酸甲酯基托材料的性能比较研究[J].临床口腔医学杂志,2001,(2):125-126.
  • 5Sadamori S, Siswomihardjo W, Kameda K, et al. Dimensional change of relined denture bases with heat-cured, microwave-activated, autopolymerizing, and visible light-cured resins. A laboratory study. Aust Dent J. 1995,40(5):322-326.
  • 6Kimura H, teraoka F. On microwave polymerazation methed by the developed flash Quintessence Dent Tech, 1984,9(12):964-974.

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