2012, Volume 14, Issue 3
Strategic Study of CAE >> 2012, Volume 14, Issue 3
The application of nanotechnology in the improvement of dental composite resins
1. Institute of Stomatology Nanjing Medical University, Nanjing 210029, China;
2. Research Institute of Southeast University in Suzhou, Suzhou, Jiangsu 215124, China
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Abstract
In this paper, nanotechnology for the improvement of dental composite resins has been reviewed in the background of the existing shortcomings, focusing on the improvement for polymerization shrinkage, anti-bacterial properties and mechanical properties of composite resins. The results show that the use of nanotechnology and nano materials can be an effective method to improve the performance of dental composite resins in a various ways. At last, the paper also gives a future perspective of dental composite resins.
Keywords
nano technology ; composite resin ; antibacterial ; polymerization shrinkage ; mechanical properties
References
[ 1 ] 支数,李长码,书界飞,等,纳米Si0,在PlMA口腔文齿修复材料中的应用基础研究[J],天津医科大学学报,2007,13(4);493-496.
[ 2 ] 钟玉修,倪龙兴,姜永,等.纳米金刚石填料对复合树脂耐磨性能及挠曲强度的影响[J],口腔医学,2005,25(3):154-155. link1
[ 3 ] 钟玉修,倪龙兴,吴道澄,等。纳米金刚石填料对复合树脂显微硬度、抗压强度的影响[J]。牙体牙髓牙周病学杂志,2003,13(6):331-332. link1
[ 4 ] 胡晓刚,顺晓学,全毅,等。改性纳米金刚石增强增韧医用口腔复合树脂的研究[J],化工新型材料。2006.34(2):60-62. link1
[ 5 ] 吴伟力,张修银,朱邦尚,等。氧化锆的用量对纳米氧化锆/PMMA复合材料挠曲性能的影响[J],口腔颌面修复学杂志,2008,9(l):43-47 link1
[ 6 ] 王君,储昭荣,古小利,等。紫外光固化纳米复合树脂的研究[J],化学与生物工程,2004(3):18-19. link1
[ 7 ] 王云,王青山.牙体修复性纳米羟基磷灰石复合材科的机械性能研究[J].现代口腔医学杂志.2011,25(2):115-117. link1
[ 8 ] Xia Y,Zhang F M,Xie HF,et al.Nanoparticle-reinforced res-in-based dental cumposites[J].Joumal of Dentistry,2008,36(6):450-455. link1
[ 9 ] Kuo MC.Tsai CM,Huang JC,et al.PEEK compasites icin-foreed by nano-sized siO,and Al,O;particulates[J].Materials Chemistry and Physies,2005,90(l):185-195. link1
[10] CondonJR,Ferracane JL.Reduction of composite contrartionstress through non-bonded microfiller particles[J].Donial Ma-ierials,1998,14(4):256-260. link1
[11] Condon JR, Ferracane J 1. Reduced polymerization stress through non-bonded nanofiler particles[J]. Biomaterials,2002,23(18):3807-3815. link1
[12] Soh MS, Yap A UJ, Sellinger A. Physicomechanical evaluation of low-shrinkage dental nanocomposites based on silsesquioxane cores[J]. European Journal of Oral Science,2007,115(3):230-238. link1
[13] Garoushi S, Vallittu P K, Walts D C, et al. Polymerization shrinkage of experimental short glass fiher-reinforced composiie with semi-inter penetrating polymer network matrix[J]. Dental Materials,2008,24:211-215. link1
[14] Garoushia S, Vallittu PK, Watts D C, et al. Effect of nanofiller fractions and temperature on polymerizalion shrinkage on glass fi-ber reinforced filling material[J]. Dental Materials,2008,24:606-610. link1
[15] Beyth N. Yudovin-Farber I. Bahir R, et al. Antibacterial ac-tivity of dental composites containing quaternary ammonium poly-ethylenimine nanoparticles against treptococcus mutans[J]. Bio-materials,2006,27(21):3995-4002. link1
[16] Jia HS, Hou WS, Wei L Q, ct al. The structures and antibac-terial properties of nano-Si0, supported silver/zine-silver ma-terials [J]. Dental Materials,2008,24(2):244-249. link1
[17] Xu HH, Sun L, Weir MD, et al. Nano DCPA-whiskercom-posites with high strength and Ca and PO; release[J]. Journal of Dental Research,2006,85:722-727. link1
[18] Xu HH,Weir MD,Sun L,ct al.Strong nanocomposites with Ca,PO,and F release for caries inhibition[J].Joumal of Dent-al Research,2010,89:19-28. link1
[19] 宋欣,杜,肖月,等.添加四针状氧化锌晶须抗菌剂对义齿软衬材料机械性能的影响[J].黑龙江医药科,2011,34(1):39-40. link1
[20] Niu L N,Fang M,Jiao K,et al.Tetrapod-like zinc oxide whisker enhancement of resin composite[J].Journal of Dental Research,2010,89(7):746-750. link1
[21] Chae H H,Kimb B H,Yang KS,et al.Synthesis and antibae-terial performance of size-tunable silver nanoparticles with elee-trospun nanofiber composites[J].Synthetic Metals,2011,doi:10.1016/j.synthmet.2011.08.013. link1
[22] Xu H H,Quinn J B,Giuseppetti A A,et al.Effects of whisker-to-silica ratio on the reinforcement of dental resin composites with silica-fused whiskers[J].Journal of Dental Research,2000,79(11):1844-1849. link1
[23] XuHH,Quimn JB,Smith Df,et al.Dental resin composites containing silica-fused whiskers--effects of whisker-to-sil-ica ratio on fracture toughness and indentation properties[J].Biomaterials,2002,23(3):735-742. link1
[24] Yu Demei,Wu Jingshen,Zhou Limin,et al.The dielectric and mechanical properties of a potassium-titanate-whisker-rein-forced PP/PA blend[J].Composites Science and Technology,2000,60:499-508. link1
[25] 田爱峰,张修银,刘义钛,等,钛酸钾晶须增强的复合树脂与两种常用复合树脂的抗弯强度的比较[J].口腔颌面修复学杂志,2009,10(1):31-34. link1
[26] 张文云,衰艳波,陈庆华,等.纳米二氧化硅含量对硼酸铝品须一二氧化硅熔附体填料复合树脂弯曲性能的影响[J].华西口腔医学杂志,2011,29(2):195-198.
[27] 王蓉,张文云,贾安琦,等。不同晶须及晶须用量对复合树脂力学性能的影响[J],口腔医学研究,2007,23(4);365-367. link1
[28] Zhang Hongquan,Zhang Ming.Effect of surface treatment ofhydroxyapatite whiskers on the mechanical properties of bis-GMA-based composites[J].Biomedical Materials,2010,5(5):1-7. link1
[29] Hao Fong.Electrospun Nylon 6 nanofiber reinforeed BISGMA/TEGDMA dental restorative composite resins[J].Polymer,2004,45(7):2427-2432. link1
[30] Ming Tian,Yi Gao,YiLiu,et al.Bis-GMA/TEGDMA dental composites reinforeed with electrospun nylon 6 nanocomposite nanofibers containing highly aligned fibrillar silicate single crys-tals[J]:Polymer,2007,48(9):2720-2728. link1
[31] Tian Ming,Gao Yi,Liu Yi,et al.Fabrication and evaluation of Bis-GMA/TEGDMA dental resins/composites containing nano fibrillar silicate[J].Dental Materials,2008,24(2):235-243. link1
[32] Sun Z,Zussman E,Yarin A L.et al.Compound core-shell polymer nanofibers by co-electrospinning[J].Advanced Mate-rials,2003,15(22):1929-1932. link1
[33] Bazilevsky AV,Yarin A L,Megaridis C M.Co-electrospin-ning of core-shell fibers using a single-nozle technique[J].Langmuir,2007,23(5):2311-2314, link1
[34] Wei M, Lee J, Kang B, et al. Preparation of core-shell nano-fibers from conducting polymer blends[J]. Macromolecular Rap-id Communication,2005,26(14):1127-1132. link1
[35] Zussman E, Yarin A L, Bazilevsky A V, et al. Electrospun polyacrylonitrile/poly(methyl methacrylate)-derived turbostrat-ic carbon micro-/nanotubes [J]. Advanced Materials,2006,18:348-353. link1
[36] Chen LS, Huang Z M, Dong G H, et al. Development of a transparent PMMA composite reinforeed with nanofibers [ EB/0L]. Polymer Composite.[2008-10-02]. http://www. in-lerscience. wiley. com. link1
[37] Lin S, Cai Q, Jia JY, et al. Electrospun nanofiber reinforced and toughened composites through in situ nano-interface forma-tion[J]. Composites Science and Technology,2008,68(15-16):3322-3329. link1
[38] Sun W, Cai Q, LiP, et al. Post-draw PAN-PMMA nanofi-ber reinforeed and toughened Bis -GMA dental restorativecom-posite[J]. Dental Materials,2010,26(9):873-880. link1
[39] Zhang F M, Xia Y, Xu L, ct al. Surface modification and micro-structure of single-walled carbon nanotubes for dental resin-based composites [J]. Journal of Biomedical Material Research(Part B),2008,86(1):90-97, link1
[40] Messersmith PB, Obrez A, Lindberg S. New acrylie resin com-posite with improyed thermal diffusivity[J]. The Journal of Pros thetic Dentistry,1998,79;278-284.
[41] KhaledaS MZ, Mironb R J, Douglas W, et al. Reinforcement of resin based cement with titania nanotuhes [J]. Dental Materi-al,2010,26:169-178. link1
[42] Van Dijken JWV, Sunnegardh-Gronberg K. Fiber-reinforced packable resin composites in Class II cavities[J], Journal of Dentistry,2006,34:763-769. link1
[43] Koziol KKK, Boncel S, Shaffer MS P, et al. Aligned carhon nanotube-polystyrene composites prepared by in situ polymerisa-tion of stacked layes[J]. Composites Science and Technology,2011,71:1606-1611. link1
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