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有限元分析法在口腔修复学中的应用进展(4)
[14] 刘则玉.髓腔固位冠修复缺损磨牙的三维有限元分析[J].陕西医学杂志,2016,45(8):956-957.
[15] Shin Y,Park S,Park JW, of the marginal and internal discrepancies of CAD-CAM endocrowns with different cavity depths:An in vitro study[J].J Prosthet Dent,2017,117(1):109-115.
[16] 郭靖,王潇宇,李学盛,等.不同边缘设计的髓腔固位冠修复下颌前磨牙的应力分析[J].南方医科大学学报,2016,36(2):200-204.
[17] 王慧媛,付强,张春光,等.边缘形式对大面积缺损第一磨牙髓腔固位冠应力分布的影响[J].口腔医学研究,2015,31(11):1121-1124.
[18] Modi R,Kohli S,Rajeshwari K,etal.A three-dimension finite element analysis to evaluate the stress distribution in tooth supported 5-unit intermediate abutment prosthesis with rigid and nonrigid connector[J].Eur J Dent,2015,9(2):255-261.
[19] Pjetursson BE,Sailer I,Makarov NA, or metal-ceramic tooth-supported fixed dental prostheses(FDPs)?A systematic review of the survival and complication II:Multiple-unit FDPs[J].Dent Mater,2015,31(6):624-639.
[20] Miura S,Kasahara S,Yamauchi S, finite element analysis of zirconia all-ceramic cantilevered fixed partial dentures with different framework designs[J].Eur J Oral Sci,2017,125(3):208-214.
[21] Maminskas J,Puisys A,Kuoppala R,etal.The prosthetic influence and biomechanics on peri-Implant strain:A systematic literature review of finite element studies[J].J Oral Maxillofac Res,2016,7(3):e4.
[22] Simonis P,Dufour T,Tenenbaum implant survival and success:A 10-16-year follow-up of non-submerged dental implants[J].Clin Oral Implants Res,2010,21(7):772-777.
[23] Marcian P,Borak L,Valasek J, element analysis of dental implant loading on atrophic and non-atrophic cancellous and cortical mandibular bone—a feasibility study[J].J Biomech,2014,47(16):3830-3836.
[24] Bahrami B,Shahrbaf S,Mirzakouchaki B, of surface treatment on stress distribution in immediately loaded dental implants—A 3D finite element analysis[J].Dent Mater,2014,30(4):e89-e97.
[25] 张杨,王超,张晓南,等.动态载荷下不同骨质对天然牙-种植体联合修复应力分布的影响[J].华西口腔医学杂志,2015,3(33):286-290.
[26] 吕佳,刘翠玲,蓝菁,等.动态载荷下种植体位置和直径对悬臂梁种植固定义齿应力影响的三维有限元研究[J].华西口腔医学杂志,2013,6(31):552-556.
[27] 李英,鲍萍萍,孙雯,等.下颌第一磨牙种植冠减径后的三维有限元分析[J].现代口腔医学杂志,2015,29(4):205-208.
[28] 王菲菲,陈祖贤.三维有限元分析前牙区单端固定桥及骨组织的应力与应变[J].中国组织工程研究,2013,17(16):3018-3025.
[29] 杜良智,许哲,石平,等.上前牙区角度基台应用的三维有限元研究[J].西安交通大学学报(医学版),2016,37(3):403-406.
[30] Campos CH,Goncalves TM,Garcia removable partial denture improves the quality of life of patients with extreme tooth loss[J].Braz Dent J,2015,26(5):463-467.
[31] Shahmiri R,Das R.Finite element analysis of implant-assisted removable partial dentures:Framework design considerations[J].J Prosthet Dent,2017,118(2):177-186.
[32] Eom JW,Lim YJ,Kim MJ, finite element analysis of implant-assisted removable partial dentures[J].J Prosthet Dent,2017,117(6):735-742.
[33] 杨雪,荣起国,杨亚东.附着体类型对种植支持可摘局部义齿应力分布的影响[J].北京大学学报(医学版),2015,47(1):72-77.
[34] Chen Y,Wang C,Huang Y, evaluation of the natural abutment teeth in combined tooth-implant-sup-ported telescopic prostheses:A three-dimensional finite element analysis[J].Comput Methods Biomech Biomed Engin,2017,20(9):967-979.
[35] Schuster AJ,Marcello-Machado RM,Bielemann AM, quality of life change perceived by patients after transition to mandibular overdentures[J].Braz Oral Res,2017,31:e5.
[36] Solberg K,Heinemann F,Pellikaan P, element analysis of different loading conditions for implant-supported overdentures supported by conventional or mini implants[J].Comput Methods Biomech Biomed Engin,2017,20(7):770-782.
[37] 游素兰,黄远亮,孙旻,等.无牙下颌固定种植义齿带末端悬臂的应力分析[J].口腔颌面外科杂志,2012,22(1):37-41.
[38] 袁豪,周延民.上颌All-on-4修复种植体在不同牙弓形态中应力分布的三维有限元分析[J].吉林大学学报(医学版),2014,6(40):1182-1186.
[39] 葛奕辰,蒋少康,李轻如,等.“All-on-4”在不同骨质条件下应力分布的三维有限元分析[J].口腔医学研究,2016,12(32):1252-1256.
文章来源:《数字技术与应用》 网址: http://www.szjsyyyzz.cn/qikandaodu/2021/0426/1364.html
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