1 |
才伟, 张晔, 贾秀, 等. 热牙胶连续波根充与冷侧压根充后根尖渗漏的研究[J]. 口腔医学研究, 2011, 27(1): 55-56.
|
|
Cai W, Zhang Y, Jia X, et al. In vitro comparison of microleakage between continuous-wave condensation me-thod and cold lateral condensation method[J]. J Oral Sci Res, 2011, 27(1): 55-56.
|
2 |
Al-Nuaimi N, Thyab S. Elevation in surface temperature of root canals obturated with different thermoplasticized gutta-percha obturation techniques: an in vitro study[J]. J Baghdad Coll Dent, 2014, 26(1): 67-70.
|
3 |
She D, Dong JE, Zhang JH, et al. Development of black and biodegradable biochar/gutta percha composite films with high stretchability and barrier properties[J]. Composites Sci Technol, 2019, 175(3): 1-5.
|
4 |
Diegritz C, Gerlitzki O, Fotiadou C, et al. Temperature changes on the root surface during application of warm vertical compaction using three different obturation units[J]. Odontology, 2020, 108(10): 358-365.
|
5 |
Sweatman TL, Baumgartner JC, Sakaguchi RL. Radicular temperatures associated with thermoplasticized gutta-percha[J]. J Endod, 2001, 27(8): 512-515.
|
6 |
Lipski M. In vitro infrared thermographic assessment of root surface temperatures generated by high-temperature thermoplasticized injectable gutta-percha obturation te-chnique[J]. J Endod, 2006, 32(5): 438-441.
|
7 |
Ulusoy ÖI, Yilmazoğlu MZ, Görgül G. Effect of several thermoplastic canal filling techniques on surface temperature rise on roots with simulated internal resorption cavities: an infrared thermographic analysis[J]. Int Endod J, 2015, 48(2): 171-176.
|
8 |
Hohmann A, Wolfram U, Geiger M, et al. Correspondences of hydrostatic pressure in periodontal ligament with regions of root resorption: a clinical and a finite element study of the same human teeth[J]. Computer Methods Programs Biomed, 2009, 93(2): 155-161.
|
9 |
Dorow C, Schneider J, Sander FG. Finite element simulation of in vivo tooth mobility in comparison with experimental results[J]. J Mechan Med Biol, 2003, 3(1): 79-94.
|
10 |
Su MZ, Chang HH, Chiang YC, et al. Modeling viscoelastic behavior of periodontal ligament with nonlinear finite element analysis[J]. J Dent Sci, 2013, 8(2): 121-128.
|
11 |
Oskui IZ, Ashtiani MN, Hashemi A, et al. Thermal analysis of the intact mandibular premolar: a finite element analysis[J]. Int Endod J, 2013, 46(9): 841-846.
|
12 |
Gupta S, Goyal P, Jain A, et al. Effect of peri-implantitis associated horizontal bone loss on stress distribution around dental implants-A 3D finite element analysis[J]. Mater Today: Proc, 2020, 28(3): 1503-1509.
|
13 |
Cheng R, Zhou XD, Liu Z, et al. Development of a finite element analysis model with curved canal and stress analysis[J]. J Endod, 2007, 33(6): 727-731.
|
14 |
朱洪来, 白象忠. 流固耦合问题的描述方法及分类简化准则[J]. 工程力学, 2007, 24(10): 92-99.
|
|
Zhu HL, Bai XZ. Description method and simplified classification rule for fluid-solid interaction problems[J]. Engin Mechanics, 2007, 24(10): 92-99.
|
15 |
王轲, 许可, 耿楠, 等. 根管预备程度对中国人牙根强度的影响[J].口腔医学, 2015, 35(7): 538-541.
|
|
Wang K, Xu K, Geng N, et al. The effect of root canal instrumentation on Chinese tooth root strength[J]. Stomatology, 2015, 35(7): 538-541.
|
16 |
Lee SY, Huang HM, Lin CY, et al. In vivo and in vitro natural frequency analysis of periodontal conditions: an innovative method[J]. J Periodontol, 2000, 71(4): 632-640.
|
17 |
Er O, Yaman SD, Hasan M. Finite element analysis of the effects of thermal obturation in maxillary canine tee-th[J]. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 2007, 104(2): 277-286.
|
18 |
Miner MR, Berzins DW, Bahcall JK. A comparison of thermal properties between gutta-percha and a synthetic polymer based root canal filling material (Resilon)[J]. J Endod, 2006, 32(7): 683-686.
|
19 |
Zhou X, Chen Y, Wei X, et al. Heat transfers to periodontal tissues and gutta-percha during thermoplasticized root canal obturation in a finite element analysis model[J]. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 2010, 110(2): 257-263.
|
20 |
宋琳, 刘萍, 章锦才, 等. Obtura Ⅱ热牙胶根管充填系统根管充填时牙根表面温度变化[J]. 北京口腔医学, 2005, 13(3): 182-183.
|
|
Song L, Liu P, Zhang JC, et al. Assessment of root surface temperature changes generated by the ObturaⅡsystem in vitro[J]. Beijing J Stomatol, 2005, 13(3): 182-183.
|
21 |
Silver GK, Love RM, Purton DG. Comparison of two vertical condensation obturation techniques: touch'n Heat modified and System B[J]. Int Endod J, 1999, 32(4): 287-295.
|
22 |
Podolak B, Nowicka A, Woźniak K, et al. Root surface temperature increases during root canal filling in vitro with Nd: YAG laser-softened gutta-percha[J]. J Healthc Eng, 2020, 2: 8828272.
|
23 |
Rossini M, Valentini S, Portaccio I, et al. Localization of drilling tool position through bone tissue identification during surgical drilling[J]. Mechatronics, 2020, 67(5):102342.
|
24 |
Augustin G, Zigman T, Davila S, et al. Cortical bone dril-ling and thermal osteonecrosis[J]. Clin Biomech, 2012, 27(4): 313-325.
|