| 李冰,张晔,武秀萍,邓菁菁,吴婷婷,张并生.有限元法分析不同粘接剂对全瓷冠应力分布的影响[J].口腔材料器械杂志,2014,23(2):89-92. |
| 有限元法分析不同粘接剂对全瓷冠应力分布的影响 |
| Effect of different bonding agents on the stress distribution of all-ceramic crown by three-dimension finite element analysis |
| 投稿时间:2013-11-05 修订日期:2013-12-07 |
| DOI:10.11752/j.kqcl.2014.02.08 |
| 中文关键词: 粘接剂 全瓷冠 有限元分析 应力 |
| 英文关键词:Bonding agent All-ceramic crown Fifinite element analysis Stress |
| 基金项目:山西医科大学青年基金(编号02200721) |
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| 摘要点击次数: 1905 |
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| 中文摘要: |
| 目的 探讨不同种类粘接剂对双层结构的全瓷冠及粘接剂应力分布的影响,为临床修复设计提供依据。方法 利用螺旋CT断层图像,构建双层结构的全瓷冠(核瓷层和饰瓷层)、粘接剂层、牙体组织、牙根、牙周膜和牙槽骨6部分的三维有限元模型,设计垂直集中载荷600N的加载方式,分析全瓷冠经3种不同粘接剂(Panavia,3M RelyX Unicem,3M RelyX Luting)粘固后,粘接剂层、核瓷层和饰瓷层的最大主应力分布。结果 粘接层应力集中部位为近中颊侧肩台和腭侧面近面部分。核瓷层应力主要集中在核瓷内部,饰瓷层应力主要集中在加载点附近。随着粘接材料弹性模量的增加,位于饰瓷层的最大主应力呈现出下降的趋势,而位于核瓷层和粘接层的最大主应力出现上升的趋势。结论 全瓷冠在不同粘接材料粘固后受到力的作用时,最大主应力分布区域相对固定,但分布范围有向加载侧分布的趋势。在某些条件下,高弹性模量的粘接剂可能会降低全瓷冠崩瓷的发生,并在一定程度上降低核瓷层的抗折能力。 |
| 英文摘要: |
| Objective To investigate the relationship between the bonding agents and the stress distribu-tion of all-ceramic crown and then provide the basis for clinical restoration design. Methods The tomography im-ages of spiral CT were used to construct the finite element analysis mode, which was composed of six parts:double layer structure of all-ceramic crown(include the core layer and the veneer layer), adhesive layer, tooth tissues, tooth root, periodontal ligament, and alveolar bone. The loading way was designed as follows:600N load was verti-cally concentrated, and ANSYS software was used to analyze the stress values of the core layer、the veneer layer and the adhesive layer with three bonding agents including the Panavia,the 3M RelyX Unicem and the3M RelyX Luting cement. Results The distribution area of stress in the adhesive layer was near the mesio-buccal shoulder and occlusal surface at the lingual side;the stress of the core layer was concentrated within the core porcelain and the stress of the veneer layer was located in where the load applied. With the increase of the elasticity modulus of the bonding agents, the maximum principal stress declined in the veneer layer, and the maximum principal stress increased in the core layer and the adhesive layer. Conclusions Under loading when all-ceramic crown was ce-mented with different bonding agents, the distribution areas of the maximum principal stress are always stable, but there is a trend due to the load:the distribution areas are more likely to move to the place near the load position. The bonding agents with high elasticity modulus may reduce the risk of collapse porcelain of all-ceramic crowns, but it also may cause the decrease of the fracture resistance of core porcelain to a certain extent. |
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