• The Journal of Advanced Prosthodontics
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• 제7권6호
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• pp.475-483
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• 2015

PURPOSE. The objective of this study was to evaluate the influence of various cement types on the stress distribution in monolithic zirconia crowns under maximum bite force using the finite element analysis. MATERIALS AND METHODS. The models of the prepared #46 crown (deep chamfer margin) were scanned and solid models composed of the monolithic zirconia crown, cement layer, and prepared tooth were produced using the computer-aided design technology and were subsequently translated into 3-dimensional finite element models. Four models were prepared according to different cement types (zinc phosphate, polycarboxylate, glass ionomer, and resin). A load of 700 N was applied vertically on the crowns (8 loading points). Maximum principal stress was determined. RESULTS. Zinc phosphate cement had a greater stress concentration in the cement layer, while polycarboxylate cement had a greater stress concentration on the distal surface of the monolithic zirconia crown and abutment tooth. Resin cement and glass ionomer cement showed similar patterns, but resin cement showed a lower stress distribution on the lingual and mesial surface of the cement layer. CONCLUSION. The test results indicate that the use of different luting agents that have various elastic moduli has an impact on the stress distribution of the monolithic zirconia crowns, cement layers, and abutment tooth. Resin cement is recommended for the luting agent of the monolithic zirconia crowns.

• Restorative Dentistry and Endodontics
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• 제35권1호
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• pp.30-39
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• 2010

본 연구에서는, 삼차원 유한요소분석법을 이용하여 복합레진 및 도재 라미네이트로 전치부 치간이개를 폐쇄할 때, 치간이개의 간격과 수복방법이 수복물의 접착계면에서의 응력분포에 미치는 영향을 비교하였다. 복합레진 혹은 도재 라미네이트로 수복된 모습의 유한요소모델을 형성하여 접착계면에서의 von Mises stress 분포 양태를 분석하였다. 수복형태는 크게 네 가지 범주를 고려하였다. Type I, 복합레진으로 인접면을 최소한으로 수복하는 경우; Type II, 치아 삭제 없이 복합레진으로 순면의 절반까지 수복하는 경우; Type III, 치아삭제 후복합레진으로 순면의 2/3까지 수복하는 경우; Type IV, 도재 라미네이트로 수복하는 경우 이 실험의 한계 내에서 다음과 같은 결론을 내릴 수 있었다. 모든 수복형태에 대해 치간이개 간격이 넓어질수록 접착계면에서 발생하는 최대응력 값은 증가하였으며, 도재 라미네이트로 치간이개 부위를 수복한 경우(Type IV)가 복합레진으로 수복한 경우(Type I, II, III)에 비해 높은 최대응력값을 나타내었다. 그러나 치간이개 간격이 넓어질수록 도재 라미네이트와 복합레진에서 발생하는 최대응력값의 차리는 감소하였으며, 치간이개 간격의 증가에 따른 최대응력값의 증가율은 도재 라미네이트가 복합레진으로 수복하는 경우보다 낮았다.

• Restorative Dentistry and Endodontics
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• 제25권3호
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• pp.321-337
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• 2000

Dental caries, one of the most frequent dental disease, become larger because it can be thought as a simple disease. Further more, it can progress to unexpected root canal therapy with fabrication of crown that needs reduction of tooth structure. Base is required in a large caries and ZOE, ZPC, glass ionomer are used frequently as base material. They, with restorative material, can affect the longevity of the restoration. In this study, we assume that the mandibular 1st molar has deep class I cavity. So, installing the 3 base material, 3 kinds of fillings were restored over the base as follows; 1) amalgam only, 2) amalgam with ZPC, 3) amalgam with ZOE, 4) amalgam with GI cement, 5) gold inlay with ZPC, 6) gold inlay with GI cement, 7) composite resin only, 8) composite resin with GI cement. After develop the 3-dimensional model for finite element analysis, we observe the distribution of stress and temperature with force of 500N to apical direction at 3 point on occlusal surface and temperature of 55 degree, 15 degree on entire surface. The analyzed results were as follow : 1. Principal stress produced at the interface of base, dentin, cavity wall was smallest in case of using GI cement as base material under the amalgam. 2. Principal stress produced at the interface of base, dentin, cavity wall was smaller in case of using GI cement as a base material than ZPC under gold inlay. 3. Composite resin-filled tooth showed stress distributed over entire tooth structure. In other words, there was little concentration of stress. 4. ZOE was the most effective base material against hot stimuli under the amalgam and GI cement was the next. In case of gold inlay, GI cement was more effective than ZPC. 5. Composite resin has the small coefficient of thermal conductivity. So, composite resin filling is the most effective insulating material.

• 대한치과보철학회지
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• 제30권4호
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• pp.582-610
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• 1992

The long-term success of any dental implant is dependent upon the optimization of stresses which occur during oral function and parafunction. Especially, it has been suggested that there is an unique set of problems associated with joining an osseointegrated implant and a natural tooth with a fixed partial denture. For this particular case, although many literatures suggest different ways to avoid high stress concentrations on the bone surrounding the implant under static and dynamic loading conditions, but few studies on the biomechanical efficacy of each assertion have been reported. The purpose of this investigation was to evaluate the efficacies of clinically suggested methods on stress distribution under static load and shock absorption under dynamic load, using two dimensional finite element method. In FEM models of osseointegrated implant-natural tooth supported fixed partial dentures, calculations were made on the stresses in surrounding bone and on the deflections of abutments and superstructure, first, to compare the difference in stress distribution effects under static load by the flexure of fastening screw or prosthesis, or intramobile connector, and second, to compare the difference in the shock absorption effects under dynamic load by intramobile connector or occlusal veneering with composite resin. The results of this analysis suggest that : 1. Under static load condition, using an implant design with fastenign screw connecting implant abutment and prosthesis or increasing the flexibility of fastening screw, or increasing the flexibility of prosthesis led to the .increase in height of peak stresses in cortical bone surrounding the implant, and has little effect on stress change in bone around the natural tooth. 2. Under static load condition, intramobile connector caused the substantial decrease in stress concentration in cortical bone surrounding the implant and the slight increase in stress in bone around the natural tooth. 3. Under dynamic load condition, both intramobile connector and composite resin veneering showed shock absorption effect on bone surrounding the implant and composite resin veneering had a greater shock absorption effect than intramobile connector.

• Restorative Dentistry and Endodontics
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• 제21권1호
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• pp.70-86
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• 1996

The purpose of this study was to analyze the stress distribution in mandibular second premolars restored with different post and core techniques. Sixteen two-dimensional finite element model of mandibular second premolars restored with post and core and complete crown were developed according to the diameter, length, and material of post and core. Vertical force, 10N in magnitude, was applied first to the central fossa and then $45^{\circ}$ oblique force of same magnitude was applied to the buccal contact surface of buccal cusp. The obtained results were as follows : 1. Stress distribution within the dentin 1) Regardless of the material of the post and core and the diameter and length of the post, the pattern of stress distribution within the dentin was similar. 2) Maximum dentinal stress was observed on the lingual root surface of alveolar crest level with oblique loading and on lingual side of root dentin at the crown margin on vertical loading. 3) Cast post and cores produced the lowest dentinal stress concentrations and the highest stress concentration was observed in composite resin post and cores. 2. Stress distribution within the post and core 1) Within the amalgam and composite resin post and core, the patterns and maximum values of stress were similar. Maximum stress located at the central fossa of core portion on vertical loading and at the lingual junction of post and core with oblique loading. 2) Among the all post and cores, the cast post and core registered the highest stress concentration and maximum stress value within the post. Maximum stress located at the post apex on vertical loading and at lingual half of the post surface with oblique loading. 3) In case of Para-post and amalgam core, maximum stress located at the central fossa of core portion and lingual tip of the post head on vertical loading. With oblique loading, maximum stress located at the lingual half of the post surface.

• 대한치과보철학회지
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• 제52권3호
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• pp.202-210
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• 2014

목적: 이 연구의 목적은 abfraction병소가 있는 금속도재관수복 치아를 수복하거나 하지 않을 때 나타나는 응력집중과 분포를 유한요소분석으로 평가하는 것이다. 재료 및 방법: 상악 제1 소구치를 선정하여 총 10개의 유한요소모델을 만들었다. 모델 1은 자연치; 모델 2는 협측과구개측 백악법랑경계 상방 2 mm에 변연이 위치한 금속도재관; 모델 3은 협측과구개측 백악법랑경계에 변연이 위치한 금속도재관; 모델 4는 abfraction병소를 가진 자연치; 모델 5와 6은 다른 조건은 각각 모델 2와 3과 동일하면서 abfraction병소를 가진 치아; 모델 7은 abfraction병소를 가지고 composite resin으로 수복된 자연치;모델 8과 9는 각각 모델 5와 6과 동일한 모델에 abfraction병소를 composite resin으로 수복한 후 금속도재관 장착한 치아; 모델 10은 composite resin으로 abfraction lesion을 수복하고 금속도재관의변연을 abfraction병소보다 하방에 위치시킨 치아였다. 위치를 서로 달리한 하중 load A와 load B를 가하여, 각 기준점에서의 von Mises stress값들을 측정하여 비교하였다. 결과: Abfraction병소가 있는 치아에 load A 또는 load B를 주었을 때, 응력은 lesion의 apex에 집중되었다. 반면, abfraction병소를 composite resin으로 충전한 치아에 load A 또는 load B를 주었을 때 응력값은 apex에서 감소하였다. 결론: Abfraction이 있는 치아는 복합 레진으로 수복해주는 것이 응력의 집중을 줄여서 병소의 예후에 유리한 것으로 나타났으며, Abfraction이 발생된 치아를 금속 도재관으로 수복할 경우 협측변연을 법랑질 상에 위치시키는 것이 유리하였다.

• 대한치과보철학회지
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• 제28권2호
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• pp.199-215
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• 1990

This study was to analyze the stress distribution of implant and supporting tissue in $Br{\aa}nemark$ osseointegration implant. The analysis has been conducted by using the axisymmetric finite element method and type of model according to crown material. Tests have been performed at 1 kg load on central fossa of crown portion. Each type of model was designed differently according to crown material. 1) Porcelain fused to metal crown(Model A) 2) Composite resin veneered crown(Model B) 3) Acrylic resin veneered crown(Model C) 4) Type III gold crown(Model D) The displacements and stresses of implant and supporting structures were analyzed to investigate the influence of the type of crown material. The results were obtained as follows : 1. Displacement of implant was shown uniformly downward displacement in all models and abutments were observed distally downward displacement. 2. In supporting tissues, stress was concentrated on the crest of compact bone and the spongy bone below implant. 3. The PFM and the type III gold crown showed the largest concentration of stress at the crest of compact bone and the spongy bone below implant, respectively. Acrylic resin artificial teeth and composite resin veneered crown indicated almost the same distribution of stress. 4. The gold screw, the abutment screw and the top of abutment showed the concentration of stress in implants of every model.

• 대한치과보철학회지
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• 제30권3호
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• pp.379-400
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• 1992

The purpose of this study was to analyze the magnitude and distribution of stress using a photoelastic model from the mandibular distal extension removable partial dentures with the mesial or distal placement of the occlusal rest and the mesial or distal connection in the back-action clasp with the five various designs of the back-action clasp, that is, the mesial connection and the distal rest, the distal connection and mesial rest, the mesial connection and mesial rest, the distal connection and the mesial and distal rest, and the mesial connection, and the mesial and distal rest. A photoelastic model was made of the epoxy resin(PC-1) and the hardner(PLH-1) with the acrylic resin teeth used and was coated with the plastic cement-1 at the lingual surface of the model and then five kinds of the removable partial dentures on the photoelastic model were set. A unilateral vertical load of 12.5 kg was applied on the central fossa of the first molar with the use of specially designed loading device and the pattern and distribution of the stress of the photoelastic model under each condition was analyzed by the reflective circular polariscope. The following results were obtained. 1. In the back-action clasp with the mesial connection and mesial rest of the case 3, the effect of the stress distribution was the most favorable. 2. In the back-action clasp with the mesial and distal rest, of the case 4 and 5, the stress distribution was more greatly showed in the terminal abutment. 3. Generally, the stress distribution was more favarable in the mesial connection than in the distal connection. 4. In the back-action clasp with the mesial connection of the case 1, 3 and 5, the stress distribution was the most favorable in the mesial rest.

• 대한치과보철학회지
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• 제36권1호
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• pp.133-149
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• 1998

Clinical application of composite resin recently draw great concerns in dentistry. Especially due to advantages such as esthetics, adhesiveness, simple clinical procedures, various shapes and kinds of composite resins are widely being applied to prosthodontics, conservative dentistry, and orthodontics. But, clinical problems attributable to the polymerization shrinkage of composite resin have been proposed, and we have to regard clinical problems such as secondary caries, loss of restoration, fracture of the surrounding tooth structure, marginal discoloration, and tooth sensitivity, and many portions are remained to be overcome. Therefore, this study attempts to analyze stress distribution between resin and tooth structure which is generated during polymerization shrinkage of composite resin using three dimensional finite element method. Three dimensional finite element models with conventional box-shape cavity and erosion/abrasion type V-shape lesion cavity in upper central incisor were developed. These cavities were filled with four different types of placement techniques. (bulk filling, horizontal increment filling, oblique occlusal increment filling, oblique gingival increment filling) The stresses generated by polymerization shrinkage of composite resin were calculated. The results analyzed with three dimensional finite element method were as follows : 1. The increment filling technique showed the highest maximum normal stress in both conventional box-shape and V-shape cavities and showed a tendency to decrease after complete polymerization. 2. The bulk filling technique resulted in increased stresses during the curing process in both conventional box-shape and V-shape cavities and the highest maximum normal stress occurred after complete polymerization. 3. The bulk filling resulted in the lowest maximum normal stress in both box-shape and V-shape cavities 4. Regardless of placement method, in conventional box-shape cavity, the maximum normal stress increased in dentin floor, enamel, dentin sequence and in V-shape cavity, the maximum normal stress increased in enamel, dentin sequence.

• Restorative Dentistry and Endodontics
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• 제31권1호
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• pp.20-29
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• 2006

임상에서 5급 와동의 형태 중에 흔히 발견되는 혼합형 (교합면 쪽은 쐐기형이고 치경부 쪽은 접시형)의 와동이 형성된 상악 제 2 소구치에 170 N의 하중을 가했을 때, 수복 전 후에 나타나는 와동변연부와 와동벽, 그리고 수복물의 응력 분포를 3차원적 유한요소 분석법으로 조사한 결과 다음과 같은 결론을 얻었다. 1. 수복 전에 비해 수복 후 굽힘응력 이 집중되는 백악법랑경계와 와동저 선각부위 에서 응력이 감소하였다. 2. 수복 전에 비해 수복 후 교합면과 치경부의 와동변연과 와동벽에서는 응력이 증가하였다. 3. 혼합형 레진과 혼합형 / 흐름성 레진으로 수복하였을 때 흐름성 레진으로 수복한 경우보다 백악법랑경계와 와동저 선각부위에서 응력이 더 감소하였다. 4. 혼합형 레진과 혼합형 / 흐름성 레진으로 수복하였을때 흐름성 레진으로 수복한 경우보다 교합면과 치경부의 와동변연과 와동벽에서 응력이 더 증가하였다.