Effect of attachment types and number of implants supporting mandibular overdentures on stress distribution: a computed tomography-based 3D finite element analysis. Bilhan SA, Baykasoglu C, Bilhan H, et al.Effects of differing thickness and mechanical properties of cement on the stress levels and distributions in a three‐unit zirconia fixed prosthesis by FEA. Predictions of cement microfracture under crowns using 3D‐FEA. Kamposiora P, Papavasiliou G, Bayne SC, et al.Finite element analysis of a glass fibre reinforced composite endodontic post. Pegoretti A, Fambri L, Zappini G, et al.Three-dimensional finite element analysis of molars with thin-walled prosthetic crowns made of various materials. Fracture resistance and analysis of stress distribution of implant-supported single zirconium ceramic coping combination with abutments made of different materials. Firidinoglu K, Toksavul S, Toman M, et al.Finite element analysis of strength characteristics of various resin based restorative materials in class V cavities. Influence of dental restorations and mastication loadings on dentine fatigue behaviour: image based modelling approach. Vukicevic AM, Zelic K, Jovicic G, et al.The influence of elastic modulus of inlay materials on stress distribution and fracture of premolars. Costa AKF, Xavier TA, Noritomi PY, et al.An evaluation using micro-CT data of the stress formed in the crown and periodontal tissues from the use of PEEK post and PEEK crown: A 3D finite element analysis study. Multi-factorial analysis of a cusp-replacing adhesive premolar restoration: a finite element study. Stress analysis in a post-restored tooth utilizing the finite element method. Influence of remaining tooth structure and restorative material type on stress distribution in endodontically treated maxillary premolars: A finite element analysis. Pract Periodontics Aesthet Dent 1995 7:83-94. Fabrication of a metal-free ceramic restoration utilizing the monobloc technique. Wheeler’s dental anatomy, physiology, and occlusion, 8th ed. Using modified polyetheretherketone (PEEK) as an alternative material for endocrown restorations: A short-term clinical report. Retrospective study of the clinical performance Ferrari M, Vichi A, Mannocci F, et al.Restoring endodontically treated teeth with all-ceramic endo-crowns: case report. Computational Methods in Biomechanics and Biomedical Engineering 2006 9:257–70. Application of the finite element method in dental implant research. Revuede Stomatologie et de Chirurgie Maxillo-faciale 2009 110:27–33. Contribution of the finite element method in maxillofacial surgery. Savoldelli C, Tillier Y, Bouchard PO, et al.Effect of surface pretreatments on resin composite bonding to PEEK. Silthampitag P, Chaijareenont P, Tattakorn K, et al.Discoloration of PMMA, composite, and PEEK. Clinicalperformance of large, all-ceramic CAD/CAM-generatedrestorations after three years, a pilot study. ![]() Clinical evaluation of adhesively placed Cerec endocrowns after 2 years–preliminary results. Success and failure data, treatment concepts. The prosthodontic management of endodontically treated teeth: a literature review. Reconstruction of endodontically treated posterior teeth - with or without post? Guidelines for the dental practitioner. Biomechanical considerations for the restoration of endodontically treated teeth: A systematic review of the literature, Part II (Evaluation of fatigue behavior, interfaces, and in vivo studies). Sonuç: Polietereterketon ve indirek kompozit materyallerinin kalınlıkları, mine ve dentindeki von Mises stres dağılımları ve stres değerlerini etkilememiştir. Restoratif materyaldeki en düşük von Mises stres değerleri, 2 mm polietereterketon alt yapı ve 1 mm indirek kompozit vener materyalinden oluşan çalışma grubunda görülmüştür. Ayrıca, mine ve dentindeki von Mises stres değerleri, tüm endokron gruplarında aynı ve sağlam dişten daha yüksek bulunmuştur. 200 N büyüklüğünde vertikal ve oblik kuvvet altında, maksiller premolar dişteki stres dağılımı analiz edilmiştir.īulgular: Tüm gruplarda, Von Mises stres dağılımlarının aynı olduğu görülmüştür. Polyetheretherketone ve indirek kompozit rezin vener materyalinin kalınlığı 1, 1,5 ve 2 mm olarak belirlenmiştir. Çalışma gruplarında, endokronun okluzal kalınlığı 3 mm olarak sabitlenmiştir. Tüm gruplarda endokron materyali olarak polietereterketon alt yapı materyali ve indirekt kompozit rezin vener materyali kullanılmıştır. Yöntem: Çalışmada kontrol grubu olarak, sağlam maksiller premolar diş kullanılmıştır. Amaç: Mevcut çalışmanın amacı, polietereterketon alt yapı ve indirekt kompozit rezin üst yapı materyallerinin kalınlıklarının, endodontik tedavisi yapılmış ve endokronla restore edilmiş maksiller premolar dişlerdeki stres dağılımına etkisinin incelenmesidir.
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