三种薄型 CAD/CAM 全瓷牙冠材料的疲劳行为。

Q2 Medicine

International Biomechanics Pub Date : 2023-12-01 Epub Date: 2024-01-11 DOI:10.1080/23335432.2024.2303121

Khaled Bataineh, Mohammad Al Janaideh

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引用次数: 0

摘要

本研究的目的是研究牙冠厚度对 CAD/CAM 陶瓷材料疲劳寿命的影响。虚拟设计了三种厚度的牙冠 CAD/CAM 陶瓷材料：（a）平均厚度为 0.7 毫米的超薄咬合冠（A 组）；（b）平均厚度为 1.1 毫米的薄咬合冠（B 组）；（c）平均厚度为 1.5 毫米的厚咬合冠。材料为：氧化锆 Cercon ZC 和 IPS e.max CAD (LD)。为估算修复材料的疲劳寿命，进行了有限元分析（FEA）模拟。B组和C组氧化锆在疲劳载荷下的寿命相差不大。A 组氧化锆牙冠在 50 N、100 N 和 120 N 疲劳载荷下的预测寿命分别为 24 年、4.3 年和 1.9 年。LD 冠的结果可归纳如下：在 50 N 负载下，所有组别的寿命都分别超过了 5 年，而在 100 N 负载下，只有 C 组的寿命超过了 5 年。在生理条件下，0.7 毫米厚的全轮廓氧化锆冠具有足够的耐力强度。另一方面，LD 制成的牙冠至少要有 1.5 毫米厚，才能存活 5 年以上。

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Fatigue behavior of three thin CAD/CAM all-ceramic crown materials.

The purpose of this study was to study the effect of crown thickness on the fatigue life of CAD/CAM ceramic materials. CAD/CAM ceramic materials for the crown were virtually designed with three thickness designs of (a) ultra-thin occlusal crown average 0.7 mm thick (group A), (b) thin occlusal crown 1.1 mm average thick (group B), (c) thick occlusal crown 1.5 mm thick. The materials are: zirconia Cercon ZC and IPS e.max CAD (LD). Finite Element Analysis (FEA) simulations were carried out to estimate the fatigue lives of restorative materials. The lives for groups B and C under fatigue load were not significantly different from each other for Zirconia. The predicted lives for group A zirconia crowns, under fatigue load 50 N, 100 N, 120 N is 24 years, 4.3 years, 1.9 years, respectively. Results for crowns made of LD can be summarized as follows: under load 50 N, all groups have survived longer than 5 respectively, while under the load of 100 N, only group C survived longer than 5 years. 0.7 mm thick full contour Zirconia crowns possessed adequate endurance strength to survive under physiologic conditions. On the other hand, the crown made of LD should have at least 1.5 mm thickness to survive longer than 5 years.

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来源期刊

International Biomechanics Medicine-Rehabilitation

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

17 weeks

期刊介绍： International Biomechanics is a fully Open Access biomechanics journal that aims to foster innovation, debate and collaboration across the full spectrum of biomechanics. We publish original articles, reviews, and short communications in all areas of biomechanics and welcome papers that explore: Bio-fluid mechanics, Continuum Biomechanics, Biotribology, Cellular Biomechanics, Mechanobiology, Mechano-transduction, Tissue Mechanics, Comparative Biomechanics and Functional Anatomy, Allometry, Animal locomotion in biomechanics, Gait analysis in biomechanics, Musculoskeletal and Orthopaedic Biomechanics, Cardiovascular Biomechanics, Plant Biomechanics, Injury Biomechanics, Impact Biomechanics, Sport and Exercise Biomechanics, Kinesiology, Rehabilitation in biomechanics, Quantitative Ergonomics, Human Factors engineering, Occupational Biomechanics, Developmental Biomechanics.