Fabrication, characterization, and selection using FAHP‐TOPSIS technique of zirconia, titanium oxide, and marble dust powder filled dental restorative composite materials
参考中译:氧化锆、氧化钛和大理石粉尘填充牙科修复复合材料的制备、表征和FAHP-TOPSIS技术选择


          

刊名:Polymers for advanced technologies
作者:Ramkumar Yadav(Dankook University)
Hae‐Hyoung Lee(Dankook University)
刊号:545C0065
ISSN:1042-7147
出版年:2022
年卷期:2022, vol.33, no.10
页码:3286-3295
总页数:10
分类号:TQ31; O62
关键词:biomaterialsdental restorative composite materialsFAHPFTOPSISOptimization technique
参考中译:生物材料;牙科修复复合材料;FAHP;FTOPSIS;优化技术
语种:eng
文摘:The article aimed to develop and characterize the nano‐micro ceramic particle‐filled polymer‐based composite as dental materials. The current study also deals with the ranking of dental composites using a hybrid fuzzy analytic hierarchy process (FAHP)‐fuzzy technique for order of preference by similarity to ideal solution (FTOPSIS) methodology. Dental composites were fabricated from resin matrix and ceramic particulates. Two different series were fabricated. Zirconia, titanium oxide, and marble dust powder were used as ceramic particles in the dental composite. Bis‐GMA, TEGDMA, CQ, and DMAEMA were employed for the resin matrix of dental composite. The physical and mechanical properties were investigated for both dental formulations. The maximum and minimum compressive strengths were recorded in DM‐6 (321?MPa) and DT‐0 (190?MPa). Polymerization shrinkage was gradually decreased in both hybrid nZr‐TiO2 and hybrid nZr‐MDP formulations. The FTOPSIS was used to determine the rank of alternatives as DT‐6?>DM‐6?>DM‐4?>DT‐4?>DM‐2?>DM‐0?>DT‐0?>DT‐2.
参考中译:本文旨在开发和表征纳米微米陶瓷颗粒填充聚合物基复合材料作为牙科材料。目前的研究还涉及使用一种混合模糊层次分析过程(FAHP)-按理想解决方案的相似性排序(FTOPSIS)方法对牙科复合材料进行排序。牙科复合材料是由树脂基质和陶瓷颗粒制成的。制作了两个不同的系列。在牙科复合材料中使用了氧化锆、氧化钛和大理石粉尘作为陶瓷颗粒。采用BIS-GMA、TEGDMA、CQ和DMAEMA作为牙科复合材料的树脂基质。研究了这两种牙科制剂的物理和机械性能。最大和最小抗压强度分别为DM-6(321 Mpa)和DT-0(190 Mpa)。在杂化NZR-二氧化钛和杂化NZR-MDP配方中,聚合收缩逐渐降低。用FTOPSIS法确定备选方案的等级为DT‐6?>DM‐6?>DM‐4?>DT‐4?>DM‐2?>DM‐0?>DT‐0?>DT‐2.



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