摘要
目的:研究飞秒激光表面处理后获得的微沟槽结构对氧化锆表面显微形貌、晶相组成及弯曲强度的影响,为氧化锆种植体表面微观结构优化提供参考。方法:根据不同表面处理方法,将57个计算机辅助设计/计算机辅助制造(computer aided design/computer aided manufacture,CAD/CAM)的长方体氧化锆标准试件(20.0 mm×4.0 mm×1.4 mm)分为3组(每组19个):(1)终烧结组,终烧结后无处理,作为对照;(2)喷砂组,终烧结后用110μm氧化铝(Al_(2)O_(3))喷砂;(3)微沟槽组,用飞秒激光加工宽50μm、深30μm、间距100μm的微沟槽。通过扫描电镜和3D激光形貌测量显微镜观察表面显微形貌,计算各组表面粗糙度和微沟槽组的沟槽尺寸,采用X射线衍射仪进行晶相分析,进行三点弯曲试验,通过Weibull分布分析其强度特征。结果:扫描电镜显示终烧结组表面较为平整,晶粒结构清晰,喷砂组表面凹凸不平,出现边缘锐利的凹坑,形状不规则,微沟槽组表面微沟槽排列规则,未见明显缺陷,沟槽内壁形成纳米级颗粒状显微结构。微沟槽组粗糙度Ra值(9.42±0.28)μm显著高于喷砂组(1.04±0.03)μm和终烧结组(0.60±0.04)μm,喷砂组与终烧结组之间差异亦有统计学意义(P<0.001)。飞秒激光加工的微沟槽尺寸精确,宽度(49.75±1.24)μm,深度(30.85±1.02)μm,间距(100.58±1.94)μm;晶相分析结果显示,喷砂组的单斜相体积百分数(18.17%)较终烧结组(1.55%)明显增加,微沟槽组(2.21%)与终烧结组相近;喷砂组的弯曲强度(986.22±163.25)MPa与终烧结组(946.46±134.15)MPa相比差异无统计学意义(P=0.847),而微沟槽组弯曲强度(547.92±30.89)MPa较其余两组显著下降(P<0.001);终烧结组、喷砂组、微沟槽组的Weibull模数m分别为7.89、6.98、23.46。结论:飞秒激光处理可在氧化锆表面形成具有微纳结构的微沟槽,会显著降低氧化锆的弯曲强度。
Objective:To evaluate the effects of femtosecond laser treated microgrooved surface on microscopic topography,phase transformation,and three-points flexural strength of zirconia,and to provide reference for surface microstructure optimization of zirconia implant.Methods:According to different surface treatment methods,57 computer aided design/computer aided manufacture(CAD/CAM)zirconia bars(20.0 mm×4.0 mm×1.4 mm)were evenly divided into three groups:sintered group,no treatment after sintering,taken as control;sandblasted group,sandblasted with 110μm aluminium oxide(Al_(2)O_(3))after sintering;microgrooved group,femtosecond laser fabricated microgrooves with 50μm width,30μm depth,and 100μm pitch.Surface microscopic topography was observed with scanning electron microscope(SEM)and 3D laser microscope.Further,surface roughness in each group and microgroove size were measured.Crystal phase was analyzed with X-ray diffraction.Specimens were subjected to three-points flexural strength test,and Weibull distribution was used to analyze their strength characteristics.Results:SEM showed that sintered surface was flat with clear grain structure;sandblasted surface exihibited bumps and holes with sharp margins and irregular shape;microgrooves were regularly aligned without evident defect,and nano-scale particles were observed on the surface inside of the microgrooves.Ra value of microgrooved group[(9.42±0.28)]μm was significantly higher than that of sandblasted group[(1.04±0.03)μm]and sintered group[(0.60±0.04)μm],and there was statistical difference between sandblasted group and sintered group(P<0.001).The microgroove size was precise with(49.75±1.24)μm width,(30.85±1.02)μm depth,and(100.58±1.94)μm pitch.Crystal phase analysis showed that monoclinic volume fraction of sandblasted group(18.17%)was much higher than that of sintered group(1.55%),while microgrooved group(2.21%)was similar with sintered group.The flexural strength of sandblasted group(986.22±163.25)MPa had no statistical difference with that o
作者
李文锦
丁茜
原福松
孙丰博
郑剑桥
鲍蕊
张磊
LI Wen-jin;DING Qian;YUAN Fu-song;Sun Feng-bo;ZHENG Jian-qiao;BAO Rui;Zhang Lei(Department of Prosthodontics,Peking University School and Hospital of Stomatology&National Center of Stomatology&National Clinical Research Center for Oral Diseases&National Engineering Laboratory for Digital and Material Technology of Stomatology,Beijing 100081,China;Center for Digital Dentistry,Peking University School and Hospital of Stomatology&Beijing Key Laboratory of Digital Stomatology&Research Center of Engineering and Technology for Computerized Dentistry Ministry of Health,Beijing 100081,China;School of Materials Science and Engineering,Tsinghua University,Beijing 100084,China;School of Aeronautic Science and Engineering,Beihang University,Beijing 100191,China)
出处
《北京大学学报(医学版)》
CAS
CSCD
北大核心
2021年第4期770-775,共6页
Journal of Peking University:Health Sciences
基金
国家自然科学基金(81671026)
北京市自然科学基金(7192233)。
关键词
氧化锆
飞秒激光
微沟槽
Zirconia
Femtosecond laser
Microgroove
