饰面瓷厚度对氧化锆全瓷冠抗压缩破坏力的影响

目的:研究饰面瓷厚度对氧化锆全瓷冠抗压缩破坏力的影响。方法:常规CAD-CAM制作氧化锆筒状基底冠25个,厚度均为0.5 mm,随机分为A、B、C、D、E 5组,饰面瓷厚度依次为0.5、1.0、1.5、2.0、2.5 mm。万能材料试验机测试各组试件抗压缩破坏力值。采用SPSS13.0统计软件对测试结果进行统计分析。用扫描电镜(SEM)观察试件断裂面微观结构。结果:A^E组试件抗压缩破坏力值依次为:(1 279.96±42.85)N、(2 235.44±50.14)N、(2 216.38±48.97)N、(2 169.22±60.40)N、(2 028.70±47.37)N。A组、E组氧化锆全瓷修复体的抗压缩破坏力值均低于其他3组(P<0.01);其余组间抗压缩破坏力值无统计学差异(P>0.05)。扫描电子显微镜观察发现,A组、E组氧化锆全瓷修复体基底瓷-饰面瓷结合界面处不平坦,较为疏松;饰瓷层出现气孔及微裂纹增多、增大。结论:饰面瓷厚度低于1.0 mm及高于2.0 mm时,修复体的微观结构可能会受到影响,从而氧化锆全瓷冠整体抗压缩破坏力的性能受影响,建议临床应用时严格控制饰面瓷厚度。

不同基底材料烤瓷冠抗压缩破坏力的对比研究

目的:比较钴铬烤瓷冠、CAD/CAM纯钛切削烤瓷冠和CAD/CAM氧化锆全瓷冠的抗压缩破坏力。方法:用金属代型模拟前磨牙预备体,扫描代型获取数字化模型数据,通过计算机辅助设计制作系统,制作尺寸一致的钴铬基底冠、CAD/CAM纯钛切削基底冠和CAD/CAM氧化锆基底冠试件各5个,分别设定为A、B、C 3组,各组基底冠分别按产品说明涂塑烧结遮色瓷与体瓷,控制各试件厚度一致。在万能材料测试机上检测试件抗压缩破坏力值。采用SPSS 13.0统计分析软件对数据进行统计分析,用扫描电镜观察基底材料与遮色瓷结合界面微观结构。结果:A、B、C 3组试件抗压缩破坏试验力值(N)依次为2 990±188、2 305±157、2 150±131。A与B、A与C组比较P<0.05,B与C组比较P>0.05。结论:3种材料烤瓷冠的抗压缩破坏力均可满足临床需要。钴铬烤瓷冠的抗压缩破坏力值大于CAD/CAM纯钛切削烤瓷冠和CAD/CAM氧化锆全瓷冠。

肩台宽度对全解剖式二氧化锆冠压缩破坏力的影响

目的:研究肩台宽度及冷热循环对全锆冠压缩破坏力的影响。方法:制作右下第一磨牙的金属代型4种。肩台宽度分别为刃状(A组)、0.3 mm(B组)、0.5 mm(C组)、1.0 mm(D组),每组6个。通过CAD/CAM技术制作下颌第一磨牙全锆冠;用D组代型制作钴铬烤瓷冠(E组,为对照组)。在万能实验机上测量试件的压缩破坏力。统计学分析后制备C组样本18个,进行冷热循环实验。循环次数依次为:10 000次(C1组),20 000次(C2组),30 000次(C3组),每组6个。采用SPSS 13.0统计分析软件对数据进行统计分析。结果:A、B、C、D、E组的压缩破坏力(N)依次为3 855.00±305.47、2 731.70±261.80、3 698.30±276.87、3 841.70±544.88、2 992.17±168.41。B、E组的压缩破坏力显著低于A、C、D组,P<0.05。B、E组比较P>0.05。C、C1、C2、C3组的压缩破坏力(N)依次为3 698.30±276.87、3 220.00±504.38、3 148.33±425.60、3 572.00±545.30,各组间比较P>0.05。结论:4种肩台宽度的全锆冠的压缩破坏力均可满足临床需要,其中0.3 mm肩台宽度的全锆冠的压缩破坏力小于0.5 mm、1.0 mm肩台宽度的全锆冠,但是与对照组(钴铬烤瓷冠组)之间无差异,并且各组压缩破坏力不受冷热循环的影响。

冠厚度对前牙美学氧化锆全锆冠抗压缩破坏力的影响

目的:比较不同面厚度绚彩前牙氧化锆全锆冠(MAT crown)抗压缩破坏力。方法:通过CAD/CAM系统扫描代型预备体,设计制作出形态相同、面厚度分别为1.0、1.5、2.0 mm的绚彩AT氧化锆全冠(AT全锆冠)共18个,设为A、B、C组(n=6),以面厚度为1.0 mm的SHT(super high transluceny)普通氧化锆全锆冠(SHT全锆冠)以及厚度为2.0 mm的SHT氧化锆饰瓷冠为对照组,设为D组、E组(n=6),通过万能材料测试机检测其抗压缩破坏力。结果:A、B、C、D、E组试件抗压缩破坏力值分别为(1 202.02±51.81)N、(2 244.59±51.19)N、(4 723.61±126.21)N、(2 383.96±96.40)N、(2 148.14±103.79)N。B、D、E组间差异无显著性(P>0.05);A组低于其他各组(P<0.05),C组高于其他各组(P<0.05)。结论:面厚度对绚彩AT全锆冠的抗压缩破坏力,随着厚度的增加而增加;临床上使用绚彩AT全锆冠修复时建议磨牙区面牙体预备量不小于1.5 mm,而前磨牙及前牙区预备量可减小到1.0 mm。

参类种子的压缩特性试验研究

参类种子的压缩性能研究,可以为研制出合适参类播种机械提供参数依据。利用物性分析仪,采用单因素试验的方法测试含水率、放置方向、加载速度对压缩破坏力的影响。不同放置方向对压缩破坏力影响大小依次为平放、侧放、立放,且侧放和立放时的压缩破坏力近似;随含水率的增加种子的压缩破坏力呈下降趋势;随加载速度增加压缩破坏力呈上升趋势,但加载速度达到一定时压缩破坏力趋于平缓;未催芽参种的压缩破坏力大于催芽参种的压缩破坏力。

杭州市2~6岁儿童乳牙龋病的流行病学调查分析和乳牙预成冠的力学实验研究

目的:了解杭州市2~6岁儿童龋齿的牙面分布规律,比较树脂、氧化锆、玻璃陶瓷乳牙预成冠的抗压缩破坏力值。方法:抽取杭州口腔医院城西院区儿童口腔科就诊的1000名2~6岁儿童进行口腔检查并记录,分析患龋差异。将树脂、氧化锆、玻璃陶瓷乳牙预成冠分别用树脂粘接剂粘接在下颌第二乳磨牙的树脂模型上。在万能材料试验机上进行抗压缩强度测试,记录试件抗压缩破坏力值。采用SPSS 24.0统计分析软件对数据进行统计分析。结果:右下第二乳磨牙患龋风险最高,左侧第二乳磨牙次之。乳磨牙患龋率高于乳前牙。龋齿牙面风险切端/牙合面大于近中远中邻面,舌面患龋率最低。三组抗压缩破坏力值依次为A组(694.85±292.20)N,B组(537.31±152.03)N,C组(613.73±303.92)N。两两相较,三种材料的差别均无统计学意义(P>0.05)。结论:杭州市2~6岁儿童乳牙龋有牙面特异性,乳磨牙患龋率高,牙面多。三种乳牙预成冠材料均可满足临床需要。树脂预成冠抗压缩破坏力值大于玻璃陶瓷乳牙预成冠和氧化锆预成冠。

Effect of fractures on mechanical behavior of sand powder 3D printing rock analogue under triaxial compression

In practical engineering applications,rock mass are often found to be subjected to a triaxial stress state.Concurrently,defects like joints and fractures have a notable impact on the mechanical behavior of rock mass.Such defects are identified as crucial contributors to the failure and instability of the surrounding rock,subsequently impacting the engineering stability.The study aimed to investigate the impact of fracture geometry and confining pressure on the deformation,failure characteristics,and strength of specimens using sand powder 3D printing technology and conventional triaxial compression tests.The results indicate that the number of fractures present considerably influences the peak strength,axial peak strain and elastic modulus of the specimens.Confining pressure is an important factor affecting the failure pattern of the specimen,under which the specimen is more prone to shear failure,but the initiation,expansion and penetration processes of secondary cracks in different fracture specimens are different.This study confirmed the feasibility of using sand powder 3D printing specimens as soft rock analogs for triaxial compression research.The insights from this research are deemed essential for a deeper understanding of the mechanical behavior of fractured surrounding rocks when under triaxial stress state.

Influence of lateral pressure on mechanical behavior of different rock types under biaxial compression

Lots of field investigations have proven that layer-crack structure usually appears during the excavation process of deep rock or coal mass.To provide experimental data for studying the formation mechanism of layer-crack structure,this study researches the influence of lateral pressure on the mechanical behavior of different rock types.Four rock types have been tested and the formation mechanism of macro-fracture surface is analyzed.Results indicate that the brittleness and burst proneness of rock or coal material are stronger than that of gypsum material due to the different mineral compositions and structures.When the lateral pressure is less than 10%uniaxial strength,the peak stress and elastic modulus increase with the increase of lateral pressure;but when the lateral pressure is larger than 10%uniaxial strength,the two parameters decrease slightly or keep steady.This is because when the lateral pressure reaches a certain value,local failure will be formed during the process of applying lateral pressure.Under the condition of low lateral pressure,the failure of the specimen is dominated by the tensile mechanism;under the condition of relatively high lateral pressure,the area of the specimen close to the free surface is tensile splitting failure,and the area far from the free surface is shear failure.