光固化复合树脂,light-cured composite resin英语短句,例句大全

光固化复合树脂,light-cured composite resin
1)light-cured composite resin光固化复合树脂
1.Effects of different adhesives on the shear bonding strength of ceramic brackets against light-cured composite resin;不同粘接剂对陶瓷托槽与光固化复合树脂修复体粘接效果的实验研究
2.Study on dental pulp s non-inflammatory necrosis after dental restoration by light-cured composite resin;光固化复合树脂修复后致牙髓无炎性坏死的初步研究
3.Effect of glass ionomer cement sandwich technique in restoring wedge-shaped defect with light-cured composite resin;玻璃离子夹层对光固化复合树脂修复楔形缺损疗效的影响

英文短句/例句

1.A review of the influential factors of the curing degree of light curing composite resin光固化复合树脂固化程度的影响因素
2.Surface roughness of three packable composite resins after polishing光固化复合树脂经抛光处理后的表面变化
3.Shear Bond Strength of Resin Brackets Bonded to Porcelain and Light-cured Composite Resin;树脂托槽与瓷、光固化复合树脂粘接抗剪切强度的实验研究
4.The influnce of temperature and curing light units on the microhardness of composite resin不同温度及不同光固化灯对光固化复合树脂硬度的影响
5.Application of ESPI for measuring polymerization shrinkage of dental resin composites应用电子散斑干涉技术测量光固化复合树脂的固化收缩
6.Clinical Evaluation of Light-cured Composite Resin Treating for Wedge-shaped Defect;光固化复合树脂修复牙体楔状缺损的临床应用评价
7.Effect of three finishing and polishing systems on the surface roughness of the packable composite resin3种抛光系统对光固化复合树脂表面粗糙度影响的实验研究
8.Effect of different finishing and polishing techniques on the surface roughness of the three composite resins三种抛光系统对不同光固化复合树脂表面粗糙度影响的实验研究
9.The Influence of Accelerated Aging and Toothbrushing on the Color and Microstructure of Light-Curing Resin Composites;加速老化和刷牙对光固化复合树脂色度和微结构的影响
10.Shear Bond Strength of Metal Brackets Bonded to Porcelain and Light-cured Composite Resin;金属托槽与瓷、光固化复合树脂粘接抗剪切强度的实验研究
11.Analysis of the reason of the desquamate of light cured composited resin filled in the posimal cavity;光固化复合树脂充填后牙邻面洞脱落原因的临床分析
12.Effects of Diaryliodonium on the Properties of Light-curing Composite Resin两种二芳基碘鎓盐对光固化复合树脂性能的影响
13.Study on UV-curing Epoxy Resin and Its Composites紫外光快速固化环氧树脂及其复合材料研究
14.Effect of Radii barrier sleeves on cure depth of composite resin光导棒保护封套对复合树脂固化深度的影响
15.Study on UV-curing Vinylester Resin and Composite;紫外光快速固化乙烯基酯树脂及其复合材料研究
16.Study on Preparation and Absorption Properties of Glass Fiber Reinforced Lightcurable EEPE Composites;光固化聚丙烯酸树脂基复合材料制备及吸湿性能研究
17.Study on Preparation and Property of Glass Fiber Reinforced Light-Cured Resin Matrix Composites;玻璃纤维增强光固化树脂基复合材料的制备及性能研究
18.Synergetically enhanced properties in the photo-curable resins for stereolithography composed with binary oligomers;二元复合齐聚物对SL法用光固化树脂的协同增强效应

相关短句/例句

Light cured composite resin光固化复合树脂
1.Methods 585 teeth with wedge-shaped defect were restored by glass ionomer cement ,light cured composite resin and the combination of the two materials.03%,光固化复合树脂为70。
2.Objective To compare the dental bonding characters of glass ionomer cement and light cured composite resin.目的　比较玻璃离子和光固化复合树脂对牙体的黏接性能。
3)Composite resin光固化复合树脂
1.Methods Application of glass ionomer cement, composite resin and sandwich technique were used to restore 398 wedge-shaped defect of the teeth.方法 :对 3 98颗楔形缺损患牙分别用玻璃离子粘固粉、光固化复合树脂和玻璃离子粘固粉与光固化复合树脂联合修复 (以下简称夹层技术 )。
2.Methods: To repair120 wedge-shaped defect in same conditions with the light-cured composite resin, two groups with retentive form andnon-retentive form.目的:探讨固位形在光固化复合树脂修复楔状缺损中的作用。
4)Light curing composite resins光敏化复合树脂
5)the light-cured composite光固化复合塑脂
6)photosensitive resin光固化树脂
1.This paper firstly studied the bonding mechanism of the photosensitive resin blade,and then introduced the effective measures to improve the quality for photosensitive resin blade by means of the metal-coated diamond abrasive and studied the change of bonding ability of the blade compared with conventional abrasive.探讨了光固化树脂磨具不同于普通树脂磨具的结合机理,并在该理论的基础上寻找出改善磨具结合性能的措施。
2.Diamond abrasives(4～8μm girt size)are bonded quickly by photosensitive resin and then exposed under 300～500 nm wavelength ultraviolet ray to fabricate fixed abrasive plate.采用4～8μm粒径的金刚石微粉作为磨料,以光固化树脂作为结合剂,在300～500 nm波长紫外线照射下,使光固化树脂快速固化,制作固着磨料研磨盘(金刚石浓度100%),以φ5 mm氮化硅陶瓷球为加工对象,在自行设计的实验台上进行了加工实验。