1) human tooth enamel
人牙釉质
1.
By using a reciprocating sliding wear test machine,wear behaviors of human tooth enamel opposite to titanium alloy were investigated under the lubrication of artificial saliva for different contact time.
以钛合金为对摩材料,考察了人牙釉质在人工唾液介质中的滑动磨损进程,结合微观分析,研究了牙釉质的磨损机制。
2.
The tribological behaviors of human tooth enamel sliding against human tooth enamel, titanium alloy, and pure titanium, under the lubrication of artificial saliva, were investigated and compared by conducting interval reciprocal friction and wear testing on a ball-on-flat test rig.
在往复滑动摩擦磨损试验台上对比考察了人牙釉质自配副及其同钛合金和纯钛配副时的摩擦学性能。
3.
Erosion process and mechanism of human tooth enamel in citric acid(pH=3.
20的柠檬酸溶液作用下,人牙釉质表面硬度、组织结构、化学组成等性能随酸蚀时间的变化关系,初步分析了牙釉质在柠檬酸溶液中的酸蚀过程和机制。
2) human enamel
人类牙釉质
3) Artificial enamel subsurface lesion
人工牙釉质缺损
4) enamel
[英][ɪ'næml] [美][ɪ'næmḷ]
牙釉质
1.
Pedigree Survey and Clinic Analysis of Hereditary Enamel Maldevelopment;
牙釉质发育不全患者的家系调查与临床检查
2.
A clinical study of resin-modified glass ionomer cement on reducing enamel demineralization in orthodontic treatment;
树脂改良型玻璃离子粘接剂抑制正畸牙釉质脱矿的临床研究
3.
Comparative study of microtensile bond strength of four adhesives to enamel and dental;
四种黏结剂对牙釉质和牙本质微拉伸黏结强度的比较
5) dental enamel
牙釉质
1.
Effects of sodium fluoride on dental enamel demineralization;
不同浓度氟化钠液对脱矿牙釉质的再矿化作用
2.
The microstructures and nano-mechanical properties of dental dentin and dental enamel were studied by means of OM,SEM,HRTEM and nano indentation equipment.
结果表明:牙本质由规则排列的牙本质小管和基质组成,牙釉质由不同方向的釉柱及柱间质组成,牙本质与牙釉质之间有明显的界面;牙釉质中的Ca和P含量明显高于牙本质中的含量,而C含量明显低于牙本质中的含量。
3.
Recently, much researchers consider that fluoride varnish can enhance the anticaries effect of dental enamel.
近年来,国内外对氟化物涂膜研究认为,氟化物涂膜的作用在于增强牙釉质的抗龋能力,氟化物涂膜涂在牙齿表面上,自然干燥后形成一层含氟薄膜,其中氟化物释放出来,对牙釉质表面起到保护作用,氟化物涂膜的使用为局部氟化物防龋又开辟了一条新途径。
6) bovine enamel
牛牙釉质
1.
OBJECTIVE:The aim of this study was to evaluate the effect of saliva contamination and de-contamination(water spraying) on the bovine enamel micro-tensile bond strengths of four commercially available self-etching adhesives.
目的:本实验主要研究唾液污染和去污染对4种自酸蚀粘结剂的牛牙釉质微拉伸粘结强度的影响。
补充资料:交交牙牙
1.错杂貌。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条