目的比较玻璃离子和氟化钠修复预防根面龋的效果。
Objective To investigate the clinical effects of glass ionomer and fluoride varnishes in the treatment of root surface caries in senile patients.
目的观察FX玻璃离子水门汀对老年龋病的治疗效果。
Objective To observe the curative effect of senile caries treated with FX.
目的比较玻璃离子和光固化复合树脂对牙体的黏接性能。
Objective To compare the dental bonding characters of glass ionomer cement and light cured composite resin.
结果表明,光固化树脂修复楔状缺损明显优于玻璃离子水门汀。
Results showed that light curing composite resin was better than glass ionomer in wedge-shaped ditch restoration.
结果:玻璃离子粘固剂在整个实验期间都能释放一定量的氟离子。
Results: Both glass ionomer cements released measurable amounts of fluoride throughout the test period.
观察玻璃离子水门汀和氢氧化钙联合修复髓室底穿孔的临床疗效。
Its effective to repair perforation of pulp floor with glass ionomer cement.
目的评价树脂改良型玻璃离子粘固剂粘接正畸托槽的临床使用效果。
Objective To evaluate the resin modified glass ionomer cement (RMGIC) for orthodontic bracket bonding.
第三,银粉玻璃离子具有缓慢释放氟离子的特性,而银汞合金没有。
The third , Hi-dense can release fluoride slowly, but silver amalgam alloy can't.
目的观察采用GCIX玻璃离子用于窝沟封闭剂预防窝沟龋的临床效果。
Objective To observe the clinical effect of GCIX glass ionomers used as pit and fissure sealant in the prevention of fissure caries with fissure sealing.
目的比较玻璃离子和光固化树脂两种材料修复牙体楔状缺损的临床效果。
Residual HEMA released from five hybrid dental materials of composite resin and glass ionomer after curing;
目的:比较FX玻璃离子和光固化复合树脂治疗牙颈部楔状缺损的疗效。
AIM: To compare the effect of glasionomer cement FX material with that of light-cured composite resin material in treating wedge-shaped defect.
比较树脂型和高粉液比玻璃离子封闭剂窝沟封闭对第一恒磨牙的防龋效果。
Objective - To compare the caries prevention effect of resin and glass ionomer cement sealant.
目的以实验方法比较银粉玻璃离子(GISRR)可塑性核桩和铸造核桩的固位力。
Objective to compare the retention of the plastic core with GISRR (Glass Ionomer Silver Reinforced Restorative) with that of the easting core.
目的:比较树脂改良型玻璃离子粘固剂和传统型玻璃离子粘固剂对正畸带环的粘接效果。
Objective: To compare the effect of resin-modified glass ionomer cement and conventional glass ionomer cement on orthodontic band cementation.
结论:羟基磷灰石与光固化玻璃离子夹层技术修复根分叉穿孔优于单独使用羟基磷灰石。
Conclusion the technique on the layers of splint with hydroxylapatite and light cure glass ionomer is better than pure hydroxylapatite in the repair furcal perforation.
用传统玻璃离子粘固剂修复根管口呈喇叭形残根与不作修复的对照组之间没有显著性差异。
However, there is no obvious difference between non-repaired and residual dental root groups repaired by traditional glass ionic adhesives.
深龋经玻璃离子粘固剂垫底后,能明显减轻复合树脂对牙髓的刺激作用,从而护髓效果更佳。
Deep caries based by the glass ions cementation agent, could significantly reduce composite resin pulp stimulation to protect pulp, and better effect.
目的:比较磷酸锌粘接剂、树脂粘接剂和玻璃离子粘接剂粘接强度,为临床粘接剂选择提供依据。
Objective To compare the effect of classic ZnPh cement, resinous cement and glass ionomer cement on the bonding strength of titanium dowel for clinical practice.
近年来,研究者又在传统玻璃离子的基础上通过加入新成分相继开发出新型改性型玻璃离子水门汀。
In recent years, with the development of the GIC, researchers developed some new typical glass ionomer cement by adding some composition in traditional GIC.
探讨并记录护髓垫底材料玻璃离子粘固剂与自凝氢氧化钙联合磷酸锌水门汀治疗后牙深龋的疗效并进行比较。
Explored and recorded the curative effect of protecting pulp bottom material glass ion curing agent and self-congealing hl joint zinc phosphate cement posterior teeth with deep caries repaired.
在采用玻璃离子交换工艺制作多模波导功分器时,需要对交换设备、离子交换源、交换温度等因素进行考虑。
When try to fabricate multimode waveguide splitter with glass ion-exchange process, there are many factors to be considered, such as exchange equipment, exchange sources, exchange temperature.
非创伤性修复治疗(简称art)是一种只用手动器械去除龋坏组织,然后用玻璃离子充填龋洞的操作技术。
The atraumatic restorative treatment (ART) is a procedure based on re-moving carious tooth tissues using hand instruments alone and restoring the cavity with glass-ionomer.
不同粘接剂对桩的固位力大小有显著性影响,树脂粘接剂的粘接强度为玻璃离子和磷酸锌水门汀的1.5 - 2.0倍。
Resin cements have been reported to produce 150% to 200% the retention strength of zinc phosphate and glass ionomer cements.
当此玻璃涂层与海水接触时,释放出的铜离子阻止海洋生物附着在涂层上。
When this glass coating contact with sea water, it releases copper ions which inhibit adhesion of sea creatures.
这些钾离子占据更大的空间,当玻璃冷却下来的时候,钾离子便挤压在一起,从而在玻璃表面生产一层压应力层。
These larger ions take up more room and are pressed together when the glass cools, producing a layer of compressive stress on the surface of the glass.
更小的钠离子会离开玻璃,而盐槽中更大的钾离子会替代这些空缺。
Smaller sodium ions leave the glass, and larger potassium ions from the salt bath replace them.
这层玻璃状物体是锂离子的良导体,尽管储存不了多少锂离子。
This lithium-phosphate glass is good at conducting lithium ions, though it cannot actually store many.
这层玻璃状物体是锂离子的良导体,尽管储存不了多少锂离子。
This lithium-phosphate glass is good at conducting lithium ions, though it cannot actually store many.
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