1)  micro-implant
微钛钉支抗
2)  titanium microalloying
微钛处理
1.
015% titanium microalloying on the microstructure and properties of rephosphorized steel sheet were investigated by analyzing its microstructure and properties as hot-rolled and as annealed as well as its recrystallization dynamic behavior during annealing under different coiling temperatures(600,650 and 700 ℃ separately).
研究结果表明,热轧卷取温度对低碳含磷钢的显微组织和力学性能影响很小,但微钛处理后,低碳含磷钢的再结晶动力学受到延迟,特别当卷取温度为600℃时,不但热轧态和冷轧退火态的强度提高,而且力学性能对卷取温度和退火温度的敏感性增加;随着卷取温度的降低,热轧态和冷轧退火态的强度提高,且冷轧退火态强度随着退火温度升高而降低的幅度增加。
3)  titanium microalloyed steel
微钛钢
1.
TiN precipitation from titanium microalloyed steels is studied by TEM.
用TEM对低碳微钛钢中TiN沉淀相的析出行为进行研究,结果表明:铸态情况下,因Ti的偏析,TiN呈枝晶析出;热处理过程中,析出的TiN进一步长大。
4)  skeletal anchorage system
微钛板支抗
1.
Effectiveness of skeletal anchorage system in orthodontic treatment;
微钛板支抗对正畸疗效的影响
5)  medicinal A-titania of super particle
药用超微A-钛白
6)  mini-screw implant
微钛钉种植体
补充资料:皮革抗钉坚固性
分子式:
CAS号:

性质:用于表征装具革成品钉孔部分所受的最大抵抗强度。用电动杆式非金属材料强力试验进行测定,测定结果以N/mm2表示。即:抗钉坚固性=试样拉破时所需的力(N)/[试样厚度(mm)×试样受力部位的宽度(mm)]。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。