靖州平茶金矿为多硫化物型锑金矿床,矿化受近东西向次级断裂和蚀变带控制,矿床规模小,但品位高。
Pingcha gold deposit is a Sb-Au of rich in sulphide, controlled by the E-W secondary fracture and alteration zone and being small in scal but high in grade.
结论:高氟低蛋白营养首先影响牙基质的发育,进一步影响矿化,从而使牙齿整体发育不良,过度磨损。
Conclusion: high fluoride and low nourishment would cause underdevelopment of tooth matrix firstly, then affect the calcification of matrix, finally deteriorate the quality of teeth.
矿化程度的测定表明,低剂量和高剂量双膦酸盐组骨单位内的平均矿化程度(MDMB)都明显高于对照组,分别增加了22%和30%。
The mean degree of mineralization in bone(MDMB) in YML and YMH were significantly higher than that of CNT, and increased by 22% and 30%, respectively.
重度盐碱地可开采高矿化地下水,生产芒硝和食盐。
Highly mineralized groundwater can be explored from strongly salinized land thus producing mirabilite and table salt.
结果:高胆固醇的骨头的脱矿速率比正常骨的快,再矿化速率比正常骨慢。
Results: The demineralization rate of the bones intussuscepted with cholesterol are faster than that of normal bones, the mineralization rate of the former is slower than that of the later.
在淡水资源不足情况下,研究利用高矿化水灌溉的可能性具有重要的现实意义。
Under conditions of shortage of fresh water, a study of possible use of saline water for irrigation is of practical significance.
为了探索高氟低蛋白对牙齿发育的影响 ,阐明牙齿过度磨损的机理 ,应用扫描电镜对第一、二切齿脱钙前的矿化及脱钙后的基质结构作了观察。
To explore the effect of high fluoride and low protein on tooth development and clarify the mechanism of excessive tooth wear, and decalcification of incisors were researched by SEM.
为了探索高氟低蛋白对牙齿发育的影响 ,阐明牙齿过度磨损的机理 ,应用扫描电镜对第一、二切齿脱钙前的矿化及脱钙后的基质结构作了观察。
To explore the effect of high fluoride and low protein on tooth development and clarify the mechanism of excessive tooth wear, and decalcification of incisors were researched by SEM.
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