1.
A blue pigment made from powdered lapis lazuli.
深蓝青由粉末状天青石制成的蓝色颜料
2.
blue pigment made of powdered lapis lazuli.
由粉末状天青石制成的蓝色颜料。
3.
This paper shows the test results of certain celestine ore.
论述了某天青石矿浮选试验研究结果。
4.
Lapis Lazuli: Strengthens the immune system. 6th chakra.
天青石:有助于强化免疫系统。用于第六个穴位。
5.
The Mineralization Geochemistry and Formation Mechanism of Hechuan Celestine
合川天青石矿床成矿地球化学及形成机理
6.
Determination of Micro Amount of Potassium in Celestine by AAS
原子吸收法测定钡天青石中微量钾的研究
7.
GENESIS OF A CELESTINE DEPOSIT WITH REFERENCE TO ITS GEOLOGICAL CHARACTERISTCS
沉积型天青石矿床的地质特征及其成因探讨
8.
Therefore, the author considers the deposit to be a sedimentary-transform type of celestine.
认为本矿床应届沉积——改造类型的天青石矿床。
9.
Determination of Trace Mg and Mn in Celestine by AAS
原子吸收法测试钡天青石中微量镁、锰的研究
10.
The main useful mineral is celestine.
矿石组构虽然复杂,但其矿物组成比较简单,有用矿物主要为天青石。
11.
For example, ultramarine, made by the grinding of lapis lazuli, and red pigments made of sulphur and silver, were admired for their cost.
如由天青石研磨制成的佛青色、用硫和银制成的红颜料,因其高昂的费用而倍受青睐。
12.
Celestite is usually diagenetic but commonly forms very early in the history of the sediment.
天青石一般是成岩期的,但通常是在沉积史的极早期形成的。
13.
Compositions of S and Sr isotopes for celestine are similar to those for general sea waters.
天青石中硫、锶同位素值和海水硫、锶同位素值相近。
14.
Determination of Strontium Isotopic Composition in Celestite--Comparison of Sample Decomposition Using Acid Digestion and Alkali Fusion
天青石中锶同位素组成测定——酸溶和碱熔样品分解方法的对比
15.
Determination of strontium oxide in Bluestone sample by AAS
火焰原子吸收技术对天青石样品中氧化锶含量的测定
16.
Determinations of Sr,Ba,Ca,Mg and Fe in Celestine by ICP-AES with Mixed Semi-Molten Flux
混合熔剂半熔ICP-AES测定天青石矿中的锶、钡、钙、镁和铁
17.
Wedged between hills& waters, the city is endowed with a beautiful scenery and a delightful climate.
白天,青岛宛如镶嵌在黄海边的绿宝石。
18.
" the woman responded gratefully.
石青嫂子感激地说,“也要天老爷睁开眼睛