1.
Tertiary-type ore deposit
(浅成热液矿床) 第三纪型矿床
2.
Study on the Metallogenesis and Models in Mesozoic Epithermal Gold Deposits in Yanbian, Jilin Province;
延边中生代浅成热液铜金矿床的成矿模式研究
3.
epithermal gold deposit
浅成低温热液金矿床
4.
Metallogenic Characteristics and Searching Prospect of Epithermal Gold Deposits in Xiangnan;
湘南浅成低温热液型金矿成矿特征及找矿前景
5.
The Ore- forming Fluid and Mineralization of Epithermal Gold Deposits in Pinyi, Western Shangdong;
鲁西平邑地区浅成低温热液金矿床成矿流体及成矿作用
6.
Latest advances of researches on epithermal gold deposits
浅成低温热液型金矿床若干问题的最新研究进展
7.
Mineralization zoning of epithermal Au-Ag polymetallic deposit and its prospecting criteria
浅成低温热液金银多金属矿床矿化分带及找矿标志
8.
Wang L J,Wang JB,Wang YW,Zhu HP and Qu LL.2005.The study of ore-fluid and C-S-Pb isopope of rich in S and poor in S types in epithermal gold deposits,Junggar area,Xinjiang.
新疆准噶尔地区富硫型与贫硫型浅成低温热液金矿床成矿流体与碳、硫、铅同位素
9.
Heat can change iron into a liquid.
热能够把铁变成液体。
10.
The liquid water is heated so that it becomes steam.
液态水受热而变成蒸汽。
11.
reduced to liquid form by heating.
通过加热使变成液态。
12.
endomagmatic hydrothermal differentiation
内成岩浆热液分异作用
13.
To become liquefied from heat.
熔化加热后成为液状
14.
become liquid or fluid; of a solid substance, when heated.
当固体加热时,变成液体或液质。
15.
Thermocapillary-buoyancy Convection in a Shallow Annular Pool for Moderate Prandtl Number Fluid;
环形浅液池内中等Pr数流体热毛细—浮力对流
16.
reduce from a solid to a liquid state, usually by heating.
通常通过加热使固态变成液态。
17.
The Research of Abiotic Synthesis of Amino Acids under the Conditions of Submarine Hydrothermal Systems;
模拟海底热液系统氨基酸合成的研究
18.
Synthesis of Novel Low Molar Mass Thermotropic Liquid Crystals and Their Mesomorphism;
新型小分子热致液晶的合成及介晶性