vt. 使矿物化,使矿化;使含矿物。 vi. 探矿;促进矿化。 n. -ization 【地质学;地理学】矿化(作用);成矿作用。 n. -r 1.【化学】造矿元素;【地质学;地理学】矿化因素。 2.探矿者,采矿者。
Example Sentences:
1.
Long fibre mineralize board product line 长纤维矿化板生产线
2.
Mineralize and take with hetian jade intermittently more than 1100 - km - longly 和阗玉成矿带断续长多公里。
3.
In certain soils , co2 will mineralize for long term capture in addition to the charcoal carbon 在特定的泥土中,二氧化碳可被矿物化,从而可以与木炭的碳一样被长期固定在土壤中。
4.
From the study of sulfur isotope , i know that it is muti - mineralize feature , and mainly comes from magma sulfur 对硫同位素研究显示出多期矿化特征,但硫源则均以岩浆硫为主。
5.
If food or drinks are taken too frequently , our saliva does not have sufficient time to re - mineralize the tooth enamel , thus allowing the decay process to begin 如果吃喝太过频繁,唾液没有足够的时间为牙釉质补充矿物质,蛀牙就会发生。
6.
Shanyang county shanxi province silver factory ditch - ancient tomb ditch copper silver mine , locate on the boundary between shanxi and hubei , and belong to the shanxi henan hubei the beneficial area of mineralize 陕西省山阳县银厂沟?古墓沟铜银矿位于陕鄂交界地域,属陕豫鄂成矿有利区带。
7.
The author analysis and summary in details the important physicochemical character of maifan stone , including mineralize , organism activity bi - directional adjusting character , decolour , and no poisonous character and so on 作者详细的分析和总结了对于麦饭石应用至关重要的物理化学性质,包括矿化性、溶出性、吸附性、生物活性、双向调节性,脱色性和无毒无害性等。
8.
( 4 ) through level division of the predict result which favorable for mineralize district in the studied areas . we put up a graduate method which is used to divide graduations of statistical result . this kind of dividing method is different from traditional interval or non - interval graduate method , it can avoid a subjectivity for level division and is favorable to divide the high value of the result . ( 5 ) in the light of rank points and weight of the predicting factors , minerogenetic prediction map had been made . on the basis of the map , six favorable districts to mineralize had been determined 这种划分方法不同于传统的等间距、不等间距划分方法,避免了划分的主观性,更有利于对预测结果高值区域的划分; ( 5 )根据预测因子的级别分数和权重,通过gis叠加分析操作,生成一系列的成矿预测系列图件,根据预测图件,在研究区圈定6个成矿有利区。
9.
The efficiency and reliability of minerogenetic prediction can be improved by combining rs with gis . we processed rs images , extracted the geological information related to mineralizing , such as geology , structures , stratam , rocks , etc , synthetically analysed remote sensing , the geological data and geo - chemistry , under the guidance of the theory and mathematic model , set up gis mineralize model . on this condition , to develop this method and its theory , and to establish a system of perfect prediction , it is not only useful in studied degree area but also favorable for looking for new type and some form large - scale deposits in old studied area , and it has a great theoretical meaning 遥感与gis相结合用于成矿预测中可大大提高预测工作的效率和可靠性。通过对研究区的遥感图像处理和地质、构造、地层、岩石、矿化蚀变等有关信息的特征提取、遥感、地质数据和物化探数据的综合与复合分析,在一定成矿理论和数学模型指导下,建立gis综合找矿模型。在此基础上,发展这一方法及理论并建立完善的预测体系,不仅对研究程度较低的新区矿床预测有用,而且对研究程度较高的老区寻找新类型和点状大型、超大型矿床都具有重要理论意义和实际意义。
10.
( 2 ) according to the advantages and disadvantages of plural information , the author analysed suited conditions and ranges of different predictable models . confirmed the mathematic model to be adopted in the studied areas . practice indicating : algebraic method can be used in those area where study degree is very lower . ( 3 ) author studied the mineralize prediction model of plural information based on cis , discussed the applications of different mathematic models , and also solved inaccurate which analysed only by normal maps in the past 实践表明,代数叠加法比较适合于地质研究程度较低的地区; ( 3 )研究基于gis的多元信息成矿预测模型,探讨基于不同数学模型之上的成矿预测适用条件和范围,解决了以往传统方法中仅通过纸质地图进行简单分析的不精确性; ( 4 )通过对研究区成矿有利区预测成果的级别划分,提出用结果分布统计图辅助分段的方法对结果值进行分段。
