This standard specifies the data items and text values ​​of the subject of "solid mineral prospecting and exploration", including the classification of mineral resources, the division of geological work stages, the survey and exploration methods of solid minerals, the types of exploration, the types and methods of sampling, the calculation of reserves, the types of ore, the geological cataloging, the requirements of the mineral industry, etc. This standard is applicable to the construction of various geological and mineral information systems, determines the database standard system and data dictionary, is the basic standard for the formulation of various geological data file format standards, and provides a technical basis for the exchange and sharing of information. GB/T 9649.32-2001 Classification code of geological and mineral terms Solid mineral prospecting and exploration GB/T9649.32-2001 standard download decompression password: www.bzxz.net
This standard specifies the data items and text values ​​of the subject of "solid mineral prospecting and exploration", including the classification of mineral resources, the division of geological work stages, the survey and exploration methods of solid minerals, the types of exploration, the types and methods of sampling, the calculation of reserves, the types of ore, the geological cataloging, the requirements of the mineral industry, etc. This standard is applicable to the construction of various geological and mineral information systems, determines the database standard system and data dictionary, and is the basic standard for formulating various geological data file format standards, providing a technical basis for information exchange and sharing.

ICS35.040
National Standard of the People's Republic of China
GB/T9649.32—2001
The terminology classification codes of geologyand mineral resources--The prospectingand exploration of solid mineral resources resources2001-04-29 Issued
People's Republic of China
General Administration of Quality Supervision, Inspection and Quarantine
2001-12-01 Implementation
GB/T9649.32—2001
Classification principles
Word selection principles
Coding methods
Use and management
Code table content settings
Solid mineral survey and exploration term classification code table 8
Appendix A (Standard Appendix) Explanation on the scope of classification word selection
GB/T9649.32--2001
Informatization in the field of geology and mineral resources has emerged in countries around the world. my country should catch up with the world's advanced level, introduce modern information technology, and develop my country's information resources to ensure the realization of information sharing between various information systems to be built. In 1985, the national standardization department approved the establishment of the project to formulate the national standard "Geological and Mineral Terminology Classification Code", which was approved and issued in 1988. The content of GB/T9649-1988 "Geological and Mineral Terminology Classification Code" is mainly to combine geological and mineral production, scientific research, various geological phenomena, collect various types of relevant information involved in the attribute and the terminology used for qualitative description of attribute characteristics. In order to facilitate application and division of labor in compilation, and avoid duplication and omission of content, subject classification is used for compilation. After consultation, appropriate division of labor is made for the overlapping parts between subjects to ensure the overall systematicity, integrity and uniqueness. Character codes are given to terms used as data items (attributes), and a coding scheme combining surface classification and line classification is adopted, which can maintain uniqueness and have sufficient room for expansion. There will be no duplicate codes when supplemented as needed by the application. Terms used as text values ​​are generally coded with numbers, which is conducive to storage and retrieval, saving space and improving processing speed.
After five years of application, GB/T9649-1988 was revised in 1993 according to user requirements. Due to actual needs, only some disciplines are revised in this revision, and a series of standards are adopted to facilitate user use and future revisions. In order to maintain the stability of the standard, the principle of this revision is to keep the overall structure, word selection scope, classification principles, word selection principles and coding methods unchanged, and the original term code is kept as unchanged as possible, and its content is appropriately supplemented and modified. The 32nd discipline of GB/T9649-1988 "Geological and Mineral Terminology Classification Code" is "Solid Mineral Survey and Exploration". This standard is a revision of the "Solid Mineral Survey and Exploration" part of GB/T9649-1988 "Geological and Mineral Terminology Classification Code". Since the release and implementation of GB/T9649-1988, the former Ministry of Geology and Mineral Resources has successively established database systems such as "National Mineral Reserve Library", "Solid Mineral Exploration and Evaluation Automation System", "Mineral Point (Bed) Database", and "Geophysical and Geochemical Anomaly Database". In order to keep pace with the international standards in geological exploration and mining, the national standards for the classification and classification of mineral reserves in my country have been re-established according to the international standards for the classification and classification of mineral reserves. In order to maintain coordination and consistency with them and meet the current practical application, relevant content should be added. According to the needs of the construction of the geological and mineral information system and the new development of the discipline, this revision mainly involves the following aspects: comprehensive research on ore deposit geology, reserve calculation methods, resource prediction, new classification of solid mineral resource reserves, ore quality parameters, etc. This revision adds, deletes and modifies more than 270 items, including more than 230 new terms. Appendix A of this standard is the appendix of the standard.
This standard is proposed by the Ministry of Land and Resources.
This standard is under the jurisdiction of the China Institute of Standardization and Information Classification and Coding. This standard is organized and drafted by the China Institute of Geological and Mineral Information. This standard is managed and maintained by the China Institute of Geological and Mineral Information. The main drafters of this standard are Wu Zhongyu, Chen Chunzai, Fu Yikai, Ma Deyao, Zhao Jingman, and Fan Zhankui. GB/T9649-1988 was issued on July 8, 1988. Part 32 of GB/T9649-1988 was revised for the first time on April 29, 2001. 1 Scope
National Standard of the People's Republic of China
Terminology Classification Codes of Geologyand Mineral Resources-Theprospectingand exploration of solid mineral resources
The terminology classification codes of geologyand mineral resources-Theprospectingand exploration of solid mineral resourcesGB/T9649.322001
Partially replaces GB/T9649-1988
This standard specifies the data items and text values ​​of the subject of "Solid Mineral Prospecting and Exploration", including the classification of mineral resources, division of geological work stages, solid mineral prospecting and exploration methods, exploration types, sampling types and methods, reserve calculation, ore types, geological cataloging, mineral industry requirements, etc.
This standard is applicable to the construction of various geological and mineral information systems, determines the database standard system and data dictionary, is the basic standard for formulating various geological data file format standards, and provides a technical basis for information exchange and sharing. 2 Definitions
This standard adopts the following definitions.
2.1 Data item: refers to the term that reflects the basic attributes of various geological entities and their upper-level concepts. 2.2 Text value: refers to the term used to make a specific qualitative description of the basic attributes of geological entities. 3 Classification principles
3.1 This standard adopts the face classification method according to the principles of easy compilation and use and minimizing code redundancy while leaving room for expansion, and divides geological science into 35 major disciplines, and strictly divides the boundaries to maintain the overall systematicity and integrity and avoid duplication and overlap of content. 3.2 A three-level tree classification is adopted under the major categories, from medium category, small category to basic data item name. The content levels of each discipline are different, and can be less than three levels. Under the condition that the coding capacity allows, it can also be divided into four levels. 3.3 Classification at all levels is scientific, systematic and universal. 4.1 Objects of word selection: terms that may be used as data items in various geological and mineral databases (including upper-level concepts of data items selected from the classification sense), as well as terms used to qualitatively describe the text values ​​of data items. The selected terms are consistent with the current relevant national standards, and try to refer to the current various geological work specifications.
4.2 Terms used as data items are unique in this standard. All synonyms are marked in the remarks column for reference, but they shall not be used when building a database.
4.3 The word selection strives to be simple, clear, and unambiguous. Fully consider the needs of establishing a database. 4.4 In order to ensure the integrity and systematicness of the "Geological and Mineral Terminology Classification Code" and avoid duplication, no more people will be selected from the content already included in the basic disciplines and applied disciplines, and only the unique content of emerging disciplines and marginal disciplines will be selected. For instructions on the scope of classification word selection, please see Appendix A (Appendix to the standard).
Approved by the General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China on April 29, 2001, implemented on December 1, 2001
GB/T 9649.32—2001
4.5 Appropriately select some terms that reflect the new direction and new level of discipline development. 4.6 For the convenience of use, individual data items with high frequency of use can appear repeatedly in different disciplines, but they must be encoded with a unified code to ensure the uniqueness of the code. There can be a small amount of duplication of text values ​​under different data items. 5 Coding method
5.1 Data items are encoded with no more than six Latin characters (uppercase), generally divided into four levels. The structure is as follows: XX
Major category, subcategory, subcategory data item
Major categories take the Chinese phonetic initials of two Chinese characters that can reflect the meaning of the category as the code, which has a certain readability. For example, "structural geology" takes "GZ" as the code. The following is a tree-like nested format. The middle and small categories are arranged in alphabetical order from A to Z. The last two digits are basic data items, which are relatively large in number and are arranged in the order of AA to ZZ. If there is a need for classification and there is enough room for expansion, the last two digits can also be divided into two levels.
5.2 Text values ​​are generally coded digitally, and their length is determined by the needs of classification, the number of text values ​​and the margin for expansion. They should be shortened as much as possible to reduce the margin. When text values ​​are graded, digital hierarchical nesting is used, and the text value codes under the same data item are equal-length codes. Some text values ​​(such as chemical elements, strata, etc.) continue to use the original international or domestic universal character codes. 6 Use and Management
6.1 Usage: This standard is provided in both written and magnetic media forms. Users can select the required terms and their codes from various disciplines according to their respective database construction purposes as the data dictionary of their respective systems. 6.2 If the content of this standard cannot meet a certain need, you can propose the content to be supplemented and report it to the standard management unit for supplementation in the corresponding discipline, and give a code for use. It is not allowed to add words or codes on your own. In this way, you can meet the needs and maintain the stability of the standard. 7 Code table content settings
In order to meet the needs of database construction and international communication, the classification and code table has four columns: code, Chinese name, English translation (paleontology is Latin name) and notes.
8Classification code table of solid mineral survey and exploration termsSolid mineral survey and exploration
Chinese name
Solid mineral survey and exploration
Mineral resources
Degree of geological work
Stages of mineral exploration
Mineral survey
Exploration of mineral deposits
Requirements for mineral industry
Minerais
Mineral resources
Reserves
English translation
Intensity of geological activitiesStages of prospecting and exploration ofmineral re-sources
Prospecting of mineral resourcesExploration of mineral depositsSampling
Documentation
Industrial requirements for ores Remarks
Solid mineral survey
PKAABA
PKAABB
PKAABC
PKAAHA
PKAAHB
PKAAHC
Chinese character name
Mining area utilization
Mineral classification
Mineral name
Major minerals
Secondary minerals
Associated minerals
Mineral classification
Non-fuel minerals
Fuel minerals
Body minerals
Liquid minerals
Gas minerals
Ordinary minerals
Special Minerals
Metallic Minerals
Non-metallic Minerals
Energy Minerals
Industrial Raw Materials Minerals
Fuel Minerals
Solid Fuel Minerals
Liquid Fuel Minerals
Gas Fuel Minerals
Metal Minerals
Ferrous Metal Minerals
Non-ferrous Metal Minerals
Base Metal Minerals
PKAAHD
Precious Metal Minerals
PKAAHE
PKAAHF
Light Metal Minerals
Heavy Metal Minerals
Rare Metal Minerals
PKAAHG
PKAAHH Rare earth metal minerals
PKAAHI
PKAAHJ
PKAAIA
PKAAIB
Rare metal minerals
Radioactive metal minerals
Non-metallic minerals
Ordinary non-metallic minerals
Special non-metallic minerals
Industrial raw material minerals
PKAAKA Smelting raw material minerals
PKAAKBFlux raw material minerals
PKAAKCRefractory minerals
PKAAKDMold raw material minerals
PKAAKE
PKAAKF
Chemical raw material minerals
Fertilizer raw material minerals
GB/T9649.32—2001
Solid mineral prospecting and exploration
English translation
State of mine use
Classification.of mineral resourcesNames of mineral resources
Main resources
Second resources
Associated-paragenetic-mineralsNonfuel resources
Fuel resources
Solid resources
Liquid resources
Gaseous resources
Ordinary resources
Special resources
Metallic resources
Nonmetallic resources
Resources for energy source
Resources for industrial materialsSolid fuel resources
Liquid fuel resources
Gaseous fuel resources
Ferrous metals resources
Nonferrous metals resources
Base metals resources
Precious metals resources
Light metals resources
Heavy metals resources
Rare metals resources
Rare earth resources
Dispersemetalsresources
Radioactive metals resourcesOrdinary nonmetallic resourcesSpecial nonmetallic resourcesSmelting raw material resourcesFlux raw material resources
Refractoryrawmaterial resourcesFoundry raw material resourcesRaw material resources for chemical industryRaw material resources for chemical firtilizer备注
铁及铁合金矿
稀有元素矿产
稀土元素矿产
分散元素矿产
放射性元素矿
PKAAKG
PKAAKH
PKAAKI
PKAAKJ
PKAAKK
PKAAKL
汉字名
水泥原料矿产
玻璃原料矿产
陶瓷原料矿产
光电原料矿产
建筑原料矿产
铸石原料矿产
PKAAKM矿物颜料矿产
矿物磨料矿产
PKAAKN
PKAAKO
PKAAKP
PKAAKQ
PKAAKR
PKAAKS
PKBAAA
PKBAAB
PKBAAC
PKBAAD
PKBAAE
PKBAAF
PKBAAG
PKBAAH
PKBAAI
PKBAAJ
PKBAAK
PKBAAL
PKBAAM
PKBAAN
PKBAAO
PKBAAP
PKBAAQ
PKBAAR
PKBAAS
PKBAAT
PKBAAU
PKBAAV
PKBAAW
矿物填料矿石
宝石及玉石矿产
工艺材料矿产
矿物涂料矿产
药用原料矿产
矿产资源
矿产资源分类
资源量
资源预测
矿产资源分类
矿产资源常用分类
矿产资源国际分类
矿产资源常用分类
金属矿产资源
非金属矿产资源
煤炭资源
石油及天然气资源
核能资源
地热资源
水资源
总资源
查明资源
未经发现资源
经济资源
次经济资源
探明资源
测定资源
推定资源
推测资源
假定资源
假想资源
准边界资源
边界下资源
确定资源
暂定资源
潜在资源
矿产资源国际分类
GB/T9649.32—2001
固体矿产普查与勘探
英译名
Cement raw material resourcesGlass raw material resourcesCeramic raw material resourcesPhotoelectric raw material resourcesConstruetion material resourcesRaw materials resources for cast stonePigment mineral resources
Abrasive mineral resources
Filler mineral resources
Gemstone and jadestone resourcesTechnological material resourcesMineral paint resources
Mineral raw material resources for medicial useClassification of mineral resourcesQuantityof mineral resourcesPrediction of mineral resourcesCommon classification of mineral resourcesInternational classification of mineral resourcesMetallic mineral resources
Nonmetallic mineral resourcesCoal resources
Oil and gas resources
Nuclear energy resources
Geothermal resources
Water resources
Total resources
Identified resources
Undiscovered resources
Economic resources
Subeconomic resources
Demonstrated resources
Measured resources
Indicated resources
Inferred resources
Hypothetical resources
Speculative resources
Paramarginal resources
Submarginal resources
Defined resources
Conditional resources
Potential resources
查明的次经济
PKBABA
PKBABB
PKBABC
PKBABD
PKBABE
PKBABF
PKBABG
PKBABH
PKBABI
PKBABJ
PKBABK
PKBABL
实地资源
R-1级资源
汉字名
R-1E亚级资源
R-1S亚级资源
R-1M亚级资源
R-2级资源
R-2E亚级资源
R-2S亚级资源
R-2M亚级资源
R-3级资源
R-3E亚级资源
R-3S亚级资源
R-3M亚级资源
PKBABM
资源量
资源总量
查明资源量
预测资源量
E级资源量
F级资源量
G级资源量
近期有效资源量
资源预测
预测目的
预测矿种
预测地区
预测范围
预测面积
预测方法
预测比例尺
预测日期
预测单位
预测成果
预测远景区
预测深度
预测条件
储量的分类和分级
储量计算
储量计算方法
储量计算基本参数
储量计量单位
储量计算边界线
储量计算结果
储量报批
储量变动
储量比例
GB/T9649.32—2001
固体矿产普查与勘探
英译名
In situ resources
CategoryR-1
Subcategory R-1E
Subcategory R-1S
SubcategoryR-1M
CategoryR-2
Subcategory R-2E
Subcategory R-2S
Subcategory R-2M
Category R-3
Subcategory R-3E
Subcategory R -3S
Subcategory R-3M
Total amount of resources
Identified anount of resourcesPredictive amount of resourcesAmount of resource class E
Amount of resource class F
Amount of resource class G
Effective resource amount in the near futurePrediction aim
Predicted mineral classes
Predicted district
Predicted range
Area of predicted district
Predicting method
Predicting scale
Predicting date
Predicting organization
Predicted conclusion
Predicted prospective area
Predicted depth
Predicting condition
Categories or classes of reservesCalculation of reserves
Method of reservecaculation
Basic parameters for reserve caleulationsUnits for reserve calculationsBoundaries for reserve calculationsResults of reserve calculationsDeclaration and ratification of estimated reservesDynamic state of reserves
Ratio of reserves
原地资源
总资源量
E级储量
F级储量
G级储量
PKCAAA
PKCAAB
PKCAAC
PKCAAD
PKCAAE
PKCAAF
PKCAAG
储量精度
储量误差
矿产储量表
汉字名
固体矿产资源储量分类（1999）固体矿产资源储量分类依据
储量的分类和分级
储量类别
储量级别
可采储量系数
储量类别
能利用储量
暂不能利用储量
工业储量
开采储量bzxz.net
设计储量
远景储量
地质储量
PKCAAH
经济储量
PKCAAI
PKCAAJ
PKCAAQ
PKCAAR
PKCABS
PKCABT
PKCABA
PKCABB
PKCABC
PKCABD
PKCABE
PKCABF
PKCABG
PKCABH
PKCABI
PKCABJ
PKCABK
PKCABL
PKCABM
PKCABN
PKCABO
PKCABP
PKCABQ
PKCABR
次经济储量
建筑物压占储量
可采储量
可靠矿石储量
露采保有储量
坑采保有储量
储量级别
A级储量
B级储量
C级储量
D级储量
查明储量
探明储量
测定储量
推定储量
推测储量
证实储量
概路储量
可能储量
预测储量
未分级储量
A1级储量
A2级储量
C1级储量
C2级储量
储量计算方法
GB/T9649.32--2001
固体矿产普查与勘探
英译名
Reserve accuracy
Reserve error
Mineral reserves sheet
Extractable reserve classification of solid fuels and min-eral resources
Basis of extractable reserve classification of solid fuelsand mineral resources
Categories of reserves
Classes of reserves
Coefficient of reserve recoveryUsable reserves
Usable-in future reserves
Industrial reserves
Workable reserves
Designable reserves
Prospective reserves
Geological reserves
Economic reserves
Subeconomic reserves
Reserveunderconstruction
Recoverable reserve
Reliable ore reserve
Remained reserve of surface miningRemained reserve of underground miningReserves of category A
Reserves of category B
Reserves of category C
Reserves of category D
Identified reserves
Demonstrated reserves
Measured reserves
Indicated reserves
Inferred reserves
Proved reserves
Probable reserves
Possible reserves
Predictive reserves
Unclassified reserve
Reserves of category A1
Reserves of category A2
Reserves of category C1
Reserves of category C2
平衡表内储量
平衡表外储量
PKCDAA
PKCDAB
PKCDAC
PKCDAD
PKCDAE
PKCDAF
块段法
地质块段法
开采块段法
汉字名
三角形块段法
多边形块段法
断面法
平行断面法
不平行断面法
垂直断面法
水平断面法
线储量法
等值线法
构造等高线法
算术平均法
距离平方倒数法
统计相关法
克立格法
简单克立格法
普通克立格法
泛克立格法
析取克立格法
对数克立格法
指示克立格法
空间三角形网络法
综合方法
尖推（锥）
尖推(楔）
储量计算基本参数
矿体厚度
矿体面积
矿体体积
矿石品位
矿石体重
矿石湿度
含矿系数
米百分值
外推距离
矿体厚度
真厚度
垂直厚度
水平厚度
视厚度
平均厚度
算术平均厚度
GB/T9649.322001
固体矿产普查与勘探
英译名
Oreblock method
Geological oreblock method
Exploritation oreblock methodTriangular oreblock method
Polygonal oreblock method
Cross-sectional method
Parallel section method
Transecting section method
Vertical section method
Horizontal section method
Linear reserve method
Isoline method
Structure-contour method
Arithmetic mean method
Reciprocal square distance methodSDmethod
Statistical correlation methodKriging method
Simple kriging method
Ordinary kriging method
Universal kriging method
Disjunctive kriging method
Logarithmic kriging
Indicator kriging
Space triangle network methodCombined method
Tip push(awl)
Tip push(wedge)
Thickness of orebody
Area of orebody
Volume of orebody
Oregrade
Volume weight of ore
Oredampness
Coefficient of mineralizationMeterpercent
Distance of extrapolation
True thickness
Vertical thickness
Horizontal thickness
Apparent thickness
Average thickness
Arithmetic average thickness备注
最近地区法
剖面法
矿石容重
米百分率
PKCDAG
PKCDAH
PKCDAI
PKCDAJ
PKCDBA
PKCDBB
PKCDBC
PKCDBD
PKCDBE
PKCDBF
PKCDBG
PKCDBH
PKCDCA
PKCDCB
PKCDDA
PKCDDB
PKCDDC
PKCDDD
PKCDDE
PKCDDF
PKCDDG
PKCDDH
PKCDDI
PKCDEA
PKCDEB
PKCDEC
PKCDED
PKCDEE
PKCDEF
PKCDEG
汉字名
加权平均厚度
块段平均厚度
矿体平均厚度
分级可采厚度
矿体面积
块段面积
断面面积
投影面积
真面积
视面积
水平投影面积
垂直投影面积
斜面积
矿体体积
块段体积
矿体总体积
矿石品位
平均品位
块段平均品位
矿体平均品位
矿床平均品位
算术平均品位
加权平均品位
特高品位
工程平均品位
综合工业品位
矿石体重
小体重
大体重
平均体重
算术平均体重
加权平均体重
千体重
湿体重
储量计算单位
百万吨
立方米
万立方米
兆立方米
亿立方米
吨每日
GB/T9649.322001
固体矿产普查与勘探
英译名
Weighted average thickness
Average thickness of ore blockAverage thickness of orebodyMinable thickness for ore classArea of ore block
Area of ore section
Projectivearea
Truearea
Apparent area
Area on horizontal projectionArea on vertical projection
Inclined area
Volume of ore block
Total volume of orebodies
Average grade of ore
Average grade of ore block
Average grade of orebody
Average grade of ore depositArithmetic average grade
Weighted average grade
Stormgrade
Average grade of exploratory workingCompound produetion grade
Volume weight by small-size samplesVolume weight by large-size samplesAverage volune weight
Arithmetic average volume weightWeighted average volume weightVolume weight by dry samplesVolume weight by wet samplesKilogram
Kilotonne
Myriatonne
Megatonne
Hundred million tonne
Cubic metre
Myriastere
Megastere
Hundred million stere
Tonneperday
面面积
风暴品位
万吨每日
吨每年
万吨每年
立方米每日
汉字名
万立方米每年
储量计算边界线
内边界线
外边界线
自然边界线
零点边界线
可采边界线
自然类型边界线
工业类型边界线
工业品级边界线
储量级别边界线
人为边界线
储量计算结果
金属储量
矿物储量
有用组分储量
矿石储基
总储量
块段储量
矿体储量
矿床储量
高级储量
伴生元素储量
共生矿产储量
储量报批
储量报告名称
储量报告编号
储量提交单位
储量提交日期
储量审批单位
储量审批日期
储量审批结果
储量审批文据
已审批储量
已审核储量
未审批储量
储量变动
累计探明储量
保有储量
保有可开采储量
保有可设计储量
保有储量审批单位
GB/T9649.32—2001
固体矿产普查与勘探
英译名
Myriatonne per day
Tonne per year
Myriatonne per year
Cubic metre per day
Myriastere per year
Internal boundary
External boundary
Physical boundary
Zero boundary
Minable boundary
Boundary between natural types of oresBoundary between intustrial types of oresBoundary bewteen technological classes of oresBoundary between classes of reservesArtificial boundary
Reserves in metal
Reserves in mineral
Reserves in useful componentsReserves in ore
Total reserves
Reserves of ore block
Reserves of orebody
Reserves of ore deposit
Higher categories
Reserves of associated elementsReserves of paragenetic oresTitle of reserve-report
Code of reserve-report
Prospector and/or explorer of reservesPresenting date of reserve
Reserve ratifier
Ratifying date of reserves
Resulting record of reserve ratificationReserve-ratifying file
Ratified reserve
Reserve awaiting ratificationReserve without ratificationCumulative demonstrated reserveAvailable reserve
Available workable reserve
Available designable reserveRatifer of available reserve备注32—2001
固体矿产普查与勘探
英译名
Myriatonne per day
Tonne per year
Myriatonne per year
Cubic metre per day
Myriastere per year
Internal boundary
External boundary
Physical boundary
Zero boundary
Minable boundary
Boundary between natural types of oresBoundary between intustrial types of oresBoundary bewteen technological classes of oresBoundary between classes of reservesArtificial boundary
Reserves in metal
Reserves in mineral
Reserves in useful componentsReserves in ore
Total reserves
Reserves of ore block
Reserves of orebody
Reserves of ore deposit
Higher categories
Reserves of associated elementsReserves of paragenetic oresTitle of reserve-report
Code of reserve-report
Prospector and/or explorer of reservesPresenting date of reserve
Reserve ratifier
Ratifying date of reserves
Resulting record of reserve ratificationReserve-ratifying file
Ratified reserve
Reserve awaiting ratificationReserve without ratificationCumulative demonstrated reserveAvailable reserve
Available workable reserve
Available designable reserveRatifer of available reserve备注
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