This standard specifies the classification and codes of radioactive mineral geological terms. This standard applies to China's radioactive mineral geological information system, and also applies to other related fields of radioactive mineral geological work. GB/T 10630-1997 Classification and codes of radioactive mineral geological terms GB/T10630-1997 Standard download decompression password: www.bzxz.net
This standard specifies the classification and codes of radioactive mineral geological terms. This standard applies to China's radioactive mineral geological information system, and also applies to other related fields of radioactive mineral geological work.

GB/T10630—1997 is a revised version of GB10630—8% Radioactive Material Geological Technical Classification and Code (hereinafter referred to as the original standard). Since its release, the standard has played a positive role in building various radioactive mineral geological information systems across the country and realizing data resource sharing. However, it has also exposed some problems and shortcomings. In order to follow the progress of science and technology and the renewal of concepts, make the content of the standard meet the requirements of scientificity, advancement and applicability, and further meet the needs of radioactive mineral geological work and information system construction: it is decided to revise the original standard. This standard has made major additions, deletions and modifications to the content of the radioactive material standard based on the new achievements in the development of material science and technology and the new requirements of radioactive mineral geological work.
This standard adds 1052 technical terms on prospecting, geophysical and geochemical exploration and hydrogeological survey of Sichuan ore, geotechnical and prospecting data processing, environmental protection, radioactive geological treatment, radioactive mineral resource prospecting management, radioactive analysis and testing new technology, and new radioactive minerals discovered in recent years at home and abroad and suitable for my country. This standard deletes 849 terms that are not used in actual use or the concepts are outdated, as well as some common and repeated terms. This standard modifies 373 terms that are not clearly defined and inappropriate. This standard revises the names of 6 of the 12 categories in the original standard. In order to be in line with international standards and the standards of both H and H, radioactive geophysical exploration is changed to nuclear geophysical exploration, and radioactive geochemical exploration is changed to nuclear geochemical auxiliary exploration. The terminology between the levels below human is adjusted. This standard comprehensively reviews and modifies the data values ​​and data positions of the original standard. For data values, except for the reserved 3-digit Arabic numeral code for FH nuclear geophysical exploration, the remaining data values ​​are given 2-digit Arabic numeral codes. This standard is to maintain the code The relative stability of the terms is that the original codes are used for the terms that have not been modified: the added terms are assigned new codes according to the classification: the deleted terms retain empty codes (in principle, they are not used); all the technical specifications adopted by this standard in EJ/T745-93 "Radioactive Mineral Resources Exploration Management Data Collection Format and Code", EJ/T84794 "Radioactive Mineral Resources Prospecting Comprehensive Management Data Collection Format and Code" and EJ/1t:21-1996 "Radioactive Mineral Resources Geological Exploration Basic Research Data Collection Format and Code" are taken and their codes are not included in the corresponding categories! A few codes have been revised. The classification and codes of general geological terms not covered by this standard can be directly adopted (B9649-38 "Classification and Codes of Geological and Mineral Terms". From the implementation of this standard, it replaces GB1063089. This standard is proposed by China National Nuclear Corporation. This standard is under the jurisdiction of the Nuclear Industry Standardization Institute. This standard is the responsibility of the General Administration of Geology of the Nuclear Industry. The main drafters of this standard are Huang Yuzhu, Wu Huishan, Zhao Yunlong, Xue Yuxuan, Zhang Dingfang, Cheng Long, and Liu Zhangyin. This standard is entrusted to the General Administration of Geology of the Nuclear Industry for interpretation. 1 Scope
National Standard of the People's Republic of China
Geological terms and thelr classification and codes of radioactive mineral resources
This standard specifies the classification and codes of terms for radioactive mineral resources. GB/T 10630-1997
Generation G10630—89
This standard applies to my country's radioactive mineral geological information system and other related fields of radioactive mineral geological work. 2 Cited standards
The provisions contained in the following standards constitute the provisions of this standard through reference in this standard. When this standard is published, the versions shown are valid. All standards will be revised. All parties using this standard should explore the possibility of using the latest versions of the following standards. Gl9649—88 Classification code for geological terms of radioactive mineral resources EJ/T749-93 Data collection format and code for radioactive mineral resource exploration management EJ/T817~94 Data collection format and code for comprehensive management of radioactive mineral resource exploration engineering EJ/T1021-1996 Data collection format and code for radioactive mineral resource exploration tools 3 Definitions
The technical standard adopts the following definitions.
3.1 Modification of geological terms of radioactive mineral resources radiaarlive mineralresources Vocabulary describing the basic attributes and concepts of radioactive mineral geological entities, as well as the vocabulary for further qualitative description of the terminology. 3.2 Data item data item
Terminology representing the basic attributes of radioactive mineral geological entities and their superordinate concepts. This standard gives no more than 6-digit code letters to data items.
3.3 Data value datavalue
Terminology for further qualitative description of the basic attributes of radioactive mineral geological entities. This standard generally gives 2-digit digital codes to data values.
4 Classification principles and methods
4.1 Radioactive mineral geological terms are divided into 12 categories according to the needs of disciplines and practical applications (see Table 1). Strictly divide the boundaries to maintain the overall systematicity and integrity and avoid internal duplication and overlap. 4.2 Radioactive minerals and radioactive deposits approved by the State Administration of Technical Supervision on December 76, 1997 and implemented on August 1, 1998 Radioactive minerals and radioactive deposits Radioactive measurement base code Nuclear geological survey Nuclear geochemical survey Radioactive hydrogeological survey Radioactive mineral exploration and exploration Geological technology management of radioactive minerals Radioactive mineral exploration data processing Radioactive mineral analysis, testing and identification Radioactive mineral processing and process test Radioactive shielding and handling Radioactive waste disposal 5 Principles of word selection GB/T 10630
This standard recommends the selection of terms required by various radioactive mineral geological information systems. 5.2 The terms used as data items are unique. All synonyms are indicated in the notes. 5.3 The selection of meaningless terms is simple and clear. 5.4 Some outdated and obsolete concepts that are rarely used in actual work are deleted as much as possible. 5.5 Appropriately select some terms that reflect the new direction and new level of discipline development. 6 Code structure and coding method
Code range
32~-62
113~137
137~-150
156-168
168~-21
214~-228
228-~243
243-252
The number items adopt a hierarchical structure, generally divided into 5 levels, and coded with no more than 6 letters: The structure is as follows: xx
: Sub-category
Sub-category
The main category takes the Chinese phonetic letters that reflect the meaning of the category as the code, which has a certain readability, and the letter represents radioactivity, which is compatible with GB9649. The medium category, sub-category, sub-category and sub-sub-category are arranged in order of letters A to Z. 6.2 The data value is an Arabic numeral code, and its length is generally 2. It should be a sequential code or a series sequential code. 6.3 In order to ensure the systematic and completeness of the terms, a few terms may appear repeatedly. In this case, their codes are represented by \..” in the data items. The data value is represented by “. ·\”, and the original code is placed in the remarks column. 6.4 The code structure example is as follows:
Detailed category
Data value
Granite uranium ore
Uranium ore type
Corrosion ore
-Uranium ore special
Radioactive ore deposit
Radioactive minerals and radioactive deposits
7 Classification and code table
GB/T 10630 -- 1997
Radioactive mineral geological terminology classification and code table setting code,Four headings of terminology, corresponding terms and notes#
Data item
Data value
Radioactive minerals and radioactive minerals
Radioactive extensions
Uranium minerals
Simple oxides of uranium
Crystalline pyroxene
Pitchfork uranium
Residual uranium black
Golden pitchback ore
Tetravalent uranium Complex oxides
Titanium uranite
Orthorhombic titanite
Lanthanite
Betaite
Wonderful platinum uranite
Molybdenum uranite
Brown tongs ore
Puranium uranite
Uranium complex rare gold furnace
Uranium silicate
Uranium phosphate
Uranium hydrophosphate||tt ||Rare phosphorus furnace
uranylamine oxide
column clamp ore
yellow calcium uranium code"
yellow potash clamp ore
yellow barium uranium ore
yellow potash calcium uranium ore
yellow potash calcium strontium uranium ore
green uranium ore
yellow uranium ore
red diamond clamp ore
plate lead uranium agent
orange-red axis ore
copper Uranium shovel
barium uranium ore
creative ore
calcium uranium tip
fiber-bismuth clamp ore
sodium uranium ore
water spot uranium ore
water silk uranium ore
water pitch uranium ore
English corresponding words
Ridiouctive minerals and radloactive nineral deposit
Radinactive minerals
Iranium mincrals
Sirrple tetravalent ureriun axictesUraninite
Pitchblende
Relict uraniun black
Thorium-bcaring pitehblende
Camplex 1eiravalen uraiut DxidesBranncritc||tt| |Orthobranner:te
Davicite
Belafite
Pelsr:hekitc:
Liandratite
Sedovite
Mourite
Uranopol yerase
Tetravalent uranium silicateCoffinite
'Fetravalent. uzanium. phosphatesNingyoite | ||Vandendrieasrheite
Wolsendorfite
Curite
Masuyite
Roubaultite
Bauran aile
Caltsuranoite
Mctacalisuranoite
Liranosphaerite
Clarkeite
Ianthinite
Suudite
Hycronasturan
Data item
Data value
Water pliers
Variation of water silk uranium
Pu barium uranium
Drill steel ore
Axyl silicate
Silicon calcium uranium ore
Beta silicon calcium uranium ore
Silicon magnesium uranium ore
Silicon copper uranium ore
Silicon barium ore| |tt||Silicon-lead uranium ore
Silicon-potassium uranium ore
Silicon-uranium ore
Shang silicon-potassium clamp ore
High silicon calcium axle ore
Calcium water silicon bell ore
Magnesium water silicon axle ore
Silicon-sodium uranium ore
Silicon-potassium aluminum clamp ore
Silicon diamond button ore
Si silicon uranium ore
Fine acyl phosphate| |tt||Calcium uranium mica
Changes to calcium cloud boat
Copper uranium mica
Changes to copper uranium mica
Bismuth clamp mica
Changes to barium button mica
Magnesium uranium mica
Aluminum uranium mica
Changes to aluminum uranium cloud disk
Manganese uranium mica
Iron clamp mica
Lead aluminum mica||tt ||Uranium mica
Sodium uranium mica
Metapotassium axial mica
Ammonium clamp mica
Uranium phosphate
Huanglin lead sodium ore
Granulinite
Hydroxylin lead axial mica
Uranium phosphate
Phosphorite
Pseudocalcium mica
Wurong mine
Uranium phosphate
GB/T10630—1997
English corresponding words
Urgite
Metastudtitc
Protasite
Sayrite
Uranyl silicetes | ursilite
Magmesiumursilite
Soliun bolt woudite
Uranosilite
Oursinite
Swamboite
Uranyl phosphates | tt||Prrhevalskite
Chernikovite
Sodium autunite
Metaankoleite
Uramphile
Phosphurany.ite
Renardite
ewinatite
Dumontite
Kivuite
Parsosite
Phurcalite
Bergenite
Pseudoautunile
Furongite
Vyacheslavite
Furongite
Data Item Data Value
Phurcalite
Phurcalite
Phurcalite
Phurcalite
Phurcalite| |tt||Phosphorus manganese uranium ore"
Yingjiang Chuang Mine
Phosphorus iron uranium ore
Phosphorus neodymium fine ore
British phosphorus lead uranium agent
Uranium yl arsenate
Arsenic mica
Calcium clamp
Cuisha copper mine
Arsenic axis
Magnesium arsenic uranium cloud Dan
Magnesium arsenic Chuang mica
Sodium monument tin mica
Potassium arsenic uranium cloud disk
Barium arsenic clamp cloud
Arsenic uranium debi
Cobalt arsenic axis mica
Iron arsenic axis mica
Zinc arsenic uranium cloud year||t t||Arsenic pliers mica
Hydrogen arsenic pliers cloud call
Broken uranium ore
Broken calcium shovel
Shenzuan ore
Oblique broken diamond ore
Broken pliers ore
Complex arsenic magnesium uranium ore
Uranyl vanadate
Vanadium calcium axis brick
Metavanadium calcium ore
Wa barium uranium ore
Lead uranium ore
Vanadium sodium ore
Vanadium cobalt uranium ore
Vanadium potassium shovel
Vanadium aluminum uranium ore
Metavanadium aluminum ore
Vanadium uranium base
Red vanadium calcium etchant
Vanadium Lithium uranite
Axyl carbonate
Carbonate
Hydrocarbonite
Carbonate
Black magnetic calcium ore
GB/T10630-1997
English Correspondence
Tlrichite
Althupite
Lehnerite
Yingjiangite
Vochtenite
Francoisite
Morcanite
Uranyl arsenates
Lratrspinitc
Metauranoxpinite
Zennerite
Metazcunerite
Novacekile
Metanuwacekite
Sodiun uranuspinite
Abernathyite
Heitrichite
Metaheinrichitc
Metakirchheimeritu
Metakahleriie
Metaludevite
Arscnuranospalhile
Hydrogen-urunospinite
Trocgerite||tt ||Arsenurunylite
Hucgelite
Hallimondite
Waipurgite
Seelite
Uranyl vanadates
Tyuyamunile
Metal yuyumunitc
Frucevillite
Curitnite
St relkinite
Vanuranylie
Carnotite
Vazuralie
Melnvanuralite
Surgierite
Uvaniie
Rauvite
Ferghanite
Margaritasite
Uranyl curbonales
Rutherfordine:
Sharpite
Jolitite
/Wyartite
Data Value
Data Item
Black Carbonite
Carbonite
Metacarbonite
Carbonite
Carbonite
Carbonite
Carbonite
None Carbon calcium uranium ore
Carbon calcium uranium zinc ore
Carbon calcium rare earth uranium ore
Rare upper carbon uranium ore
Carbon neodymium yttrium uranium ore
Cyanide sulfate
Potassium uranium alum
Sodium uranium alum
Cobalt uranium alum
Nickel uranium alum
Zinc uranium alum
Water vegetable uranium ore
B water sulfur ore
Calcium uranium alum
Uranyl salt
Molybdenum uranium ore
Molybdenum magnesium uranium ore
Molybdenum calcium uranium ore
Molybdenum sodium uranium ore
Biamolite
Tengjianite
Molybdenum copper uranium Ore
Axyl selenite
Lead-copper-uranium ore
Selenium ore
High-selenium copper-uranium brick
Selenium-copper donkey
Selenium-uranium ore
Axyl selenite
Tellurium-lead uranium ore
High tellurium ore
Tellurium contact ore
Axyl sulfide carbonate
Uranium carbonate
GB, T10630199
English corresponding words
Parawyartite
Zellerite
Metazelleritc
Bayleyite
Swartzite | locyanile
Kamafoite
Ueanyl sulphates
Zippeite
Sodiun zippeite
Cuball zippeite
Nickel zippeite
Zinc zippeite
Uranopilite
Beta-uranopilite
Johannize
Rabejacite
Lranyl malybdates||tt| |Umohaite
Magesium umohoitc
Calcurmolite
Sodium umohoite
Iriginit:
Moluranite
Tengchongite
Deloryite
Uranyl selenites
Demes maekurite
Guilleminite
errikxitr
Marthozite
Haynesite
Uraryl tellurites
Moctezumite
Clitfordite
Schmitterite
Lranyl sulphale-carbonates
Sebruekingerite
Data item
Data value
Uranyl acid-phosphate
Zhejiang Qiang Mine
Iron-lead-sulfur Phosphate saw ore
porcelain phosphorus iron ore
uranyl wall salt
Jinluo calcium clamp
acyl arsenate-phosphate
Arsenic, phosphorus, aluminum, uranium
Phosphorus, arsenic, lead, bismuth ore
Uranyl magnetic slow-base salt
Rare silicon-carbon ore
To be complete Uranium Yiwei
Uranium-containing colloid ore
Pyrite
Molybdenum-containing colloid sulfide-molybdenum ore
Copper-containing alphite
High Ridgestone
Uranium-containing filter well stone
Water-containing cloud
Containing opal
Containing uranium jade hoop
Containing Chuangkui iron furnace
Containing uranium kongzhao stone
Containing chain alum stone
Containing chain sharp diamond ore|| tt||Containing rutile
Containing uranium graystone
Green layer cerium titanium ore
Lengshi pyrochlore
Containing uranium lead
Crane Saw shovel
yellow code
fine product
Black rare gold deposit
Borrerystal fluorite
Borrerystal calcite
Aureobasidium chlorite
Oxidation of needle minerals
Material
Guanping Stone
Iron Needle Stone
Iron Zirconium Cloth"
Titanium Cylinder Ore
Lead Uranium Needle Ore
Needle Silicate
Uranium quartz
GB/T 10630— 1997
Charcoal equivalent
L.ranyl sulpha phosphalts
Xiangjisngite
Caconinniie
Trisiramic
Uranyi lungstute||tt ||L'r.otungstitt.
Lranyl arsenmatephosphates
Kamitugeite
Asseibornite
Lrisiyl tarbeate-silitaes
Lepcrsonite
Metin U bearing mincrals
U-bearirg collophane
U-hesring pyrir
U-bearing jurdisite
TI-bearing nllopha::
U-hearing kaolinite
U- bcaring dickite
U-bearing hydreiniea
U-tearing opal
E.-bearing chelereeuy| |tt||L bearing siderite
E-bearing malachite
ti-bearing aJunmstome
Li bearing analunt.
U-besring ratile
U bcering apatile
Rirkalite
U bearing pyroehlor
J hearirg zircon
Feigusonite
Formanise
Microlite
Acschynitt.
Tantulite
Euxenite
L-bearing fluorite.|| tt||UT-bearing calite
: l-bearing rhlorite
Thorium minerals
Thoriur: oxides
Thntianila
Thurutite
Zirk -lite
Yttrocras:te
Aleiartitc
Thurium silirutes
Thurite
Uranthorite
Data item
Data value
FKBAAA
FKBAAB
FKRAAC
FKBAAD
Phosphate of iron needle stone
Clinophorite
Hydroxy-sylphite
Phosphate of hydrophosphate lead needle stone
Radioactive deposit
Uranium deposit
Genesis type of dynamic deposit
Endogenous uranium deposit
Magma Type Zhao deposit
Contact metasomatic axis deposit
Hydrothermal uranium deposit
Volcano-thermal Xiao-type clamp ore beads
Volcano-sedimentary uranium deposit
Wainiulian deposit
Shenke type uranium deposit
Sedimentary diagenetic type uranium deposit
Hydrogenetic uranium deposit
Weathering crust type uranium deposit
Lin Accumulative platinum deposit
Evaporative uranium deposit Song
Metamorphic uranium deposit
Metamorphic axis deposit
Ultra-metamorphic bell shovel deposit
Metamorphic Hydrothermal sodium ore Qing
GB/T 10630--1997
English equivalent
Ferrithorie
Huttonite
Thorogummite
Thorium phosphates
Gayitt
Rudioactive ore depcsit
Uraniun deposit
Genetic types of uranium depositEndogenic uraninm deposit
Magmatie: type uranium dcpositContact-metasomatic type uranium depasid
Hydrothermal type uranium depositVolcanogenie: hydrothermal type uranium depos.t ||tt | uraniutm depasitInfiltration type uranjum depositEvaparation typc ranium depositMetamorphic lype uranium depositMelalrorphosed type uranium deposilUitrametamcrphic type uranium deposit
Melatiorphie hydrathermal type urani-sedimentary metamorphic axis deposit
other genetic types of uranium deposits
Maiyuan complex type sodium deposit
superimposed remodeling bed
complex multi-stage uranium deposit
Stratabound uranium deposit
Axis deposit industrial type
Igneous rock type uranium deposit
Granite type platinum deposit
Porphyry type axis deposit
alkaline rock type deposit
mixed granite type uranium deposit
Weipinhao type platinum deposit
um deposit
Seditmentary-metamorphic type urani-urn deposit
Other genetir. rypes of uraniutn depositUraniuni deposit of multiple saurce andpolygenesis type
Superimposed reworking type uraniumdeposit
Uraniurr deposit of mulliple geuesis-multiple stage type
Stratabuud type uraniun depositCommercial types of uranium depusitMagmatite type uranium depositAlaskite type uraniumn depositPorphyry type uraniuin depositAlkalic rock lype uraniun depusitIMigmatitic graniteAype uranium deposit
Pegmatite type uranium deposit remarks
data variable
data value
silica type uranium deposit
granite uranium shovel bed
GB/T 70630 1997| |tt||English word
Skarn iype urunium depusit
Granite typc uranium deposit micro-quartz type platinum deposit
siliceous vein type uranium deposit
fracture altered rock type sodium deposit
granite outer zone type pyroclastic deposit
alkali Metasomatic ore deposit
Volcanic rock deposit
Igneous lava uranium deposit
Subvolcanic rock axial deposit
Microcrystalline porphyry uranium deposit||tt| |Volcaniclastic type uranium deposit
Volcaniclastic sedimentary type uranium depositwwW.bzxz.Net
Sandstone type uranium deposit
Microcrystalline quartztype uranium deposit
Siliceous vein type lranium depositCalaclastir: aliered rock type uraniumdeptssit
Granite exoconiact zone type uraniumdetosit
Alkalic-metascimtie type: urarniurn de-posit
Volcanic rock ty pe uraniurn depusitVolcanie laivu type uranium deposiSuh-voleanic ruek tyne uranium depositMiururrystalline granite-porphyry 1ypeuraniurn depnsit
Pyroclastic rack lype uraniunr .deposilPyroclaslic: sedimcntary roek type uranium deposit
Sandstone type uranium depasit interlayer oxidized zone type sandstone uranium deposit,　
Interlaycr oxidized zone lype sandstone bed
Guhexiao sandstone uranium deposit
Uranium-bearing coal-type uranium deposit
Asphalt-bearing conglomerate-type uranium deposit
Conglomerate-type steel shovel bed||tt| |Humus-bearing sandstone-type uranium deposit
Carbon-silicon mudstone-type bell deposit
Black material-type bell deposit
Carbonate-type sodium deposit
Thin-layer carbon-silicon mudstone type deposit
marl-type uranium deposit
phosphorite-type axis deposit
quartz-type deposit
strain-uranium type deposit
unconformity Vein-type sodium deposits
including Zhibaigui-type alumina deposits
except Qixilu rock-type alumina deposits
[calcium conglomerate-type alumina deposits
weathering crust-type tweezers Mineral Fruit
uraniun deposit
Palcochannel type sandstone uraniumrlesit
Uraniferous coal type uranium depositBituminous sandy-conglomerate type u.ranium depasit.
Sandy-cungloricrate lype urarium de-posit
Uriniferous humus sandstone type ura-nium deposil
Carbonate-siliccous pelitic rock type u-ratiur. deposit
Black shale type uraniur. ||Marl rype uranium deposit
Phaspharite type uranium depusitQuartzite type uran.um depositIron-lraniurn type ceposit.
Uncunformity type Jranium depositIIron-bear.ng quartzite type uraniutn deposit
Uranium and gold-hearing conglomeratc type uraniun deposit
Calerete lype uranium depositWeaiheting crust type uraniurn depositRemarks
Number of data values
GB/T 10630-- 1997
English Corresponding Words
Pegmatite Granite Type Deposits
Siliceous Breccia Type Deposits
Concrete Type Uranium Deposits
Deposits Rain Rock Alteration
Alkaline Interchange
Steel Metasomatism
Albasite Flower
Alkaline Pyroxiteization
Kermitization
Steel Amphiboleization
Potassium Feldsparization
Orthoclase
Microcline Felsopyrite
Cryoliteization
Muscoviteization
Rope Mica
Governite-Hydromicaization
Dipiantization
Kaolinite
Montmorillonite
Alumite
Viscosity
Nepheline
Heatite
Chlorite
Rosparite
Hematite
Pyrite
Lippite
Yellow iron quartz
Chalcedony
Eggstone
Impalite
Greeminite
Electrification
Carbonation
Calcitization
Domelitite
Green panite
Metaandesite
Serpentinite
Zeolite
Barite
Collophane mineralization
Pegmatite: eranite 1ype uranium depasit
Silirie hreceia type uranium depositGypcrete ly urariutn deposilWallrockalterationofuraniumdepusitAlkalic metasormatism
Sodic metasomatism
Alkalinepyroxenization
Aegirinization
Osannitization
Polashfrldspathizr.lion
Orihoclasization
Microlinization
Adularization
Mustovitizationl
Sericitization
llite-hyd rurnicuzatiort
Dickitization
Kaolinization
Montmorillonization
Alunitization
Clayization
Arsillization
Nephelinization
Bintitization
Epidotizaticn
Chloritizaxion
Fluoritization
Red-colour alteration
Hemutitization
Pyritization
Marcaritization
Berasitization
Sihieificatian
Chalcedonization
Opalizatian
Jaspcroidization
Greiscnizutior
Tour malirization
Carbonatization||t t||Cakiization
Dolomitization
Propylitizatiun
Meta-andesitization
Serpentiniza tit:n
Zeolitization
Barinization
Cullophanization
Data item
Data value
Fading
Alkalineamphibolization
Skarnization
Sodium skarnization
Decarbonization
Mineral paragemetic assciation of uranium shovel beds
GB/T 10630 -- 1997
Corresponding words
Derolnrization
Alkalineamphibolization
Skarniaa:ion
Saussuritization
Decarbonizatinn
Mineral paragemetic assciation of Pitchblende-microcline-hcmatite
Association
Assarialion
pitehblende-albite
pitchblende jordisitc
Association of pitchllende.Co,Ni arsenide quartz
Associatjon
cuarlz
pitchblende-pyrite-
Association ol pitchblende Cu, Ph, Zn sulfide association
Lakkenite-chalcopyrite association
Pitchforkite-chalcopyrite association
Pitchforkite-apatite association
Lakyou uranium ore (uranium stone) quartz-
sulfide association
Pitchforkite-sericite association
Pitchforkite (cobaltite) chalcedony
Lakinite-cinnabar-chalcedony group
Lakxingite-hematite-mucilage
Mineral association
Pitchforkite-calcite nephrite
Pitchforkite-dongshi sulfide
Crystalline uranium ore-cobalt, nickel arsenide
Titanium uranium ore-hematite biotite
Crystalline uranium ore-allantite group
sulfide
I Association of pichhlende chloriteAssociatiun cf pitchblende-chalcopyriteAssociation of pitchhlende-apatiteAssociatiun o:pitchblende (coffinie)quartz sulfide
Association nf pitrhblende-sericiteAssociation of pirchblende (coffinite)chalcedony
Associationof
f pitehblende-cinnahar
chalcedony
Association f uraninite Co, Nisenide||tt ||Association of brannerite-hematitc-bi.otite
Asaoriation of uraninite-allanite crystalline uranium ore-magnetite-hematite
Assurixtion
ore group
titanium uranite-zircon-apatite
lanthanum Platinum-ilmenite-ilmenite-black
Remove the mother group
Asphalt axis ore-collophane combination
Leak sound uranium code-wolframite combination||tt| |Quality ore natural gold combination
Asphalt clamp ore-galena combination
hematie
raninite magnelite-
Association of brannerite-zircct-patiteAssociation of daviditc-ilmerite- BiotiteAssociation of pitch-blend collophaneTAsuccession of pitch-blendc-wolframiteAssociation of uraninite-nalive guldAssociation of Pitchblend galenaRemarks
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