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The content of titanium in the earth

The content of titanium in the earth, Total:50 items.

In the international standard classification, The content of titanium in the earth involves: Non-ferrous metals, Metalliferous minerals, Radiocommunications, Geology. Meteorology. Hydrology, Soil quality. Pedology, Microbiology, Space systems and operations, Mobile services, Solar energy engineering.

Association Francaise de Normalisation, The content of titanium in the earth

NF A06-657:1993 Chemical analysis of titanium and titanium alloys. Determination of zirconium content in Ti-AI-ZR alloy. Gravimetric method with bromomandelic acid.
NF EN 27627-4:1993 Métaux-durs - Analyse chimique par spectrométrie d'absorption atomique dans la flamme - Partie 4 : dosages du molybdène, du titane et du vanadium à des teneurs comprises entre 0,01 et 0,5 % (m/m).
FD X31-611-2:1999 Qualité du sol - Méthodes de détection et de caractérisation des pollutions - Partie 2 : guide général pour l'utilisation de méthodes géophysiques en criblage de terrain
NF Z86-460/A1*NF ETS 300460/A1:1999 Satellite Earth Stations and Systems (SES). Maritime Mobile Earth Stations (MMESs) operating in the 1,5/1,6 GHz bands providing Low Bit Rate Data Communications (LBRDCs) for the Global Maritime Distress and Safety System (GMDSS). Technical characteristics

CZ-CSN, The content of titanium in the earth

CSN 44 1793-1983 Iron ores, concentrates, aglomerates and pellets. Determination of titanium (IV) oxide. The photometric method

RU-GOST R, The content of titanium in the earth

GOST 18262.6-1988 Titanomagnetite ores, ironvanadium concentrates, agglomerates and pellets. Methods for determination of aluminium oxide

International Telecommunication Union (ITU), The content of titanium in the earth

ITU-R SF.1707-2005 Methods to facilitate the implementation of large numbers of earth stations in the FSS in areas where terrestrial services are also deployed
ITU-R SM.1681-2004 Measuring of low-level emissions from space stations at monitoring earth stations using noise reduction techniques
ITU-R SF.1707 SPANISH-2005 Methods to facilitate the implementation of large numbers of earth stations in the FSS in areas where terrestrial services are also deployed
ITU-R SF.1484-1-2002 Maximum allowable values of power flux-density at the surface of the Earth produced by non-geostationary satellites in the fixed-satellite service operating in the 37.5-42.5 GHz band to protect the fixed service
ITU-R SF.1573-2002 Maximum allowable values of power flux-density at the surface of the Earth by geostationary satellites in the fixed-satellite service operating in the 37.5-42.5 GHz band to protect the fixed service
ITU-R SA.1273 FRENCH-1997 POWER FLUX-DENSITY LEVELS FROM THE SPACE RESEARCH, SPACE OPERATION AND EARTH EXPLORATION-SATELLITE SERVICES AT THE SURFACE OF THE EARTH REQUIRED TO PROTECT THE FIXED SERVICE IN THE BANDS 2 025-2 110 MHz AND 2 200-2 290 MHz
ITU-R SA.1273 SPANISH-1997 POWER FLUX-DENSITY LEVELS FROM THE SPACE RESEARCH, SPACE OPERATION AND EARTH EXPLORATION-SATELLITE SERVICES AT THE SURFACE OF THE EARTH REQUIRED TO PROTECT THE FIXED SERVICE IN THE BANDS 2 025-2 110 MHz AND 2 200-2 290 MHz
ITU-R S.1256 SPANISH-1997 METHODOLOGY FOR DETERMINING THE MAXIMUM AGGREGATE POWER FLUX-DENSITY AT THE GEOSTATIONARY-SATELLITE ORBIT IN THE BAND 6 700-7 075 MHz FROM FEEDER LINKS OF NON-GEOSTATIONARY-SATELLITE SYSTEMS IN THE MOBILE-SATELLITE SERVICE IN THE SPACE-TO-EARTH DIRECTION
ITU-R SF.1320 FRENCH-1997 MAXIMUM ALLOWABLE VALUES OF POWER FLUX-DENSITY AT THE SURFACE OF THE EARTH PRODUCED BY NON-GEOSTATIONARY SATELLITES IN THE FIXED-SATELLITE SERVICE USED IN FEEDER LINKS FOR THE MOBILE-SATELLITE SERVICE AND SHARING THE SAME FREQUENCY BANDS WITH RADIO-RELAY
ITU-R SF.1320 SPANISH-1997 MAXIMUM ALLOWABLE VALUES OF POWER FLUX-DENSITY AT THE SURFACE OF THE EARTH PRODUCED BY NON-GEOSTATIONARY SATELLITES IN THE FIXED-SATELLITE SERVICE USED IN FEEDER LINKS FOR THE MOBILE-SATELLITE SERVICE AND SHARING THE SAME FREQUENCY BANDS WITH RADIO-RELAY
ITU-R INFORME SF.2046 SPANISH-2004 Determination of the interference potential, and its possible reduction by mitigation techniques, between earth stations in the fixed-satellite service operating with non-geostationary satellites and stations in the fixed service in the 18/19 GHz band
ITU-R RAPPORT SF.2046 FRENCH-2004 Determination of the interference potential, and its possible reduction by mitigation techniques, between earth stations in the fixed-satellite service operating with non-geostationary satellites and stations in the fixed service in the 18/19 GHz band
ITU-R REPORT SF.2046-2004 Determination of the interference potential and its possible reduction by mitigation techniques between earth stations in the fixed-satellite service operating with non-geostationary satellites and stations in the fixed service in the 18/19 GHz band
ITU-R BO.1898-1-2012 Power flux-density value required for the protection of receiving earth stations in the broadcasting-satellite service in Regions 1 and 3 from emissions by a station in the fixed and/or mobile services in the band 21.4-22 GHz

NL-NEN, The content of titanium in the earth

NEN-ISO 7627-4:1993 Hardmetals. Chemical analysis by flame atomic absorption spectrometry. Part 4: Determination of molybdenum, titanium and vanadium in contents from 0,01 to 0,5 % (m/m) (ISO 7627-4:1983)
NEN-ISO 7627-5:1993 Hardmetals. Chemical analysis by flame atomic absorption spectrometry. Part 5: Determination of cobalt, iron, manganese, molybdenum, nickel, titanium and vanadium in contents from 0,5 to 2 % (m/m) (ISO 7627-5:1983)

(U.S.) Joint Electron Device Engineering Council Soild State Technology Association, The content of titanium in the earth

JEDEC JEP151-2015 Test Procedure for the Measurement of Terrestrial Cosmic Ray Induced Destructive Effects in Power Semiconductor Devices

RO-ASRO, The content of titanium in the earth

STAS 11771/10-1990 Natural radionuclides with pollution potential obtained from ores and coals. Natural uranium content determination under working places environment

Anhui Provincial Standard of the People's Republic of China, The content of titanium in the earth

DB34/T 2127.9-2014 Analytical methods of regional geochemical survey samples Part 9: Determination of tungsten and molybdenum content by catalytic polarography
DB34/T 2127.10-2014 Analytical methods for samples from regional geochemical surveys - Part 10: Determination of fluorine content by the ion selective electrode method
DB34/T 2127.11-2014 Analytical methods of regional geochemical survey samples - Part 11: Determination of silver, boron, tin and lead content by emission spectrometry
DB34/T 2127.4-2014 Methods of Analytical Samples for Regional Geochemical Surveys Part 4: Determination of Multielement Content by Plasma Mass Spectrometry
DB34/T 2127.12-2014 Methods of Analysis of Samples for Regional Geochemical Surveys - Part 12: Chemical Treatment - Determination of Gold Content by Emission Spectrometry
DB34/T 2127.2-2014 Methods of Analysis of Samples for Regional Geochemical Surveys Part 2: Determination of Multielement Content by X-ray Fluorescence Spectrometry
DB34/T 2127.7-2014 Analytical methods of regional geochemical survey samples Part 7: Determination of arsenic, antimony, bismuth and mercury by atomic fluorescence spectrometry
DB34/T 2127.5-2014 Methods of Analytical Samples for Regional Geochemical Surveys Part 5: Determination of Gold Content by Foam Adsorption-Plasma Mass Spectrometry
DB34/T 2127.8-2014 Methods of Analysis of Samples for Regional Geochemical Surveys - Part 8: Determination of Multielement Content by Flame Atomic Absorption Spectrometry
DB34/T 2127.3-2014 Methods of Analytical Analysis of Samples for Regional Geochemical Surveys Part 3: Determination of Multielement Content by Inductively Coupled Plasma Spectroscopy
DB34/T 2127.6-2014 Methods of Analysis of Samples for Regional Geochemical Surveys Part 6: Determination of Gold Content by Foam Adsorption-Graphite Furnace Atomic Absorption Spectrometry

European Committee for Standardization (CEN), The content of titanium in the earth

EN ISO 12782-5:2012 Soil quality - Parameters for geochemical modelling of leaching and speciation of constituents in soils and materials - Part 5: Extraction of humic substances from aqueous samples
EN ISO 7899-1:1998/AC:2000 Water quality - Detection and enumeration of intestinal enterococci in surface and wastewater - Part 1: Miniaturized method (Most Probable Number) by inoculation in liquid medium (ISO 7899-1:1998)
EN 12542:2002 Static Welded Cylindrical Tanks, Serially Produced for the Storage of Liquefied Petroleum Gas (LPG) Having a Volume Not Greater Than 13m3 and for Installation Above Ground - Design and Manufacture Incorporates Amendment A1: 2004

British Standards Institution (BSI), The content of titanium in the earth

BS EN ISO 12782-5:2012 Soil quality. Parameters for geochemical modelling of leaching and speciation of constituents in soils and materials. Extraction of humic substances from aqueous samples

未注明发布机构, The content of titanium in the earth

DIN EN 303980:2018 Satellite earth stations and systems (SES) – Harmonized EN for fixed and mobile earth stations for communication with non-geostationary satellite systems (NEST) in the frequency bands from 11 GHz to 14 GHz, which contains the essential requirements accord

ITU-R - International Telecommunication Union/ITU Radiocommunication Sector, The content of titanium in the earth

ITU-R SF.1484-2000 Maximum Allowable Values of Power Flux-Density at the Surface of the Earth Produced by Non-Geostationary Satellites in the Fixed-Satellite Service Operating in the 37.5-40.5 GHZ and 40.5-42.5 GHz Bands to Protect the Fixed Service
ITU-R SF.358-4-1993 Maximum Permissible Values of Power Flux-Density at the Surface of the Earth Produced by Satellites in the Fixed-Satellite Service Using the Same Frequency Bands Above 1 GHz as Line-of- Sight Radio-Relay Systems
ITU-R SF.358-3-1982 Maximum Permissible Values of Power Flux-Density at the Surface of the Earth Produced by Satellites in the Fixed-Satellite Service Using the Same Frequency Bands Above 1 GHz as Line-of- Sight Radio-Relay Systems - Section 4/9A - Sharing Conditions

PL-PKN, The content of titanium in the earth

PN Z04037-10-1987 Air purity protection Tests for chlorine Determination of chlorine content in the ambient air (imision) by spectrophotometric method with methyl orange

International Organization for Standardization (ISO), The content of titanium in the earth

ISO 12782-5:2012 Soil quality - Parameters for geochemical modelling of leaching and speciation of constituents in soils and materials - Part 5: Extraction of humic substances from aqueous samples
ISO 12208:2015 Space systems - Space environment (natural and artificial) - Observed proton fluences over long duration at GEO and guidelines for selection of confidence level in statistical model of solar proton fluences
ISO/TS 12208:2011 Space systems - Space environment (natural and artificial) - Observed proton fluences over long duration at GEO and guideline for selection of confidence level in statistical model of solar proton fluences

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, The content of titanium in the earth

GB/T 17683.1-1999 Solar energy--Reference solar spectral irradiance at the ground at different receiving conditions--Part 1: Direct normal and hemispherical solar irradiance for air mass 1.5

Korean Agency for Technology and Standards (KATS), The content of titanium in the earth

KS B ISO 9845-1:2018 Solar energy — Reference solar spectral irradiance at the ground at different receiving conditions — Part 1: Direct normal and hemispherical solar irradiance for air mass 1.5

KR-KS, The content of titanium in the earth

KS B ISO 9845-1-2018 Solar energy — Reference solar spectral irradiance at the ground at different receiving conditions — Part 1: Direct normal and hemispherical solar irradiance for air mass 1.5