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critical difference and critical range

critical difference and critical range, Total:310 items.

In the international standard classification, critical difference and critical range involves: Gas and steam turbines. Steam engines, Nuclear energy engineering, Power stations in general, Company organization and management, Valves, Testing of metals, Water quality, Road vehicle systems, Conducting materials, Alarm and warning systems, Pharmaceutics, Construction materials, Radiation measurements, Iron and steel products, Electricity. Magnetism. Electrical and magnetic measurements, Aerospace fluid systems and components, Processes in the food industry, Industrial automation systems, Products of the chemical industry, Edible oils and fats. Oilseeds, Raw materials for rubber and plastics, Semiconductor devices, Linear and angular measurements, Materials for aerospace construction, Measurement of fluid flow, Medical sciences and health care facilities in general, Analytical chemistry, Terminology (principles and coordination), Geology. Meteorology. Hydrology, Welding, brazing and soldering, Thermodynamics and temperature measurements, Burners. Boilers, Surface treatment and coating.

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, critical difference and critical range

• GB/T 28559-2012 Supercritical and ultra-supercritical turbine.Blades
• GB/T 28558-2012 Supercritical and ultra-supercritical generating set parameter series
• GB/T 31780-2015 Critical temperature measurement.Critical temperature of composite superconductors by a resistance method
• GB 15146.5-1994 Nuclear criticality safety for fissile materials outside reactors-Nuclear criticality control criteria and subcritical limits for plutonium-natural uranium mixtures
• GB 12787-1991 Warning equipment for criticality accidents
• GB/T 12787-1991 Warning equipment for criticality accidents
• GB 15847-1995 Dosimetry for criticality accidents
• GB 15146.1-1994 Nuclear criticality safety for fissile materials outside reactors-Administrative regulation for nuclear criticality safety
• GB/T 42472-2023 Critical current measurement of retained critical current after double bending of silver-coated Bi-2223 superconducting wire at room temperature
• GB/T 44371-2024 Critical bending diameter measurement Critical bending diameter measurement of Bi-2223 superconducting tape in liquid nitrogen temperature zone
• GB/T 15146.11-2004 Nuclear criticality safety for fissile materials outside reactor Nuclear Criticality Safety Based on Limiting and Controlling Moderators
• GB 15146.7-1994 Nuclear criticality safety for fissile materials outside reactors-Safety contols in conducting subcritical neutron multiplication measurements in situ
• GB 15146.1-2008 Nuclear criticality safety for fissile materials outside reactors.Part 1:Administrative parctices for nuclear criticality safety
• GB 15146.3-1994 Nuclear criticality safety for fissile materials outside reactor-Requirements for nuclear criticality safety in the storage of fissile material
• GB/T 41640-2022 Critical current measurement—Measurement of critical current and its uniformity along the length of 2G-HTS long tapes
• GB 15146.3-2008 Nuclear criticality safety for fissile materials outside reactors.Part 3: Requirements for nuclear criticality safety in the storage of fissile materials

Korean Agency for Technology and Standards (KATS), critical difference and critical range

• KS A ISO 27467-2012(2022) Nuclear criticality safety－Analysis of a postulated criticality accident
• KS A ISO 27467-2022 Nuclear criticality safety－Analysis of a postulated criticality accident
• KS A ISO 27467:2012 Nuclear criticality safety－Analysis of a postulated criticality accident
• KS A ISO 27467-2012(2017) Nuclear criticality safety－Analysis of a postulated criticality accident
• KS A ISO 16117:2017 Nuclear criticality safety — Estimation of the number of fissions of a postulated criticality accident
• KS A ISO 16117-2022 Nuclear criticality safety — Estimation of the number of fissions of a postulated criticality accident
• KS A ISO 16117-2017(2022) Nuclear criticality safety — Estimation of the number of fissions of a postulated criticality accident
• KS A ISO 11320:2014 Nuclear criticality safety — Emergency preparedness and response
• KS A ISO 11320-2019 Nuclear criticality safety — Emergency preparedness and response
• KS C IEC 61788-1-2020 Superconductivity－Part 1：Critical current measurement－DC critical current of Cu/Nb-Ti composite superconductors
• KS D 0406-2004 Superconductivity－Test method－Part 1：Critical current－Section 1：DC critical current of Cu/Nb--Ti composite superconductors
• KS C IEC 61788-1:2009 Superconductivity－Part 1：Critical current measurement－DC critical current of Cu/Nb-Ti composite superconductors
• KS C IEC 61788-1-2009(2020) Superconductivity－Part 1：Critical current measurement－DC critical current of Cu/Nb-Ti composite superconductors
• KS B ISO 13283:2004 Industrial automation-Time-critical communications architectures-User requirements and network management for time-critical communications systems
• KS C IEC 61788-26:2022 Superconductivity — Part 26: Critical current measurement —DC critical current of RE-Ba-Cu-O composite superconductors
• KS C IEC 61788-3-2021 Superconductivity－Part 3：Critical current measurement－DC critical current of Ag－sheathed Bi－2212 and Bi－2223 oxide superconductors
• KS C IEC 61788-3:2002 Superconductivity-Part 3:Critical current measurement-DC critical current of Ag-sheathed Bi-2212 and Bi-2223 oxide superconductors
• KS C IEC 61788-3:2016 Superconductivity－Part 3：Critical current measurement－DC critical current of Ag－sheathed Bi－2212 and Bi－2223 oxide superconductors
• KS C IEC 61788-3-2016(2021) Superconductivity－Part 3：Critical current measurement－DC critical current of Ag－sheathed Bi－2212 and Bi－2223 oxide superconductors
• KS C 6111-2-2005(2020) Superconductivity－Critical temperature measurement－Critical temperature of Nb-Ti, Nb3Sn, and Bi-system composite superconductors by a magnetic method using an ac susceptometer
• KS C 6111-1-2005(2020) Superconductivity－Critical temperature measurement－Critical temperature of Nb-Ti, Nb3Sn, and Bi-system compositesuperconductors by a magnetic method using a SQUID magnetometer
• KS D 0406-1999 Superconductivity－Test method－Part 1：Critical current－Section 1：DC critical current of Cu/Nb--Ti composite superconductors
• KS D 0270-2007(2017) Test methods for critical crevice temperature and/of stainless steels
• KS D 0269-2020 Potentiostatic polarization test method for determination of critical pitting temperature for stainless steels
• KS C 6111-1-2020 Superconductivity－Critical temperature measurement－Critical temperature of Nb-Ti, Nb3Sn, and Bi-system compositesuperconductors by a magnetic method using a SQUID magnetometer

GSO, critical difference and critical range

• GSO ISO 27467:2013 Nuclear criticality safety -- Analysis of a postulated criticality accident
• BH GSO ISO 16117:2017 Nuclear criticality safety -- Estimation of the number of fissions of a postulated criticality accident
• OS GSO ISO 16117:2015 Nuclear criticality safety -- Estimation of the number of fissions of a postulated criticality accident
• OS GSO ISO 11311:2015 Nuclear criticality safety -- Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors
• GSO ISO 11311:2015 Nuclear criticality safety -- Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors
• BH GSO ISO 11311:2017 Nuclear criticality safety -- Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors
• GSO IEC 61788-2:2021 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors
• BH GSO IEC 61788-2:2022 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors
• GSO IEC 61788-10:2014 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method
• OS GSO IEC 61788-1:2014 Superconductivity - Part 1: Critical current measurement - DC critical current of Cu/Nb-Ti composite superconductors
• BH GSO IEC 61788-1:2016 Superconductivity - Part 1: Critical current measurement - DC critical current of Cu/Nb-Ti composite superconductors
• BH GSO ISO 11320:2017 Nuclear criticality safety -- Emergency preparedness and response
• OS GSO IEC 61788-10:2014 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method
• GSO ISO 9300:2024 Measurement of gas flow by means of critical flow nozzles

German Institute for Standardization, critical difference and critical range

• DIN EN ISO 23133:2023-02 Nuclear criticality safety - Nuclear criticality safety training for operations (ISO 23133:2021); English version EN ISO 23133:2022
• DIN 25403-7:1996 Criticality safety in processing and handling fissile materials - Part 7: Criticality data for low enriched uranium dioxide lattices in water
• DIN EN ISO 23133:2023 Nuclear criticality safety - Nuclear criticality safety training for operations (ISO 23133:2021); English version EN ISO 23133:2022
• DIN EN 61788-3:2007 Superconductivity - Part 3: Critical current measurement - DC critical current of Ag- and/or Ag alloy-sheathed Bi-2212 and Bi-2223 oxide superconductors (IEC 61788-3:2006); German version EN 61788-3:2006
• DIN EN 61788-1:2007 Superconductivity - Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors (IEC 61788-1:2006); German version EN 61788-1:2007
• DIN EN 61788-2:2007 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb<(Index)3>Sn composite superconductors (IEC 61788-2:2006); German version EN 61788-2:2007
• DIN 25403 Bb.1:1997 Criticality safety in processing and handling fissile materials - Comments
• DIN EN 61788-10:2007 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method (IEC 61788-10:2006); German version EN 61788-10:2006
• DIN 25403-3:2000 Criticality safety in processing and handling fissile materials - Part 3: Criticality data for plutonium 239 metal light-water-mixtures
• DIN 25403-6:2000 Criticality safety in processing and handling fissile materials - Part 6: Criticality data for plutonium 239 nitrate light-water-mixtures
• DIN 25403-4:1995 Criticality safety in processing and handling fissile materials - Part 4: Criticality data for uranium dioxide light-water mixtures
• DIN 25403-5:2000 Criticality safety in processing and handling fissile materials - Part 5: Criticality data for plutonium 239 dioxide light-water-mixtures
• DIN 25403-2:1995 Criticality safety in processing and handling fissile materials - Part 2: Criticality data for uranium 235 metal light-water mixtures

SCC, critical difference and critical range

• DANSK DS/ISO 23133:2022 Nuclear criticality safety – Nuclear criticality safety training for operations
• NS-EN ISO 23133:2022 Nuclear criticality safety - Nuclear criticality safety training for operations (ISO 23133:2021)
• 07/30151434 DC BS ISO 27467. Nuclear criticality safety. Analysis of a postulated criticality accident
• DANSK DS/EN ISO 23133:2023 Nuclear criticality safety – Nuclear criticality safety training for operations (ISO 23133:2021)
• DIN EN ISO 23133 E:2022 Draft Document - Nuclear criticality safety - Nuclear criticality safety training for operations (ISO 23133:2021); English version prEN ISO 23133:2022
• BS 3598-1:1963 Recommendations for criticality safety in handling and processing fissile materials. Principles of criticality safety
• ANS 8.20-1991(R2020) Nuclear Criticality Safety Training
• 12/30235347 DC BS ISO 16117. Nuclear criticality safety. Estimation of the number of fissions of a postulated criticality accident
• ANS 8.3-2022 Criticality Accident Alarm System
• BS EN 61788-1:1998 Superconductivity-Critical current measurement. DC critical current of Cu/Nb-Ti composite superconductors
• ANS 8.19-2005 Administrative Practice for Nuclear Criticality Safety
• ANS 8.19-2014(R2019) Administrative Practice for Nuclear Criticality Safety
• AWWA SOURCES66704 Tipping Points in Water Conservation
• ANS 8.19-1984(R1989) Administrative Practices for Nuclear Criticality Safety
• CEI EN 61788-2:2007 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors
• DANSK DS/EN 61788-2:2007 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors
• UNE-EN 61788-2:2000 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors
• DANSK DS/EN 61788-1:2007 Superconductivity - Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors
• CEI EN 61788-1:2007 Superconductivity - Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors
• CEI EN IEC 61788-26:2021 Superconductivity Part 26: Critical current measurement - DC critical current of RE-Ba-Cu-O composite superconductors
• UNE-EN 61788-1:1999 SUPERCONDUCTIVITY. PART 1: CRITICAL CURRENT MEASUREMENT. DC CRITICAL CURRENT OF CU/NB-TI COMPOSITE SUPERCONDUCTORS.
• DANSK DS/EN IEC 61788-26:2020 Superconductivity – Part 26: Critical current measurement – DC critical current of RE-Ba-Cu-O composite superconductors
• ANS 8.23-2019(R2024) Nuclear Criticality Accident Emergency Planning and Response
• 09/30179540 DC BS ISO 11311. Nuclear energy. Criticality safety. Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors
• CEI EN 61788-10:2007 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method
• DANSK DS/EN 61788-10:2006 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method
• ANS 8.26-2007(R2022) Criticality Safety Engineer Training and Qualification Program
• 09/30179543 DC BS ISO 11320. Nuclear criticality safety. Emergency prepardness and response
• ANS 8.15-1981(R2005) Nuclear Criticality Control of Special Actinide Elements
• ANS 8.23-2007(R2012) Nuclear Criticality Accident Emergency Planning and Response
• UNE-EN 61788-3:2002 Superconductivity -- Part 3: Critical current measurement - DC critical current of Ag-sheathed Bi-2212 and Bi-2223 oxide superconductors.
• DIN EN IEC 61788-26:2022 Superconductivity - Part 26: Critical current measurement - DC critical current of RE-Ba-Cu-O composite superconductors (IEC 61788-26:2020); German version EN IEC 61788-26:2020
• DANSK DS/ISO 9300:2022 Measurement of gas flow by means of critical flow nozzles
• ANS 8.7-1975 Guide for Nuclear Critically Safey in the Storage of Fissile Materials
• ANS 8.7-2022 Nuclear Criticality Safety in the Storage of Fissile Materials

ES-UNE, critical difference and critical range

• UNE-EN ISO 23133:2022 Nuclear criticality safety - Nuclear criticality safety training for operations (ISO 23133:2021) (Endorsed by Asociación Espa?ola de Normalización in February of 2023.)
• UNE-EN 61788-1:2007 Superconductivity -- Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors. (IEC 61788-1:2006). (Endorsed by AENOR in April of 2007.)
• UNE-EN IEC 61788-26:2020 Superconductivity - Part 26: Critical current measurement - DC critical current of RE-Ba-Cu-O composite superconductors (Endorsed by Asociación Espa?ola de Normalización in October of 2020.)
• UNE-EN 61788-2:2007 Superconductivity -- Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors (IEC 61788-2:2006). (Endorsed by AENOR in April of 2007.)

British Standards Institution (BSI), critical difference and critical range

• BS EN ISO 23133:2022 Nuclear criticality safety. Nuclear criticality safety training for operations
• BS ISO 23133:2021 Nuclear criticality safety. Nuclear criticality safety training for operations
• BS ISO 16117:2013 Nuclear criticality safety. Estimation of the number of fissions of a postulated criticality accident
• 20/30378350 DC BS ISO 23133. Nuclear criticality safety. Nuclear criticality safety training for operations
• BS ISO 21391:2019 Nuclear criticality safety. Geometrical dimensions for subcriticality control. Equipment and layout
• BS ISO 7753:2023 Nuclear criticality safety. Use of criticality accident alarm systems for operations
• BS EN 61788-2:1999 Superconductivity - Critical current measurement - DC critical current of Nb3Sn composite superconductors
• 22/30427890 DC BS ISO 7753. Nuclear criticality safety. Use of criticality accident alarm systems for operations
• BS EN 61788-2:2007 Superconductivity - Critical current measurement - D.C. critical current of Nb3Sn composite superconductors
• BS EN 61788-1:2007 Superconductivity - Critical current measurement - D.C. critical current of Nb-Ti composite superconductors
• BS ISO 11311:2011 Nuclear criticality safety. Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors
• BS 7448-1:1991 Fracture mechanics toughness tests - Method for determination of KIc, critical CTOD and critical J values of metallic materials
• BS EN 61788-10:2006 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method
• BS EN IEC 61788-26:2020 Superconductivity - Critical current measurement. DC critical current of RE-Ba-Cu-O composite superconductors
• BS ISO 11311:2011+A1:2022 Nuclear criticality safety. Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors
• BS EN 61788-3:2001 Superconductivity - Critical current measurement - DC critical current of Ag-sheathed Bi-2212 and Bi-2223 oxide superconductors
• BS EN 61788-3:2003 Superconductivity - Critical current measurement - DC critical current of Ag-sheathed Bi-2212 and Bi-2223 oxide superconductors
• BS ISO 11320:2011 Nuclear criticality safety. Emergency preparedness and response
• BS 7448-1:1991(2002) Fracture mechanics toughness tests — Part 1 : Method for determination of KIc, critical CTOD and critical J values of metallic materials
• 22/30442927 DC BS ISO 11311 AMD1. Nuclear criticality safety. Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors
• BS EN IEC 61788-24:2018 Superconductivity - Critical current measurement. Retained critical current after double bending at room temperature of Ag-sheathed Bi-2223 superconducting wires
• BS EN 61788-10:2003 Superconductivity - Critical temperature measurement - Critical temperature of Nb-Ti, Nb3Sn, and Bi-system oxide composite superconductors by a resistance method
• BS EN 61788-3:2006 Superconductivity - Part 3: Critical current measurement - DC critical current of Ag- and/or Ag alloy-sheathed Bi-2212 and Bi-2223 oxide superconductors
• BS EN 61788-10:2002 Superconductivity - Critical temperature measurement - Critical temperature of Nb-Ti, Nb3Sn, and Bi-system oxide composite superconductors by a resistance method
• BS 7448-2:1997 Fracture mechanics toughness tests - Method for determination of KIc, critical CTOD and critical J values of welds in metallic materials
• 18/30363361 DC BS EN 61788-26. Superconductivity. Part 26. Critical current measurement. DC critical current of RE-Ba-Cu-O composite superconductors
• BS ISO 27468:2011 Nuclear criticality safety. Evaluation of systems containing PWR UOX fuels. Bounding burnup credit approach

International Organization for Standardization (ISO), critical difference and critical range

• ISO 27467:2009 Nuclear criticality safety - Analysis of a postulated criticality accident
• ISO 23133:2021 Nuclear criticality safety - Nuclear criticality safety training for operations
• ISO 7753:2018 Nuclear criticality safety — Use of criticality accident alarm systems for operations
• ISO/FDIS 7753 Nuclear criticality safety — Use of criticality accident alarm systems for operations
• ISO 7753:2023 Nuclear criticality safety — Use of criticality accident alarm systems for operations
• ISO 11311:2011 Nuclear criticality safety - Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors
• ISO 27468:2011 Nuclear criticality safety - Evaluation of systems containing PWR UOX fuels - Bounding burnup credit approach
• ISO 21391:2019 Nuclear criticality safety — Geometrical dimensions for subcriticality control — Equipment and layout
• ISO 9300:2022 Measurement of gas flow by means of critical flow nozzles
• ISO 11311:2011/Amd 1:2022 Nuclear criticality safety — Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors — Amendment 1: Corrections and clarifications
• ISO 11320:2011 Nuclear criticality safety - Emergency preparedness and response

Association Francaise de Normalisation, critical difference and critical range

• NF M60-440*NF ISO 27467:2009 Nuclear criticality safety - Analysis of a postulated criticality accident
• NF ISO 7753:2023 Criticality safety - Criticality detection and alarm systems in the context of operation
• NF M60-445*NF ISO 21391:2019 Nuclear criticality safety - Geometrical dimensions for subcriticality control - Equipment and layout
• NF ISO 11311:2011 Criticality safety - Critical values for homogeneous mixed oxides of plutonium and uranium outside reactors
• NF B10-512:1975 Limestone. Measurement of critical water content.
• NF C31-888-2*NF EN 61788-2:2007 Superconductivity - Part 2 : critical current measurement - DC critical current of Nb3Sn composite superconductors
• NF M60-443*NF ISO 11311:2011 Nuclear criticality safety - Critical values for homogeneous plutonium-uranium oxide fuel mixtures outside of reactors.
• NF EN 61788-1:2007 Superconductivity - Part 1: critical current measurement - Continuous critical current of Nb-Ti composite superconductors
• NF C31-888-2:2001 Superconductivity - Part 2 : critical current measurement - DC critical current of Nb3Sn composite superconductors.
• NF M60-442*NF ISO 11320:2011 Nuclear criticality safety - Emergency preparedness and response
• NF C31-888-1:2002 Superconductivity - Part 1 : critical current measurement - DC critical current of Cu/Nb-Ti composite superconductors.
• NF EN 61788-2:2007 Supraconductivité - Partie 2 : mesure du courant critique - Courant critique continu des supraconducteurs composites Nb3Sn
• NF C31-888-1*NF EN 61788-1:2007 Superconductivity - Part 1 : critical current measurement - DC critical current of Nb-Ti composite superconductors.
• NF T42-020:1977 Determination of the critical thickening temperature of latices.
• NF C31-888-10*NF EN 61788-10:2006 Superconductivity - Part 10 : critical temperature measurement - Critical temperature of composite superconductors by a resistance method
• NF EN IEC 61788-26:2020 Superconductivity - Part 26: measurement of critical current - Continuous critical current of RE-Ba-Cu-O superconducting composites
• NF C31-888-3:2006 Superconductivity - Part 3 : critical current measurement - DC critical current of Ag-sheathed Bi-2212 and Bi-2223 oxide superconductors.
• NF C31-888-3*NF EN 61788-3:2007 Superconductivity - Part 3 : critical current measurement - DC critical current of Ag- and/or Ag alloy-sheathed Bi-2212 and Bi-2223 oxide superconductors.
• NF EN 61788-10:2006 Superconductivity - Part 10: measurement of the critical temperature - Critical temperature of superconducting composites using a resistance method

Professional Standard - Machinery, critical difference and critical range

• JB/T 12001-2014 Valves for the supercritical and ultra-supercritical steam power plants.General requirements
• JB/T 20136-2011 Supercritical CO2 Extraction System
• JB/T 12000-2014 Specification of the forged steel parts for the pressure valves in supercritical and ultra-supercritical steam power plants
• JB/T 9475-1999 Critical temperature resistors
• JB/T 11019-2010 Specification for high pressure and medium pressure rotor forging of steam turbine used for supercritical and ultra-supercritical units
• JB/T 11018-2010 Specification for CrlO stainless steel casting of steam turbine for supercritical and ultra-supercritical units
• JB/T 11020-2010 Specification for low pressure rotor forging of steam turbine made of super-pure steel used for supercritical and ultra-supercritical units

European Committee for Standardization (CEN), critical difference and critical range

• EN ISO 23133:2022 Nuclear criticality safety - Nuclear criticality safety training for operations (ISO 23133:2021)

Group Standards of the People's Republic of China, critical difference and critical range

• T/CEEIA 312-2018 Specification for Safety Valve of Supercritical and Ultra-supercritical Units
• T/SMKX 001-2020 Test of critical water level
• T/GDMA 15-2019 Supercritical Low Temperature Extraction of Camellia Camellia Seed Oil
• T/GDSBME 003-2023 Argy Wormwood Industry Artemisia argyi Essence Liqiud with supercritical fluid extraction
• T/GZHPSPSA 008-2024 Supercritical CO2 extraction of edible vegetable oil
• T/GDSBME 002-2023 Argy Wormwood Industry Artemisia argyi Concrete with supercritical fluid extraction
• T/CACM 1419-2022 TCM diagnosis and treatment guidelines for borderline hypertension
• T/YQAC 0002-2024 Mugwort essential oil (supercritical-molecular distillation method)
• T/GDSBME 004-2023 Argy Wormwood Industry Artemisia argyi Essential Oil with supercritical fluid -molecular distillation extraction

未注明發(fā)布機構(gòu), critical difference and critical range

• DIN EN ISO 23133 E:2022-09 Nuclear Criticality Safety Training for Nuclear Criticality Safety Operations (Draft)
• ANSI/ANS 8.19-2014(2019) administrative practices for nuclear criticality safety
• ANSI/ANS 8.23-2019 Nuclear Criticality Accident Emergency Planning and Response
• ANSI/ANS 8.7-2022 Nuclear Criticality Safety in the Storage of Fissile Materials

American National Standards Institute （ANSI), critical difference and critical range

• ANSI/ANS 8.20-1991 Nuclear Criticality Safety Training
• ANSI/ASME MFC-7-2016 Measurement of Gas Flow by Means of Critical Flow Venturis and Critical Flow Nozzles
• ANSI/ANS 1-2000 Conduct of Critical Experiments
• ANSI N13.3-2013 Dosimetry for Criticality Accidents
• ANSI/ANS 8.19-2005 Nuclear Criticality Safety – Administrative Practices
• ANSI/ANS 8.3-1997 Criticality Accident Alarm System
• ANSI/ANS 8.15-1981 Nuclear Criticality Control of Special Actinide Elements
• ANSI/ANS 8.26-2007 Criticality Safety Engineer Training and Qualification Program

American Society of Mechanical Engineers (ASME), critical difference and critical range

• ASME MFC-7-2016(R2021) Measurement of Gas Flow by Means of Critical Flow Venturis and Critical Flow Nozzles

Professional Standard - Agriculture, critical difference and critical range

• 87藥典 四部-2015 0532 Critical point chromatography
• 68藥典 四部-2020 0532 Critical point chromatography
• 67藥典 四部-2020 0531 Supercritical fluid chromatography
• 86藥典 四部-2015 0531 Supercritical fluid chromatography

American Nuclear Society (ANS), critical difference and critical range

• ANS 1-2000 Conduct of Critical Experiments
• ANS 8.20-1991 Nuclear Criticality Safety Training
• ANS 8.3-1997 Criticality accident alarm system
• ANS 8.19-2014 Administrative Practices for Nuclear Criticality Safety
• ANS 8.19-1996 Administrative Practices for Nuclear Criticality Safety
• ANS 8.23-2007 Nuclear Criticality Accident Emergency Planning and Response
• ANS 8.23-1997 Nuclear Criticality Accident Emergency Planning and Response
• ANS 8.7-1998 Nuclear Criticality Safety in the Storage of Fissile Materials
• ANS 8.7-1998(R2007) Nuclear Criticality Safety in the Storage of Fissile Materials
• ANS 8.15-1981 Nuclear criticality control of special actinide elements

ANS - American Nuclear Society, critical difference and critical range

• 8.20-1991 Nuclear Criticality Safety Training
• 8.3-1979 CRITICALITY ACCIDENT ALARM SYSTEM
• 8.3-1997 Criticality accident alarm system
• 8.3-1986 Criticality Accident Alarm System
• 8.19-1996 Administrative Practices for Nuclear Criticality Safety
• 8.19-1984 Administrative Practices for Nuclear Criticality Safety
• 8.19-2014 Administrative Practices for Nuclear Criticality Safety
• 8.19-2005 Administrative Practices for Nuclear Criticality Safety
• 8.15-1981 Nuclear Criticality Control of Special Actinide Elements
• 8.23-1997 Nuclear Criticality Accident Emergency Planning and Response
• 8.23-2007 Nuclear Criticality Accident Emergency Planning and Response
• 8.7-1998 Nuclear Criticality Safety in the Storage of Fissile Materials

International Electrotechnical Commission (IEC), critical difference and critical range

• IEC 60860:1987 Warning equipment for criticality accidents
• IEC 61788-1:2006 Superconductivity - Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors
• IEC 61788-26:2020 Superconductivity - Part 26: Critical current measurement - DC critical current of RE-Ba-Cu-O composite superconductors
• IEC 61788-1:1998 Superconductivity - Part 1: Critical current measurement - DC critical current of Cu/Nb-Ti composite superconductors
• IEC 61788-2:1999 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb<(Index)3>Sn composite superconductors
• IEC 61788-2:2006 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb<(Index)3>Sn composite superconductors
• IEC 61788-10:2006 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method
• IEC 61788-3:2000 Superconductivity - Part 3: Critical current measurement; DC critical current of Ag-sheathed Bi-2212 and Bi-2223 oxide superconductors

PL-PKN, critical difference and critical range

• PN T01505 ArkusZ02-1974 Field-effect transistors Measuring me?hod Ga?e-source ?hreshold yoltage Ugs (TO)
• PN-EN IEC 61788-26-2021-03 E Superconductivity - Part 26: Critical current measurement - DC critical current of RE-Ba-Cu-O composite superconductors (IEC 61788-26:2020)

Japanese Industrial Standards Committee (JISC), critical difference and critical range

• JIS H 7309:2012 Superconductivity -- Critical temperature measurement -- Critical temperature of composite superconductors by a resistance method
• JIS H 7302:2000 Superconductivity -- Part 2: Critical current measurement -- DC critical current of Nb3Sn composite superconductors
• JIS H 7302:2009 Superconductivity -- Part 2: Critical current measurement -- DC critical current of Nb3Sn composite superconductors
• JIS H 7301:2009 Superconductivity -- Part 1: Critical current measurement -- DC critical current of Nb-Ti composite superconductors
• JIS H 7305:2003 Superconductivity -- Part 3: Critical current measurement -- DC critical current of Ag-sheathed Bi-2212 and Bi-2223 oxide superconductors

Professional Standard - Nuclear Industry, critical difference and critical range

• EJ/T 1074-1998 Criteria for nuclear criticality safety training
• EJ/T 20029-2012 Nuclear Criticality Safety Nuclear Criticality Accident Emergency Preparedness and Response for Fissile Materials Outside the Reactor

CZ-CSN, critical difference and critical range

• CSN 66 8077-1968 Determination oí critical diameter of charge

RO-ASRO, critical difference and critical range

• STAS 1913/16-1975 Foundation ground DETERMINATION OF CRITICAL HYDRAULIC GRADIENT

Society of Automotive Engineers (SAE), critical difference and critical range

• SAE J2969-2024 Use of the Critical Speed Formula
• SAE ARP5796-2013 Flight Critical Control Valves, Military Aircraft
• SAE AMS3652A-1966 POLYTETRAFLUOROETHYLENE FILM Non-Critical Grade
• SAE AMS3652B-2011 POLYTETRAFLUOROETHYLENE FILM Non-Critical Grade
• SAE AMS3652C-1993 Polytetrafluoroethylene (PTFE) Film Non-Critical Grade [Superseded: SAE AMS 3651D]
• SAE AMS3652C-2006 Polytetrafluoroethylene (PTFE) Film Non-Critical Grade

Instrument Society of America (ISA), critical difference and critical range

• ISA TR91.00.02-2003 Criticality Classification Guideline for Instrumentation

SAE - SAE International, critical difference and critical range

• SAE J2969-2017 Use of the Critical Speed Formula
• SAE AMS3652B-1986 POLYTETRAFLUOROETHYLENE FILM Non-Critical Grade
• SAE AMS3652D-2015 Polytetrafluoroethylene (PTFE) Film Non-Critical Grade

國家技術(shù)監(jiān)督局, critical difference and critical range

• GB/T 15847-1995 Dosimetry for criticality accidents
• GB/T 15146.9-1994 Nuclear criticality safety for fissile materials outside reactor--Performanceand testing requirements for nuclear criticality detection and alarm systems

European Committee for Electrotechnical Standardization（CENELEC）, critical difference and critical range

• EN 61788-2:2007 Superconductivity Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors
• EN 61788-1:2007 Superconductivity Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors
• EN IEC 61788-26:2020 Superconductivity - Part 26: Critical current measurement - DC critical current of RE-Ba-Cu-O composite superconductors
• EN 61788-10:2006 Superconductivity Part 10: Critical temperature measurement Critical temperature of composite superconductors by a resistance method

Danish Standards Foundation, critical difference and critical range

• DS/EN 61788-2:2007 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors
• DS/EN 61788-1:2007 Superconductivity - Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors
• DS/EN 61788-10:2007 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method

中華人民共和國國家質(zhì)量監(jiān)督檢驗檢疫總局、中國國家標準化管理委員會, critical difference and critical range

• GB/T 18502-2018 Critical current measurement—DC critical current of Ag-and/or Ag alloy-sheathed Bi-2212 and Bi-2223 oxide superconductors

CENELEC - European Committee for Electrotechnical Standardization, critical difference and critical range

• EN 61788-2:1999 Superconductivity Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors
• EN 61788-1:1998 Superconductivity Part 1: Critical Current Measurement DC Critical Current of Cu/Nb-Ti Composite Superconductors
• EN 61788-10:2002 Superconductivity Part 10: Critical temperature measurement - Critical temperature of Nb-Ti@ Nb3Sn@ and Bi-system oxide composite superconductors by a resistance method
• EN 61788-3:2001 Superconductivity Part 3: Critical current measurement - DC critical current of Ag-sheathed Bi-2212 and Bi-2223 oxide superconductors

National Metrological Verification Regulations of the People's Republic of China, critical difference and critical range

• JJG 620-1994 Verification Regulation of Critical Flowmeter
• JJG 620-2008 Verification Regulation of Critical Flow Venturi Nozzle

AENOR, critical difference and critical range

• UNE 73501:1992 Criticality requirements for the design of fuel racks.
• UNE-EN 61788-10:2007 Superconductivity -- Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method (IEC 61788-10:2006).

Professional Standard - Ferrous Metallurgy, critical difference and critical range

• YB/T 5127-1993 Determination of critical point of steel (expansion method)

ASHRAE - American Society of Heating@ Refrigerating and Air-Conditioning Engineers@ Inc., critical difference and critical range

• ASHRAE OR-05-13-1-2005 Detecting Critical Supply Duct Pressure
• ASHRAE 3983-1996 Derivation and Application of the SES Critical Velocity Equations

工業(yè)和信息化部, critical difference and critical range

• YB/T 5127-2018 Expansion method for determination of critical point of steel

ESDU - Engineering Sciences Data Unit, critical difference and critical range

• ESDU 82016 A-1984 Vapour pressures and critical points of liquids. XXI: cyclic hydrocarbons.
• ESDU 88030 A-1994 Boundaries of linear characteristics of cambered and twisted wings at subcritical Mach numbers.
• ESDU 98014-1998 Vapour pressures and critical points of liquids: Halogenated benzenes.
• ESDU 90015 A-1990 Vapour pressures and critical points of liquids. Halogenated methanes.
• ESDU 91006-1991 Vapour pressures and critical points of liquids. Halogenated ethylenes.
• ESDU 91035-1991 Vapour pressures and critical points of liquids. Alkyl amides.
• ESDU 90019 C-2003 Vapour pressures and critical points of liquids. Halogenated ethanes.
• AERO W.00.03.01 B-1994 Critical Mach number for high speed aerofoil sections.
• ESDU 88005-1988 Vapour pressures and critical points of liquids. C1 to C6 alkanols.
• ESDU 93028-1993 Vapour pressures and critical points of liquids. Fused ring compounds.

U.S. Military Regulations and Norms, critical difference and critical range

• ARMY MIL-DTL-398 D VALID NOTICE 1-2004 RDX (CYCLOTRIMETHYLENETRINITRAMINE)
• ARMY MIL-DTL-398 D-1996 RDX (CYCLOTRIMETHYLENETRINITRAMINE)
• ARMY MIL-DTL-398 D (1)-1999 RDX (CYCLOTRIMETHYLENETRINITRAMINE)
• ARMY MIL-DTL-45444 C VALID NOTICE 1-2004 HMX (CYCLOTETRAMETHYLENETETRANITRAMINE)

Lithuanian Standards Office , critical difference and critical range

• LST EN 61788-1-2007 Superconductivity - Part 1: Critical current measurement - DC critical current of Nb-Ti composite superconductors (IEC 61788-1:2006)
• LST EN 61788-2-2007 Superconductivity - Part 2: Critical current measurement - DC critical current of Nb3Sn composite superconductors (IEC 61788-2:2006)
• LST EN 61788-10-2007 Superconductivity - Part 10: Critical temperature measurement - Critical temperature of composite superconductors by a resistance method (IEC 61788-10:2006)

RU-GOST R, critical difference and critical range

• GOST 19656.14-1979 Semiconductor microwave switching diodes. Measurement method of critical frequency

KR-KS, critical difference and critical range

• KS C IEC 61788-26-2022 Superconductivity — Part 26: Critical current measurement —DC critical current of RE-Ba-Cu-O composite superconductors
• KS C IEC 61788-3-2016 Superconductivity－Part 3：Critical current measurement－DC critical current of Ag－sheathed Bi－2212 and Bi－2223 oxide superconductors

Taiwan Provincial Standard of the People's Republic of China, critical difference and critical range

• CNS 4-1-1987 Limits and Fits (General, Tolerance and Deviations)
• CNS 4.1-1987 Limits and Fits (General, Tolerance and Deviations)

National Aeronautics and Space Administration (NASA), critical difference and critical range

• NASA NACA-TR-734-1942 Critical Compressive Stress for Outstanding Flanges
• NASA NACA-TN-1348-1947 Critical shear stress of curved rectangular panels

GOSTR, critical difference and critical range

• GOST R 8.980-2019 State system for ensuring the uniformity of measurements. Standard reference data. The critical temperatures and critical pressures of thermo unstable substances
• GOST R 8.944-2018 State system for ensuring the uniformity of measurements. Standard reference data. Aluminium, Mercury. Reflectivity and emittance in near and supercritical region

American Society for Testing and Materials (ASTM), critical difference and critical range

• ASTM E637-05 Standard Test Method for Calculation of Stagnation Enthalpy from Heat Transfer Theory and Experimental Measurements of Stagnation-Point Heat Transfer and Pressure
• ASTM E1449-92(2011) Standard Guide for Supercritical Fluid Chromatography Terms and Relationships
• ASTM E637-05(2011) Standard Test Method for Calculation of Stagnation Enthalpy from Heat Transfer Theory and Experimental Measurements of Stagnation-Point Heat Transfer and Pressure
• ASTM D7541-11(2015) Standard Practice for Estimating Critical Surface Tensions
• ASTM D7541-11 Standard Practice for Estimating Critical Surface Tensions

FI-SFS, critical difference and critical range

• SFS 2105-1976 Shape tolerance and position tolerance. speed limit principle

GB-REG, critical difference and critical range

• REG NACA-TN-1344-1947 CRITICAL STRESS OF THIN-WALLED CYLINDERS IN TORSION

IAEA - International Atomic Energy Agency, critical difference and critical range

• SSG-27-2014 Criticality Safety in the Handling of Fissile Material

Qinghai Provincial Standard of the People's Republic of China, critical difference and critical range

• DB63/T 1560-2017 Critical rain intensity of disaster-causing torrential rain in different regions

Professional Standard - Electricity, critical difference and critical range

• DL/T 1683-2017 1000MW class ultra-supercritical unit operation guidelines

Natural Gas Processor's Association (NGPA), critical difference and critical range

• GPA RR-98-1986 Glycol Vaporization Losses in Super-Critical CO2

Anhui Provincial Standard of the People's Republic of China, critical difference and critical range

• DB34/T 1495-2011 Periodical Inspection Code of Practice For Sub-critical Pressure Power Station Boiler

VDE - VDE Verlag GmbH@ Berlin@ Germany, critical difference and critical range

• VDE 0390-26-2019 Superconductivity - Part 26: Critical current measurement - DC critical current of RE-Ba-Cu-O composite superconductors (IEC 90/407/CD:2018); Text in German and English

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