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Total temperature field diagram

Total temperature field diagram, Total:368 items.

In the international standard classification, Total temperature field diagram involves: Open systems interconnection (OSI), Applications of information technology, Microprocessor systems, Soil quality. Pedology, Earthworks. Excavations. Foundation construction. Underground works, Petroleum products in general, Construction materials, Non-destructive testing, Thermodynamics and temperature measurements, Resistors, Aircraft and space vehicles in general, Analytical chemistry, Graphical symbols, Components and accessories for telecommunications equipment, Testing of metals, Environmental protection, Astronomy. Geodesy. Geography, Optical equipment, Optics and optical measurements, Audio, video and audiovisual engineering, Electrical accessories, Safety of machinery, Industrial automation systems, Power stations in general, Aerospace electric equipment and systems, Wastes, Fluid storage devices, Kitchen equipment, Installations in buildings, Medical equipment, Valves, Occupational safety. Industrial hygiene, Radiation measurements, Electricity. Magnetism. Electrical and magnetic measurements, Alarm and warning systems, Welding, brazing and soldering, Materials for aerospace construction, Construction of airports, Radiation protection, Nuclear energy engineering, Surface treatment and coating, Fasteners, Energy and heat transfer engineering in general, Plastics, Semiconductor devices, Insulating materials, Fruits. Vegetables, Raw materials for rubber and plastics, Transport, Environmental testing, Conducting materials, Refractories, Refrigerating technology, Geology. Meteorology. Hydrology, Rubber.

Defense Logistics Agency, Total temperature field diagram

• DLA MS27188 VALID NOTICE 3-2005 PROBE, TOTAL TEMPERATURE, DEICEABLE
• DLA MS27188 NOTICE 2-1999 PROBE, TOTAL TEMPERATURE, DEICEABLE
• DLA MS27188-1962 PROBE, TOTAL TEMPERATURE, DEICEABLE
• DLA MIL-P-27723 E VALID NOTICE 2-2005 PROBE, TOTAL TEMPERATURE, DEICEABLE
• DLA MIL-P-27723 E NOTICE 1-1999 PROBE, TOTAL TEMPERATURE, DEICEABLE
• DLA MIL-P-27723 E-1985 PROBE, TOTAL TEMPERATURE, DEICEABLE
• DLA MS27188 VALID NOTICE 4-2012 Probe, Total Temperature, Deiceable
• DLA MIL- DTL-27723 F-2013 PROBE, TOTAL TEMPERATURE, DEICEABLE
• DLA MIL-DTL-8790 F-2007 HOSE ASSEMBLIES, RUBBER, HYDRAULIC, HIGH PRESSURE 3,000 PSI, OPERATING TEMPERATURE RANGE -65癋 TO +275癋, FIELD ATTACHABLE
• DLA QPL-83733-9 NOTICE 1-2008 Connectors, Electrical, Miniature, Rectangular Type, Rack to Panel, Environment Resisting, 200 Degrees C Total Continuous Operating Temperature
• DLA MIL-DTL-83733 E-2006 CONNECTORS, ELECTRICAL MINIATURE, RECTANGULAR TYPE, RACK TO PANEL, ENVIRONMENT RESISTING, 200 DEGREES C TOTAL CONTINUOUS OPERATING TEMPERATURE, GENERAL SPECIFICATION FOR
• DLA QPL-83733-2013 Connectors, Electrical Miniature, Rectangular Type, Rack to Panel, Environment Resisting, 200 Degrees C Total Continuous Operating Temperature, General Specification for
• DLA QPL-83733-QPD-2012 Connectors, Electrical Miniature, Rectangular Type, Rack to Panel, Environment Resisting, 200 Degrees C Total Continuous Operating Temperature, General Specification for
• DLA MIL-DTL-83733 E SUPP 1-2013 CONNECTORS, ELECTRICAL MINIATURE, RECTANGULAR TYPE, RACK TO PANEL, ENVIRONMENT RESISTING, 200癈 TOTAL CONTINUOUS OPERATING TEMPERATURE, GENERAL SPECIFICATION FOR
• DLA QPL-83733-9-2006 CONNECTORS, ELECTRICAL, MINIATURE, RECTANGULAR TYPE, RACK TO PANEL, ENVIRONMENT RESISTING, 200 DEG.C TOTAL CONTINUOUS OPERATING TEMPERATURE, GENERAL SPECIFICATION FOR

ES-AENOR, Total temperature field diagram

• INTA 15 02 07

European Committee for Standardization (CEN), Total temperature field diagram

• EN 61784-1:2008 Industrial communication networks — Profiles — Part 1: Fieldbus profiles
• EN 16714-1:2016 Non-destructive testing - Thermographic testing - Part 1: General principles
• EN 4049-002:2005 Aerospace series - Thermocouple extension cable - Operating temperatures between -65 °C to 260 °C - Part 002: General
• EN 14620-1:2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 °C and -165 °C - Part 1: General
• PREN 14620-1-2022 Design and manufacture of site built, vertical, cylindrical, flatbottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between -5癈 and -165癈 - Part 1: General
• PREN 14620-1-2003 Design and manufacture of site built, vertical, cylindrical, flatbottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between -5癈 and -165癈 - Part 1: General
• EN 2346-002:2006 Aerospace series - Cable, electrical, fire resistant - Operating temperatures between - 65 °C and 260 °C - Part 002: General
• EN 2267-002:2015 Aerospace series - Cables, electrical, for general purpose - Operating temperatures between -55 °C and 260 °C - Part 002: General
• EN 2266-002:2005 Aerospace series - Cables, electrical, for general purpose - Operating temperatures between -55 °C and 200 °C - Part 002: General
• EN 14015:2004 Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above

European Committee for Electrotechnical Standardization（CENELEC）, Total temperature field diagram

• EN 61784-1:2014 Industrial communication networks - Profiles - Part 1: Fieldbus profiles
• EN 62226-1:2005 Exposure to electric or magnetic fields in the low and intermediate frequency range Methods for calculating the current density and internal electric field induced in the human body Part 1: General
• EN 61788-8:2010 Superconductivity - Part 8: AC loss measurements - Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method
• EN 62373:2006 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET)
• EN 62319-1:2005 Polymeric thermistors - Directly heated positive step function temperature coefficient Part 1: Generic specification

CENELEC - European Committee for Electrotechnical Standardization, Total temperature field diagram

• EN 61784-1:2004 Digital data communications for measurement and control Part 1: Profile sets for continuous and discrete manufacturing relative to fieldbus use in industrial control systems

International Electrotechnical Commission (IEC), Total temperature field diagram

• IEC 61784-1:2007 Industrial communication networks - Profiles - Part 1: Fieldbus profiles
• IEC 60539-1:2016 Directly heated negative temperature coefficient thermistors - Part 1: Generic specification
• IEC 60539-1:2008 Directly heated negative temperature coefficient thermistors - Part 1: Generic specification
• IEC 60738-1:2006 Thermistors - Directly heated positive temperature coefficient - Part 1: Generic specification
• IEC 60539-1:2002 Directly heated negative temperature coefficient thermistors - Part 1: Generic specification
• IEC 61224:1993 Nuclear reactors; response time in resistance temperature detectors (RTD); in situ measurements
• IEC 60738-1:1998 Thermistors - Directly heated positive step-function temperature coefficient - Part 1: Generic specification
• IEC 60738-1:2006/AMD1:2009 Thermistors - Directly heated positive temperature coefficient - Part 1: Generic specification; Amendment 1
• IEC 60738-1:1982 Directly heated positive step-function temperature coefficient thermistors. Part 1: Generic specification
• IEC 62373:2006 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET)
• IEC TS 62306:2006 Ultrasonics - Field characterisation - Test objects for determination temperature elevation in diagnostic ultrasonic fields
• IEC 62319-1:2005 Polymeric thermistors - Directly heated positive step function temperature coefficient - Part 1: Generic specification
• IEC 61788-8:2010 Superconductivity - Part 8: AC loss measurements - Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method
• IEC 62319-1:2005/COR1:2009 Polymeric thermistors - Directly heated positive step function temperature coefficient - Part 1: Generic specification; Corrigendum 1

RU-GOST R, Total temperature field diagram

• GOST 25358-1982 Soils. Field method of determining temperature
• GOST 25358-2012 Soils. Field method of determining temperature
• GOST 27753.4-1988 Greenhouse grounds. Method for determination of total salts content
• GOST 8.558-1993 State system for ensuring the uniformity of measurements. State verification schedule for means measuring temperature
• GOST R 52728-2007 Method of strain-and-temperature measurements in situ. General requirements
• GOST R IEC 811-5-1-1995 Test methods specific to filling compounds of electric cables. Drop-point. Separation of oil. Lower temperature brittleness. Total acid number. Absence of corrosive components. Permittivity at temperature 23 °C. D.c. resistivity at temperature 23 °C and 1
• GOST R 53615-2009 The influence of environmental conditions appearing in nature on the technical products. Overall performance. Solar radiation and temperature
• GOST 4071.1-1994 Refractory products with a true porosity of less than 45%. Determination of cold compressive strength
• GOST 4071.1-2021 Refractory products with less than 45 % true porosity. Method for determination of compressive strength at room temperature
• GOST 8.188-1985 State system for ensuring the uniformity of measurements. State special standard and state verification schedule for means of measuring magnetic induction of constant field in the range of 2-10 T for temperature range from 4,2 to 300 K and from 0,1 up to
• PNST 44-2015 Renewable power engineering. Solar energy. Calibration of field pyrheliometers by comparison to a reference pyrheliometer
• GOST R 58031-2017 Design and execution rules site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above

GOSTR, Total temperature field diagram

• GOST 25358-2020 Soils. Field method of determining the temperature
• GOST R 58888-2020 Soils. Field test method with the use of cone penetration with temperature measurement
• GOST R 59242-2020 Buildings and constructions. Calculation of temperature field nodes of enclosing structures
• GOST R 58027-2017 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 °C and to -165 °C. Part 1. General

Professional Standard - Chemical Industry, Total temperature field diagram

• HG/T 21581-1995HK01 Installation Atlas of Temperature Measuring Elements
• HG/T 20561-1994 Provisions on the depth of preparation of design documents for the general plan of chemical plants and transportation drawings
• HG/T 22805.5-1993 Regulations on the Content and Depth of Construction Drawing Design of Chemical Mining Enterprises——Professional General Drawing and Transportation

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Total temperature field diagram

• GB 8023-1987 Liquid petroleum product viscosity temperature calculation chart
• GB/T 8023-1987 Liquid petroleum products--Viscosity--Temperature charts
• GB/T 13189-1991 Geanral specification for the indirectly heated thermistors with negative temperature coefficient
• GB 936-1989 Colour TV receiver－Colour temperature of white point－Reference white and it's tolerance
• GB/T 936-1989 Colour TV receiver--Colour temperature of white point--Reference white and it's tolerance
• GB/T 37543-2019(英文版) Measurement method for total electric field strength and ion current density of DC transmission line and converter station
• GB/T 30109-2013 AC loss measurements.Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method
• GB/T 6663.1-2007 Directly heated negative temperature coefficient thermistors Part 1: Generic specification
• GB/T 6663-1986 General specification for the directly heated negative temperature coefficient thermistors
• GB/T 18021-2000 In-situ measurements of heat loss through thermal insulation of equipments and pipes-Surface temperature method
• GB/T 7153-2002 Directly heated positive step-function temperature coefficient thermistors Part 1: Generic specification
• GB/T 41872-2022 Heat exchanger for refrigerating systems and heat pumps—Performance test and evaluation method based on three-field synergy of temperature, pressure and velocity fields
• GB/T 17357-2008 In-situ measurements of heat loss through thermal insulation of equipments and pipes. Heat flow meter apparatus and surface temperature method
• GB/T 20028-2005 Rubber,vulcanized or thermoplastic.Estimation of life-time and maximum temperature of use from an Arrhenius plot

American Welding Society (AWS), Total temperature field diagram

• WRC 575:2019 Revisiting the Bree Diagram: Derivation with Temperature Dependent Properties
• AWS PHSS WC& DC-1996 Suggested Pretemperatures for Welding Structural Steel Materails Wall and Desk Charts
• WRC 316:1986 Part 1: Technical Position on Piping System Installation Tolerances; Part 2: Technical Position on Damping Values for Insulated Pipe - Summary Report
• AWS PHSP WC& DC-1996 Suggester Filler Materials and Minimum Preheat Temperatures for Welding Steel Pipe with Wall Thickness Less than 3/4", Wall and Desk Charts

American Society for Testing and Materials (ASTM), Total temperature field diagram

• ASTM D2493/D2493M-16 Standard Practice for Viscosity-Temperature Chart for Asphalt Binders
• ASTM D341-09 Standard Practice for Viscosity-Temperature Charts for Liquid Petroleum Products
• ASTM D341-17 Standard Practice for Viscosity-Temperature Charts for Liquid Petroleum Products
• ASTM D341-93(1998) Standard Test Method for Viscosity-Temperature Charts for Liquid Petroleum Products
• ASTM E988-96 Standard Temperature-Electromotive Force (EMF) Tables for Tungsten-Rhenium Thermocouples
• ASTM E988-96(2002) Standard Temperature-Electromotive Force (EMF) Tables for Tungsten-Rhenium Thermocouples
• ASTM E639-78(1996)e1 Standard Test Method for Measuring Total-Radiance Temperature of Heated Surfaces Using a Radiation Pyrometer
• ASTM E639-78(2002) Standard Test Method for Measuring Total-Radiance Temperature of Heated Surfaces Using a Radiation Pyrometer
• ASTM F874-98(2003) Standard Test Method for Temperature Measurement and Profiling for Microwave Susceptors
• ASTM F874-98 Standard Test Method for Temperature Measurement and Profiling for Microwave Susceptors
• ASTM E230-98 Standard Specification and Temperature-Electromotive Force (EMF) Tables for Standardized Thermocouples
• ASTM E230-98e1 Standard Specification and Temperature-Electromotive Force (EMF) Tables for Standardized Thermocouples
• ASTM E230-03 Standard Specification and Temperature-Electromotive Force (EMF) Tables for Standardized Thermocouples
• ASTM E230/E230M-12 Standard Specification and Temperature-Electromotive Force (emf) Tables for Standardized Thermocouples
• ASTM E230/E230M-11 Standard Specification and Temperature-Electromotive Force (emf) Tables for Standardized Thermocouples
• ASTM E2488-09 Standard Guide for the Preparation and Evaluation of Liquid Baths Used for Temperature Calibration by Comparison
• ASTM F874-98(2008) Standard Test Method for Temperature Measurement and Profiling for Microwave Susceptors
• ASTM F874-98(2014) Standard Test Method for Temperature Measurement and Profiling for Microwave Susceptors
• ASTM C1046-95 Standard Practice for In-Situ Measurement of Heat Flux and Temperature on Building Envelope Components
• ASTM D341-20 Standard Practice for Viscosity-Temperature Equations and Charts for Liquid Petroleum or Hydrocarbon Products
• ASTM D341-20e1 Standard Practice for Viscosity-Temperature Equations and Charts for Liquid Petroleum or Hydrocarbon Products
• ASTM C1046-95(2001) Standard Practice for In-Situ Measurement of Heat Flux and Temperature on Building Envelope Components
• ASTM C1046-95(2007) Standard Practice for In-Situ Measurement of Heat Flux and Temperature on Building Envelope Components
• ASTM C1046-95(2013) Standard Practice for In-Situ Measurement of Heat Flux and Temperature on Building Envelope Components
• ASTM C1046-95(2021) Standard Practice for In-Situ Measurement of Heat Flux and Temperature on Building Envelope Components
• ASTM E2002-15 Standard Practice for Determining Total Image Unsharpness and Basic Spatial Resolution in Radiography and Radioscopy

Professional Standard - Electron, Total temperature field diagram

• SJ 20722-1998 General specification for temperature transducers for thermal resistance
• SJ 1553-1980 General specification for negative temperature coefficient thermistors for temperature measurement
• SJ 20275-1993 General specification for positive temperature coefficient themistors
• SJ 2534.7-1986 Test procedures for antennas--On-site measurements of amplitude pattens
• SJ 2028-1982 Generic specification for directly heated positive temperature coefficient thermistors
• SJ 1559-1980 Generic specification for negative temperature coefficient thermistors used as voltage regulators
• SJ 1557-1980 General specification for indirectly heated temperature coefficient themistors

British Standards Institution (BSI), Total temperature field diagram

• BS EN 61784-5-10:2008 Industrial communication networks - Profiles - Installation of fieldbuses - Installation profiles for CPF 10
• BS EN 16714-1:2016 Non-destructive testing. Thermographic testing. General principles
• BS ISO 19012-1:2013 Microscopes. Designation of microscope objectives. Flatness of field/Plan
• BS EN 60539-1:2002 Directly heated negative temperature coefficient thermistors - Generic specification
• BS EN 60738-1:2006 Thermistors - Directly heated positive temperature coefficient - Part 1: Generic specification
• BS EN 60738-1:2006+A1:2009 Thermistors - Directly heated positive temperature coefficient - Generic specification
• BS EN 61784-3-18:2011 Industrial communication networks. Profiles. Functional safety fieldbuses. Additional specifications for CPF 18
• BS EN 2267-002:2005 Cables, electrical, for general purpose — Operating temperatures between -55 °C and 260 °C — Part 002: General
• BS EN 2267-002:2006 Aerospace series. Cables, electrical, for general purpose. Operating temperatures between -55°C and 260°C. General
• BS EN 61784-5-10:2012 Industrial communication networks. Profiles. Installation of fieldbuses. Installation profiles for CPF 10
• BS EN 14620-1:2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 °C and -165 °C - General
• DD IEC/TS 62306:2006 Ultrasonics. Field characterisation. Test objects for determining temperature elevation in diagnostic ultrasound fields
• BS EN 62226-1:2005 Exposure to electric or magnetic fields in the low and intermediate frequency range - Methods for calculating the current density and internal electric field induced in the human body - General
• BS EN 2266-002:2006 Aerospace series - Cables, electrical, for general purpose - Operating temperatures between -55 °C and 200 °C - General
• BS EN 2346-002:2006 Aerospace series - Cable, electrical, fire resistant - Operating temperatures between -65 °C and 260 °C - General
• BS EN 2266-002:2005 Cables, electrical, for general purpose - Operating temperatures between -55 °C and 200 °C - Part 002: General
• BS EN 4049-002:2005 Thermocouple extension cable - Operating temperatures between -65 °C and 260 °C - Part 002: General
• BS EN 2267-002:2012 Aerospace series. Cables, electrical, for general purpose. Operating temperatures between -55°C and 260°C. General
• BS EN 2267-002:2015 Aerospace series. Cables, electrical, for general purpose. Operating temperatures between -55 C and 260 C. General
• 20/30411833 DC BS EN 17505. Soil and waste characterization. Temperature dependent differentiation of total carbon (TOC400, ROC, TIC900)
• BS DD IEC/TS 62306:2008 Ultrasonics - Field characterisation - Test objects for determining temperature elevation in diagnostic ultrasound fields
• BS ISO 17744:2004 Plastics - Determination of specific volume as a function of temperature and pressure (pVT diagram) - Piston apparatus method
• BS EN 62373:2006 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET)
• BS EN 14015:2004(2005) Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above
• BS EN 61788-8:2010 Superconductivity. AC loss measurements. Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method
• 17/30350291 DC BS EN 14015. Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above
• BS EN 62319-1:2005 Polymeric thermistors - Directly heated positive step function temperature coefficient - Part 1: Generic specification
• BS EN 62319-1:2006 Polymeric thermistors - Directly heated positive step function temperature coefficient - Generic specification
• BS EN 2714-002:2005 Cables, electrical, single and multicore for general purpose — Operating temperatures between -55 ℃ and 260 ℃ — Part 002: Screened and jacketed — General
• BS EN 2714-002:2006 Aerospace series. Cables, electrical, single and multicore for general purpose. Operating temperatures between -55°C and 260°C. Screened and jacketed. General

ASHRAE - American Society of Heating@ Refrigerating and Air-Conditioning Engineers@ Inc., Total temperature field diagram

• ASHRAE DA-00-3-5-2000 Impact of Heating Systems and Wall Surface Temperatures on Room Operative Temperature Fields
• ASHRAE AT-96-4-4-1996 Using Blending Pumps to Increase Individual Facility Supply Water Temperatures and Total System Differential Temperatures
• ASHRAE PH-97-6-3-1997 Investigations of the EPA Refrigerator Analysis (ERA) Software: Compressor Map and Ambient Temperature Effects
• ASHRAE SA-96-10-4-1996 Field Experiences in Residential Humidification Control with Temperature-Compensated Automatic Humidistats
• ASHRAE HI-02-6-4-2002 Field Measurements of Operative Temperatures in Buildings Heated or Cooled by Embedded Water-Based Radiant Systems

RO-ASRO, Total temperature field diagram

• STAS 11071/14-1988 Block diagrams of hierarchy NBLOCK DIAGRAM OF HIERARCHY OF MEASURING INSTRUMENTSFOR TEMPERATURE
• STAS 11200/533-1979 GRAPHICAL SYMBOLS Graphical symbol for engine coolant temperature
• STAS 7132-1986 Gentral heating plants SAFETY REQUIREMENTS FOR WATER CENTRAL HEATING PLANTS WITH 115 C MAXIMUM TEMPERATURE
• STAS 12922/4-1991 Fish and fish products. Total number determination of aerobic mesophilic and optional anaerobic germs at 30C

AR-IRAM, Total temperature field diagram

• IRAM 6617-1962

未注明发布机构, Total temperature field diagram

• BS 1794:1952(1999) Specification for Chart ranges for temperature recording instruments

Group Standards of the People's Republic of China, Total temperature field diagram

• T/SJZJLXH 0003-2018 Calibration specification for on-site temperature detection system
• T/SJZJLXH 0011-2020 Calibration specification for on-site temperature detection system
• T/SHJX 022-2021 Vehicle infrastructure cooperative systems technical requirements of high-precision maps for vehicle-road collaboration application scenarios
• T/CEPPEA 5004.1-2020 Provisions on the depth of content of construction drawing design documents for conventional islands of nuclear power plants Part 1: General

Professional Standard - Aerospace, Total temperature field diagram

• QJ 1138-1987 Ablation of silicon-based materials—calculation method of temperature field
• QJ 1409-1988 Calculation method and computer program for temperature field of solid rocket motor nozzle

Military Standards (MIL-STD), Total temperature field diagram

• DOD A-A-53935-1989 THERMOMETER, SELF-INDICATING, LIQUID IN GLASS (TOTAL IMMERSION)

Association Francaise de Normalisation, Total temperature field diagram

• NF T60-148:1976 VISCOSITY-TEMPERATURE CHARTS FOR LIQUID PETROLEUM PRODUCTS.
• NF M88-531-1*NF EN 14620-1:2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0oC and -165oC - Part 1 : general
• NF C93-272-1:2012 Directly heated negative temperature coefficient thermistors - Part 1: generic specification
• NF C83-290-1/A1*NF EN 60738-1/A1:2014 Thermistors - Directly heated positive temperature coefficient - Part 1 : generic specification
• NF C99-115-1*NF EN 62226-1:2005 Exposure to electric or magnetic fields in the low and intermediate frequency range - Methods for calculating the current density and internal electric field induced in the human body - Part 1 : general
• NF C83-290-1:2005 Thermistors - Directly heated positive step-function temperature coefficient - Part 1 : generic specification.
• NF C83-290-1*NF EN 60738-1:2006 Thermistors - Directly heated positive temperature coefficient - Part 1 : generic specification
• NF L52-151-002*NF EN 2346-002:2006 Aerospace series - Cable, electrical, fire resistant - Operating temperatures between -65oC and 260oC - Part 002 : general
• NF C96-051*NF EN 62373:2006 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET)
• NF L52-275-002:2013 Aerospace series - Cables, electrical, for general purpose - Operating temperatures between - 55 oC and 260 oC - Part 002: general
• NF L52-320-002*NF EN 4049-002:2006 Aerospace series - Thermocouple extension cable - Operating temperatures between - 65 oC to 260 oC - Part 002 : general
• NF L52-265-002*NF EN 2266-002:2006 Aerospace series : Cables, electrical, for general purpose - Operating temperatures between -55 oC and 200 oC - Part 002 : general
• NF EN 62373:2006 Essai de stabilité de température en polarisation pour transistors à effet de champ métal-oxyde-semiconducteur (MOSFET)
• NF EN 14015:2005 Spécification pour la conception et la fabrication de réservoirs en acier, soudés, aériens, à fond plat, cylindriques, verticaux, construits sur site destinés au stockage des liquides à la température ambiante ou supérieure
• NF C93-273-1*NF EN 62319-1:2005 Polymeric thermistors - Directly heated positive step function temperature coefficient - Part 1 : generic specification
• NF C31-888-8*NF EN 61788-8:2015 Superconductivity - Part 8 : AC loss measurements - Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method
• NF M88-531-4*NF EN 14620-4:2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 oC and -165 oC - Part 4 : insulation components.
• NF M88-531-2*NF EN 14620-2:2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0oC and -165oC - Part 2 : metallic components
• NF M88-531-3*NF EN 14620-3:2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0oC and -165oC - Part 3 : concrete components
• NF M88-531-5*NF EN 14620-5:2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0oC and -165oC - Part 5 : testing, drying, purging and cool-down

Taiwan Provincial Standard of the People's Republic of China, Total temperature field diagram

• CNS 15091-1-2007 Method of test for deep sea water - Measurement of in-situ temperature

Indonesia Standards, Total temperature field diagram

• SNI 19-6725-2002 Enviromental maps of Indonesia airport , scale 1: 25.000

HU-MSZT, Total temperature field diagram

• MSZ KGST 367-1976
• MSZ 5200/2.lap-1957

SAE - SAE International, Total temperature field diagram

• SAE AIR5867-2017 Assessment of the Inlet/Engine Total Temperature Distortion Problem
• SAE AS793-1966 Total Temperature Measuring Instruments (Turbine Powered Subsonic Aircraft)
• SAE AS793A-2001 Total Temperature Measuring Instruments (Turbine Powered Subsonic Aircraft)
• SAE AS25274C-2016 CAP, ELECTRICAL (WIRE END, CRIMP STYLE, TYPE II, CLASS 1) FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS25274A-2011 CAP, ELECTRICAL (WIRE END, CRIMP STYLE, TYPE II, CLASS 1) FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS20659A-A1-2004 Terminal@ Lug@ Crimp Style@ Copper@ Uninsulated@ Ring Tongue@ Type I@ Class I@ for 175 Degrees C Total Conductor Temperature
• SAE AS20659-1998 Terminal@ Lug@ Crimp Style@ Copper@ Uninsulated@ Ring Tongue@ Type I@ Class I@ for 175 Degrees C Total Conductor Temperature
• SAE AS25274-A1-2004 Cap@ Electrical (Wire End@ Crimp Style@ Type II@ Class 1) for 105 Degrees C Total Conductor Temperature
• SAE AS25274-2001 Cap@ Electrical (Wire End@ Crimp Style@ Type II@ Class 1) for 105 Degrees C Total Conductor Temperature
• SAE AS21-1941 Symbols and Sketches for Pressures and Temperatures in Induction System - Aircraft Engine
• SAE AS20659B-A1-2008 Terminal@ Lug@ Crimp Style@ Copper@ Uninsulated@ Ring Tongue@ Type I@ Class 1@ for 175 °C Total Conductor Temperature
• SAE AS7928/6B-2015 Terminals, Lug and Splices, Conductor, Crimp Style, Splice, Electric, (Permanent, Type II, Class 1) for 150°C Total Conductor Temperature
• SAE AS7928/5B-2016 Terminals, Lug and Splices, Conductor, Crimp Style, Splice, Electric, (Permanent, Type II, Class 1) for 105 Degrees C Total Conductor Temperature FSC 5940; Should Be Used Instead of MIL-T-7928/5B, Which Was Cancelled on 31 August 1999
• SAE AS17143B-2015 TERMINAL, LUG, CRIMP STYLE, COPPER, INSULATED, RECTANGULAR TONGUE, TYPE II, CLASS 1 FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS20659C-2010 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ UNINSULATED@ RING TONGUE@ TYPE I@ CLASS 1@ FOR 175 DEGREES C TOTAL CONDUCTOR TEMPERATURE
• SAE AS20659E-2015 Terminal, Lug, Crimp Style, Copper, Uninsulated, Ring Tongue, Type I, Class I, for 175°C Total Conductor Temperature
• SAE AS20659B-2007 Terminal, Lug, Crimp Style, Copper, Uninsulated, Ring Tongue, Type I, Class I, for 175°C Total Conductor Temperature
• SAE AS20659G-2019 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ UNINSULATED@ RING TONGUE@ TYPE I@ CLASS 1@ FOR 175 °C OR 260 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS25036A-A1-2008 Terminal@ Lug@ Crimp Style@ Copper@ Insulated@ Ring Tongue@ Bell-Mouthed@ Type II@ Class 1 (for 105 °C Total Conductor Temperature)
• SAE AS27429-2000 Splice@ Conductor@ Disconnect@ Crimp Style@ Copper@ Insulated Barrel@ Type II@ Class 1 for 105 Degrees C Total Conductor Temperature
• SAE AS27429-2006 Splice@ Conductor@ Disconnect@ Crimp Style@ Copper@ Insulated Barrel@ Type II@ Class 1 for 105 Degrees C Total Conductor Temperature
• SAE AS7928/2C-2016 TERMINALS@ LUG AND SPLICES@ CONDUCTOR@ CRIMP STYLE@ COPPER@ INSULATED@ RECTANGULAR TONGUE@ FOR THIN WALL WIRE@ TYPE II@ CLASS 1 FOR 105 C TOTAL CONDUCTOR TEMPERATURE
• SAE AS25036D-2012 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ INSULATED@ RING TONGUE@ BELL-MOUTHED@ TYPE II@ CLASS 1 (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS25036C-2011 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ INSULATED@ RING TONGUE@ BELL-MOUTHED@ TYPE II@ CLASS 1 (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS25036E-2015 Terminal, Lug, Crimp Style, Copper, Insulated, Ring Tongue, Bell-Mouthed, Type II, Class 1, (For 105°C Total Conductor Temperature)
• SAE AS7928/11C-2015 Terminal, Lug, Crimp Style, copper, Uninsulated, Ring Tongue, Tin Whisker Resistant, Type I, Class I, for 175 °C Total conductor Temperature
• SAE AS7928/11B-2011 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ UNINSULATED@ RING TONGUE@ TIN WHISKER RESISTANT@ TYPE I@ CLASS I@ FOR 175 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/11A-2010 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ UNINSULATED@ RING TONGUE@ TIN WHISKER RESISTANT@ TYPE I@ CLASS I@ FOR 175 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/2A-1999 Terminals@ Lug and Splices@ Conductor@ Crimp Style@ Copper@ Insulated@ Rectangular Tongue@ for Thin Wall Wire@ Type II@ Class 1 for 105 Degrees C Total Conductor Temperature
• SAE AS7928/2A-A1-2004 Terminals@ Lug and Splices@ Conductor@ Crimp Style@ Copper@ Insulated@ Rectangular Tongue@ for Thin Wall Wire@ Type II@ Class 1 for 105 Degrees C Total Conductor Temperature
• SAE AS7928/2-1999 Terminals@ Lug and Splices@ Conductor@ Crimp Style@ Copper@ Insulated@ Rectangular Tongue@ for Thin Wall Wire@ Type II@ Class 1 for 150 Degrees C Total Conductor Temperature
• SAE AS7928/12-A1-2008 Terminal@ Lug@ Crimp Style@ Copper@ Insulated@ Ring Tongue@ Bell-Mouthed@ Tin Whisker@ Type II@ Class 1@ (for 105 °C Total Conductor Temperature)
• SAE AS21004A-2014 TERMINAL, LUG, UNINSULATED, RECTANGULAR TONGUE, CRIMP STYLE, COPPER, TYPE I, CLASS 1, FOR 150 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS21004B-2016 TERMINAL, LUG, UNINSULATED, RECTANGULAR TONGUE, CRIMP STYLE, COPPER, TYPE I, CLASS 1, FOR 150 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS21004C-2016 TERMINAL@ LUG@ UNINSULATED@ RECTANGULAR TONGUE@ CRIMP STYLE@ COPPER@ TYPE I@ CLASS 1 FOR 175 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/12D-2015 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ INSULATED@ RING TONGUE@ BELL-MOUTHED@ TIN WHISKER@ TYPE II@ CLASS 1@ (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS7928/12C-2012 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ INSULATED@ RING TONGUE@ BELL-MOUTHED@ TIN WHISKER@ TYPE II@ CLASS 1@ (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS7928/12A-2010 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ INSULATED@ RING TONGUE@ BELL-MOUTHED@ TIN WHISKER RESISTANT@ TYPE II@ CLASS 1@ (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS7928/12B-2011 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ INSULATED@ RING TONGUE@ BELL-MOUTHED@ TIN WHISKER RESISTANT@ TYPE II@ CLASS 1@ (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS7928/12-2007 TERMINAL@ LUG@ CRIMP STYLE@ COPPER@ INSULATED@ RING TONGUE@ BELL-MOUTHED@ TIN WHISKER@ TYPE II@ CLASS 1@ (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS7928/4-A1-2004 Terminals@ Lug and Splices@ Conductor@ Crimp Style@ Copper Terminal@ Lug@ Insulated@ Ring Tongue@ Bell-Mouthed@ Type II@ Class 1 (for 150 Degrees C Total Conductor Temperature)

Professional Standard - Aviation, Total temperature field diagram

• HB 6219-1989 The installation of aircraft guns requires the protection of the muzzle shock wave pressure field and temperature field
• HB 5220.39-1995 Chemical Analysis Method of Superalloys PMBP Direct Extraction-ArsenazoⅢ Absorbance Spectrophotometry Determination of Total Rare Earth

National Metrological Technical Specifications of the People's Republic of China, Total temperature field diagram

• JJF 1184-2007 Testing Specification of Temperature Uniformity in Thermocouple Calibration Furnaces

中华人民共和国国家卫生和计划生育委员会, Total temperature field diagram

• GB/T 18204.13-2000 Methods for determination of air temperature in public places

民政部, Total temperature field diagram

• MZ/T 066-2016 On-site identification of winter wheat low temperature and freezing damage degree

Korean Agency for Technology and Standards (KATS), Total temperature field diagram

• KS C 2710-1990 General Rules for Directly Heated Negative Temperature Coefficient Thermistors
• KS C 6200-2018 Environmental test methods for robust image quality in video surveillance systems - temperature and humidity
• KS C IEC 62226-1:2008 Exposure to electric or magnetic fields in the low and intermediate frequency range－Methods for calculating the current density and internal electric field induced in the human body－Part 1：General
• KS C IEC 61224-2012(2022) Nuclear reactors－Response time in resistance temperature detectors(RTD)－In situ measurements
• KS C IEC 61224-2012(2017) Nuclear reactors－Response time in resistance temperature detectors(RTD)－In situ measurements
• KS C IEC 60738-1:2001 Thermistors-Directly heated positive step-function temperature coefficient-Part 1:Generic specification
• KS B ISO 13653-2006(2021) Optics and optical instruments — General optical test methods —Measurement of relative irradiance in the image field
• KS B ISO 13653-2006(2016) Optics and optical instruments — General optical test methods —Measurement of relative irradiance in the image field
• KS C IEC 61788-8:2020 Superconductivity — Part 8: AC loss measurements —Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup c

Society of Automotive Engineers (SAE), Total temperature field diagram

• SAE AS793-1991 TOTAL TEMPERATURE MEASURING INSTRUMENTS (TURBINE POWERED SUBSONIC AIRCRAFT)
• SAE AS793A-2008 Total Temperature Measuring Instruments (Turbine powered Subsonic Aircraft)
• SAE AS25274B-2014 CAP, ELECTRICAL (WIRE END, CRIMP STYLE, TYPE II, CLASS 1) FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE ARP6420-2021 Guidelines for Characterization of Gas Turbine Engine Total-Pressure, Planar-Wave, and Total-Temperature Inlet-Flow Distortion
• SAE AS21-1995 Symbols and Sketches for Pressures and Temperatures in Induction System - Aircraft Engine
• SAE AS25274_A1-2004 Cap, Electrical (Wire End, Crimp Style, Type II, Class 1) for 105°C Total Conductor Temperature
• SAE AS25274C-2020 CAP, ELECTRICAL (WIRE END, CRIMP STYLE, TYPE II, CLASS 1) FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS25274D-2023 CAP, ELECTRICAL (WIRE END, CRIMP STYLE, TYPE II, CLASS 1) FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/5-1999 Terminals, Lug and Splices, Conductor, Crimp Style, Splice, Electric, (Permanent, Type II, Class 1) for 105 Degrees C Total Conductor Temperature FSC 5940; Should Be Used Instead of MIL-T-7928/5B, Which Was Cancelled on 31 August 1999
• SAE AS7928/6-1999 Terminals, Lug and Splices, Conductor, Crimp Style, Splice, Electric, (Permanent, Type II, Class 1) for 150°C Total Conductor Temperature
• SAE AS17143-1997 Terminal, Lug, Crimp Style, Copper, Insulated, Rectangular Tongue, Type II, Class 1 for 105 Degrees C Total Conductor Temperature FSC 5940
• SAE AS17143A-2013 TERMINAL, LUG, CRIMP STYLE, COPPER, INSULATED, RECTANGULAR TONGUE, TYPE II, CLASS 1 FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS20659A-1999 Terminal, Lug, Crimp Style, Copper, Uninsulated, Ring Tongue, Type I, Class I, for 175°C Total Conductor Temperature
• SAE AS7928/6C-2021 SPLICES, CONDUCTOR, CRIMP STYLE, ELECTRIC (PERMANENT, TYPE II, CLASS 1) FOR 150 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/6D-2022 SPLICES, CONDUCTOR, CRIMP STYLE, ELECTRIC (PERMANENT, TYPE II, CLASS 1) FOR 150 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/6E-2022 SPLICES, CONDUCTOR, CRIMP STYLE, ELECTRIC (PERMANENT, TYPE II, CLASS 1) FOR 150 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS27429A-2006 Splice, Conductor, Disconnect, Crimp Style, Copper, Insulated Barrel, Type II, Class 1 for 105°C Total Conductor Temperature
• SAE AS25036A_A1-2008 Terminal, Lug, Crimp Style, Copper, Insulated, Ring Tongue, Bell-Mouthed, Type II, Class 1 (for 105 °C Total Conductor Temperature)
• SAE AS7928/6A-2010 Terminals, Lug and Splices, Conductor, Crimp Style, Splice, Electric, (Permanent, Type II, Class 1) for 150°C Total Conductor Temperature
• SAE AS7928/2B-2007 (R) TERMINALS, LUG AND SPLICES, CONDUCTOR, CRIMP STYLE, COPPER, INSULATED, RECTANGULAR TONGUE, FOR THIN WALL WIRE, TYPE II, CLASS 1 FOR 105 °C TOTALCONDUCTOR TEMPERATURE
• SAE AS20659D-2011 Terminal, Lug, Crimp Style, Copper, Uninsulated, Ring Tongue, Type I, Class I, for 175°C Total Conductor Temperature
• SAE AS25036A-2007 Terminal, Lug, Crimp Style, Copper, Insulated, Ring Tongue, Bell-Mouthed, Type II, Class 1, (For 105°C Total Conductor Temperature)
• SAE AS25036B-2010 Terminal, Lug, Crimp Style, Copper, Insulated, Ring Tongue, Bell-Mouthed, Type II, Class 1, (For 105°C Total Conductor Temperature)
• SAE AS1426C-1998 TERMINAL, LUG, CRIMP STYLE, COPPER, UNINSULATED, RING TONGUE, TYPE I, CLASS I, FOR 175°C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/11-2007 Terminal, Lug, Crimp Style, copper, Uninsulated, Ring Tongue, Tin Whisker Resistant, Type I, Class I, for 175 °C Total conductor Temperature
• SAE AS20659B_A1-2008 Terminal, Lug, Crimp Style, Copper, Uninsulated, Ring Tongue, Type I, Class I, for 175°C Total Conductor Temperature
• SAE AS25036-2004 TERMINAL, LUG, CRIMP STYLE, COPPER, INSULATED, RING TONGUE, BELL-MOUTHED, TYPE II, CLASS 1, (FOR 105°C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS20659A_A1-2004 Terminal, Lug, Crimp Style, Copper, Uninsulated, Ring Tongue, type I, Class I, for 175°C Total Conductor Temperature
• SAE AS17143-2012 TERMINAL, LUG, CRIMP STYLE, COPPER, INSULATED, RECTANGULAR TONGUE, TYPE II, CLASS 1 FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/12_A1-2008 Terminal, Lug, Crimp Style, Copper, Insulated, Ring Tongue, Bell-Mouthed, Tin Whisker, Type II, Class 1 (for 105 °C Total Conductor Temperature)
• SAE AS17143B-2020 TERMINAL, LUG, CRIMP STYLE, COPPER, INSULATED, RECTANGULAR TONGUE, TYPE II, CLASS 1 FOR 105 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS25036E-2020 TERMINAL, LUG, CRIMP STYLE, COPPER, INSULATED, RING TONGUE, BELL-MOUTHED, TYPE II, CLASS 1 (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS21004E-2023 TERMINAL, LUG, UNINSULATED, RECTANGULAR TONGUE, CRIMP STYLE, COPPER, TYPE I, CLASS 1, FOR 150 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS21004D-2022 TERMINAL, LUG, UNINSULATED, RECTANGULAR TONGUE, CRIMP STYLE, COPPER, TYPE I, CLASS 1, FOR 150 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS20659F-2017 TERMINAL, LUG, CRIMP STYLE, COPPER, UNINSULATED, RING TONGUE, TYPE I, CLASS 1, FOR 175 °C OR 260 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/11D-2019 TERMINAL, LUG, CRIMP STYLE, COPPER, UNINSULATED, RING TONGUE, TIN WHISKER RESISTANT, TYPE I, CLASS I, FOR 150 °C TOTAL CONDUCTOR TEMPERATURE
• SAE AS7928/12E-2020 TERMINAL, LUG, CRIMP STYLE, COPPER, INSULATED, RING TONGUE, BELL-MOUTHED, TIN WHISKER RESISTANT, TYPE II, CLASS 1, (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)
• SAE AS7928/6_A1-2004 Terminals, Lug and Splices, Conductor, Crimp Style, Splice, Electric, (Permanent, Type II, Class 1) for 150°C Total Conductor Temperature
• SAE AS7928/12F-2023 TERMINAL, LUG, CRIMP STYLE, COPPER, INSULATED, RING TONGUE, BELL-MOUTHED, TIN WHISKER RESISTANT, TYPE II, CLASS 1 (FOR 105 °C TOTAL CONDUCTOR TEMPERATURE)

German Institute for Standardization, Total temperature field diagram

• DIN 54190-1:2004 Non-destructive testing - Thermographic testing - Part 1: General principles
• DIN 19539:2016 Investigation of solids - Temperature-dependent differentiation of total carbon (TOC400, ROC, TIC900)
• DIN EN 17505:2022-08 Soil and waste characterization - Temperature dependent differentiation of total carbon (TOC400, ROC, TIC900); German and English version prEN 17505:2022 / Note: Date of issue 2022-07-08*Intended as replacement for DIN 19539 (2016-12).
• DIN 51866-1:2000 Temperature measurement - Part 1: Survey of laser spectroscopic methods
• DIN EN 60539-1:2008 Directly heated negative temperature coefficient thermistors - Part 1: Generic specification (IEC 60539-1:2008); German version EN 60539-1:2008
• DIN EN 2078:2003 Aerospace series - Metallic materials - Manufacturing schedule, inspection schedule, inspection and test report; Definition, general principles, preparation and approval; German and English version EN 2078:2001
• DIN 19539:2016-12 Investigation of solids - Temperature-dependent differentiation of total carbon (TOC<(Index)400>, ROC, TIC<(Index)900>) / Note: To be replaced by DIN EN 17505 (2022-08).
• DIN EN 62226-1:2005 Exposure to electric or magnetic fields in the low and intermediate frequency range - Methods for calculating the current density and internal electric field induced in the human body - Part 1: General (IEC 62226-1:2004); German version EN 62226-1:2005
• DIN EN 2346-002:2007 Aerospace series - Cable, electrical, fire resistant - Operating temperatures between -65 °C and 260 °C - Part 002: General; German and English version EN 2346-002:2006
• DIN EN 16714-1:2016 Non-destructive testing - Thermographic testing - Part 1: General principles; German version EN 16714-1:2016
• DIN EN 62373:2007 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET) (IEC 62373:2006); German version EN 62373:2006
• DIN EN 27243:1993 Hot environments; estimation of the heat stress on working man, based on the WBGT-index (wet bulb globe temperature) (ISO 7243:1989); German version EN 27243:1993
• DIN EN 14015:2017 Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above; German and English version prEN 14015:2017
• DIN EN 62373:2007-01 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET) (IEC 62373:2006); German version EN 62373:2006
• DIN EN 14015:2005-02 Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above; German version EN 14015:2004 / Note: To be replaced by DIN ...
• DIN EN 62319-1:2005 Polymeric thermistors - Directly heated positive step function temperature coefficient - Part 1: Generic specification (IEC 62319-1:2005); German version EN 62319-1:2005
• DIN EN 14620-1:2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 °C and -165 °C - Part 1: General; English version of DIN EN 14620-1:2006-12
• DIN EN 14620-1:2022 Design and manufacture of site built, vertical, cylindrical, flat-bottomed tank systems for the storage of refrigerated, liquefied gases with operating temperatures between 0 ？C and -196 ？C - Part 1: General; German and English version prEN 14620-1:2022
• DIN EN 2266-002:2006 Aerospace series - Cables, electrical, for general purpose - Operating temperatures between -55 °C and 200 °C - Part 002: General; German and English version EN 2266-002:2005
• DIN EN 2267-002:2015 Aerospace series - Cables, electrical, for general purpose - Operating temperatures between -55 °C and 260 °C - Part 002: General; German and English version EN 2267-002:2015
• DIN EN 2267-002:2012 Aerospace series - Cables, electrical, for general purpose - Operating temperatures between -55 °C and 260 °C - Part 002: General; German and English version EN 2267-002:2012
• DIN EN 60539-1:2017 Directly heated negative temperature coefficient thermistors - Part 1: Generic specification (IEC 60539-1:2016); German version EN 60539-1:2016
• DIN 54162:2006 Non-destructive testing - Qualification and certification of personnel for thermographic testing - General and special principles for level 1, 2 and 3

Standard Association of Australia （SAA）, Total temperature field diagram

• AS 3894.7:2002(R2013)
• AS 4032.3:2004 Water supply - Valves for the control of hot water supply temperatures - Requirements for field testing, maintenance or replacment of thermostatic mixing valves, tempering valves and end of line temperature control devices

国家能源局, Total temperature field diagram

• NB/T 10308-2019 Infrared temperature field distribution test method for electric heating elements

Professional Standard - Electricity, Total temperature field diagram

• DL/T 5461.2-2013 Regulations for content and depth of detailed design documents of fossil-fired power plant.Part 2: General plan and transportation
• DL/T 5461.1-2012 Regulations for content and depth of detailed design documents of fossil-fired power plant - Part 1: General

American National Standards Institute （ANSI), Total temperature field diagram

• ANSI/ASTM E230:2012 Specification and Temperature-Electromotive Force (EMF) Tables for Standardized Thermocouples

PT-IPQ, Total temperature field diagram

• NP EN 1111-2000 Sanitary tapware Thermostatic mixing valves(PN 10) General technical specification

Danish Standards Foundation, Total temperature field diagram

• DS/IEC/TS 62306:2007 Ultrasonics - Field characterisation - Test objects for determining temperature elevation in diagnostic ultrasound fields
• DS/EN 62226-1:2005 Exposure to electric or magnetic fields in the low and intermediate frequency range - Methods for calculating the current density and internal electric field induced in the human body - Part 1: General
• DS/EN 14015:2005 Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above
• DS/EN 61788-8:2013 Superconductivity - Part 8: AC loss measurements - Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method
• DS/EN 62373:2006 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET)
• DS/EN 14620-1:2007 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 °C and -165 °C - Part 1: General
• DS/EN 2346-002:2006 Aerospace series - Cable, electrical, fire resistant - Operating temperatures between -65 °C and 260 °C - Part 002: General
• DS/EN 4049-002:2006 Aerospace series - Thermocouple extension cable - Operating temperatures between - 65 °C to 260 °C - Part 002: General

Association of German Mechanical Engineers, Total temperature field diagram

• VDI/VDE 2650 Blatt 5-2006 Requirements regarding self-monitoring and diagnosis in field instumentation - Temperature measurement

Occupational Health Standard of the People's Republic of China, Total temperature field diagram

• GBZ/T 192.1-2007 Determination of dust in the air of workplace.Part l：Total dust concentration
• GBZ/T 192.6-2018 Determination of dust in the air of workplaces - Part 6: Ultrafine particles and total fine particle concentration

International Organization for Standardization (ISO), Total temperature field diagram

• ISO 19012-1:2011 Microscopes - Designation of microscope objectives - Part 1: Flatness of field/Plan
• ISO 19012-1:2013 Microscopes.Designation of microscope objectives .Part 1: Flatness of field/Plan
• ISO 2767:1973 Surface treatments of metals — Anodic oxidation of aluminium and its alloys — Specular reflectance at 45 degrees — Total reflectance — Image clarity
• ISO/CD 17744:2023 Plastics — Determination of specific volume as a function of temperature and pressure, pvT diagram — Piston apparatus method
• ISO 17744:2004 Plastics - Determination of specific volume as a function of temperature and pressure (pvT diagram) - Piston apparatus method
• ISO 124:1997/Amd 2:2008 Latex, rubber - Determination of total solids content - Amendment 2: Determination at temperatures higher than 105 °C
• ISO 13653:2019 Optics and photonics — General optical test methods — Measurement of relative irradiance in the image field

Professional Standard - Civil Aviation, Total temperature field diagram

• MH 5022-2005 The compiling content and depth demand For detail design documents of civil airport project

Aerospace Industries Association/ANSI Aerospace Standards, Total temperature field diagram

• AIA/NAS NASM85353-2000 Nuts (Fasteners), Internally Threaded, Preload Locking, 450 Degrees F, 800 Degrees F and 1200 Degrees F, General Specification for
• AIA/NAS NASM85604-2000 Bolt, Nickel Alloy 718, Tension, High Strength, (125 KSI Fsu and 220 KSI Ftu), High Temperature, Spline Drive General Specification for

AWS - American Welding Society, Total temperature field diagram

• PHSP WC & DC-1996 "Suggester Filler Materials and Minimum Preheat Temperatures for Welding Steel Pipe with Wall Thickness Less than 3/4""@ Wall and Desk Charts"

CEN - European Committee for Standardization, Total temperature field diagram

• EN 2267-002:2012 Aerospace series - Cables@ electrical@ for general purpose - Operating temperatures between - 55 °C and 260 °C - Part 002: General
• EN 2267-002:2005 Aerospace series - Cables@ electrical@ for general purpose - Operating temperatures between - 55 degrees Celsius and 260 degrees celsius - Part 002: General
• PREN 14015-2017 Specification for the design and manufacture of site built@ vertical@ cylindrical@ flat-bottomed@ above ground@ welded@ steel tanks for the storage of liquids at ambient temperature and above

European Association of Aerospace Industries, Total temperature field diagram

• AECMA PREN 2266-002-2000 Aerospace Series Cables, Electrical, for General Purpose Operating Temperatures between - 55 Degrees C and 200 Degrees C Part 002: General Edition P 2
• AECMA PREN 2266-002-1995 Aerospace Series Cables, Electrical, for General Purpose Operating Temperatures between - 55 Degrees C and 200 Degrees C Part 002: General Edition P 1
• AECMA PREN 2265-002-1995 Aerospace Series Cables, Electrical, for General Purpose Operating Temperatures Between -55 Degrees Celsius and +150 Degrees Celsius Part 002: General Edition P 1 [Superseded By: ASD-STAN PREN 2265]
• AECMA PREN 2267-002-1995 Aerospace Series Cables, Electrical, for General Purpose Operating Temperatures between - 55 Degrees C and 260 Degrees C Part 002: General Edition P 1
• AECMA PREN 2267-002-2000 Aerospace Series Cables, Electrical, for General Purpose Operating Temperatures between - 55 Degrees C and 260 Degrees C Part 002: General Edition P 2
• AECMA PREN 2267-002-2003 Aerospace Series Cables, Electrical, for General Purpose Operating Temperatures between -55 Degrees C and 260 Degrees C Part 002: General Edition P 3
• AECMA PREN 2346-002-2001 Aerospace Series Cable, Electrical, Fire Resistant Operating Temperatures between -65 Degrees C and 260 Degrees C Part 002: General Issue P 1
• AECMA PREN 2346-002-2005 Aerospace Series Cable, Electrical, Fire Resistant Operating Temperatures between -65 Degrees C and 260 Degrees C Part 002: General Issue P 2

United States Navy, Total temperature field diagram

• NAVY QPL-24388-18-2006 THERMOCOUPLES AND RESISTANCE TEMPERATURE DETECTOR ASSEMBLIES, GENERAL SPECIFICATION FOR (NAVAL SHIPBOARD)

ESDU - Engineering Sciences Data Unit, Total temperature field diagram

• ESDU 84007 A-1991 The treatment of calibrations of total air temperature probes for use in flight-test analysis work.

Lithuanian Standards Office , Total temperature field diagram

• LST EN 14015-2005 Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above
• LST EN 62226-1-2005 Exposure to electric or magnetic fields in the low and intermediate frequency range. Methods for calculating the current density and internal electric field induced in the human body. Part 1: General (IEC 62226-1:2004)
• LST EN 14620-1-2006 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 °C and -165 °C - Part 1: General
• LST EN 62373-2006 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET) (IEC 62373:2006)
• LST EN 61788-8-2011 Superconductivity -- Part 8: AC loss measurements - Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method (IEC 61788-8:2010)
• LST EN 4049-002-2006 Aerospace series - Thermocouple extension cable - Operating temperatures between - 65 °C to 260 °C - Part 002: General

AENOR, Total temperature field diagram

• UNE-EN 14015:2005 Specification for the design and manufacture of site built, vertical, cylindrical, flat-bottomed, above ground, welded, steel tanks for the storage of liquids at ambient temperature and above
• UNE-EN 14620-1:2008 Design and manufacture of site built, vertical, cylindrical, flat-bottomed steel tanks for the storage of refrigerated, liquefied gases with operating temperatures between 0 °C and -165 °C - Part 1: General

ES-UNE, Total temperature field diagram

• UNE-EN 62373:2006 Bias-temperature stability test for metal-oxide, semiconductor, field-effect transistors (MOSFET) (IEC 62373:2006). (Endorsed by AENOR in November of 2006.)
• UNE-EN 61788-8:2010 Superconductivity -- Part 8: AC loss measurements - Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup coil method (Endorsed by AENOR in March of 2011.)

U.S. Military Regulations and Norms, Total temperature field diagram

• ARMY MIL-PRF-55365 G (2)-2008 CAPACITOR, FIXED, ELECTROLYTIC (TANTALUM), CHIP, ESTABLISHED RELIABILITY, NONESTABLISHED RELIABILITY, AND HIGH RELIABILITY, GENERAL SPECIFICATION FOR
• ARMY MIL-PRF-49470 B VALID NOTICE 1-2008 Capacitor, Fixed, Ceramic Dielectric, Switch Mode Power Supply (General Purpose and Temperature Stable), Standard Reliability and High Reliability, General Specification for
• ARMY QPL-49470-QPD-2010 Capacitor, Fixed, Ceramic Dielectric, Switch Mode Power Supply (General Purpose and Temperature Stable), Standard Reliability and High Reliability, General Specification for

US-CFR-file, Total temperature field diagram

• CFR 39-3010.6-2014 Postal Service. Part3010:Regulation of rates for market dominant products. Section3010.6:Type 2 rate adjustment—in general.

PL-PKN, Total temperature field diagram

• PN N84455-1992 Photography Slide projectors Determination of temperature rise in the picture area using a glass sandwich test slide

YU-JUS, Total temperature field diagram

• JUS C.T7.239-1984 Anodic oxidation of aluminium and aluminium.alloys. Specular reflectance at 45", total reflectance, image clarity methods
• JUS M.E6.203-1984 Water central heating plants. Hot water heating with flow temperature above 110°C and pressure in exess of 0,5 bar overpressure. Safety reguirements and assembly

KR-KS, Total temperature field diagram

• KS C IEC 61788-8-2020 Superconductivity — Part 8: AC loss measurements —Total AC loss measurement of round superconducting wires exposed to a transverse alternating magnetic field at liquid helium temperature by a pickup c

API - American Petroleum Institute, Total temperature field diagram

• API PUBL 4533 VOLUME I-1994 Effects of Fuel RVP and Fuel Blends on Emissions at Non-FTP Temperatures Volume I: Summary Report

ZA-SANS, Total temperature field diagram

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Others:   Temperature field diagram, Total temperature field diagram, Temperature field diagram, total ion map, Total Particle Flow Map, Precursor Total Ion Map.