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temperature liquidus

temperature liquidus, Total:141 items.

In the international standard classification, temperature liquidus involves: Welding, brazing and soldering, Materials for aerospace construction, Aerospace electric equipment and systems, Glass, Testing of metals, Electricity. Magnetism. Electrical and magnetic measurements, Insulating materials, Vocabularies, Petroleum products in general, Inorganic chemicals, Textile machinery, Thermodynamics and temperature measurements, Plastics, Products of non-ferrous metals, Paints and varnishes, Fertilizers, Inks. Printing inks.

Society of Automotive Engineers (SAE), temperature liquidus

SAE AMS4787F-2000 Gold-Nickel Alloy, Brazing Filler Metal, High Temperature, 82Au 18Ni, 1740°F (949°C) Solidus-Liquidus Temperature
SAE AS4851A-2005 Relative Thermal Life and Temperature Index for Insulated Electric Wire
SAE AMS4787F-2008 Gold-Nickel Alloy, Brazing Filler Metal, High Temperature 82Au - 18Ni 1740 °F (949 °C) Solidus-Liquidus Temperature
SAE AMS4787H-2022 Gold-Nickel Alloy, Brazing Filler Metal, High Temperature 82Au - 18Ni 1740 °F (949 °C) Solidus-Liquidus Temperature
SAE AS4851A-2017 Relative Thermal Life and Temperature Index for Insulated Electric Wire
SAE AMS4784G-2012 Gold-Palladium-Nickel Alloy, Brazing Filler Metal, High Temperature 50Au - 25Pd - 25Ni 2015 to 2050 °F (1102 to 1121 °C) Solidus-Liquidus Range (UNS P00500)
SAE AMS4783F-2003 Cobalt Alloy, High Temperature Brazing Filler Metal 50Co 8.0Si 19Cr 17Ni 4.0W 0.80B 2050 to 2100°F (1121 TO 1149°C) Solidus-Liquidus Range
SAE AMS4784D-1999 GOLD-PALLADIUM-NICKEL ALLOY BRAZING FILLER METAL, HIGH TEMPERATURE 50Au - 25Pd - 25Ni 2015 to 2050 °F (1102 to 1121°C) Solidus-Liquidus Range
SAE AMS4786F-2002 Gold-Palladium-Nickel Alloy, Brazing Filler Metal, High Temperature 70Au - 8.0Pd - 22Ni 1845 to 1915 °F (1007 to 1046 °C) Solidus-Liquidus Range
SAE AMS4785F-2002 Gold-Palladium-Nickel Alloy, Brazing Filler Metal, High Temperature 30Au - 34Pd - 36Ni 2075 to 2130 °F (1135 to 1166 °C) Solidus-Liquidus Range
SAE AMS4786K-2021 Gold-Palladium-Nickel Alloy, Brazing Filler Metal, High Temperature 70Au - 8.0Pd - 22Ni 1845 to 1915 °F (1007 to 1046 °C) Solidus-Liquidus Range (UNS P00700)
SAE AMS5337D-2007 Steel, Maraging, Investment Castings 18.5Ni - 9.0Co - 5.0Mo - 0.70Ti - 0.12Al Vacuum Melted Homogenized, Overaged, and Solution Heat Treated UNS J93150
SAE AMS4784F-2006 Gold-Palladium-Nickel Alloy, Brazing Filler Metal, High Temperature 50Au - 25Pd - 25Ni 2015 to 2050 °F (1102 to 1121 °C) Solidus-Liquidus Range
SAE AMS4784G-2018 Gold-Palladium-Nickel Alloy, Brazing Filler Metal, High Temperature 50Au - 25Pd - 25Ni 2015 to 2050 °F (1102 to 1121 °C) Solidus-Liquidus Range
SAE AMS4783F-2008 Cobalt Alloy, High Temperature Brazing Filler Metal 50Co - 8.0Si - 19Cr - 17Ni - 4.0W - 0.80B 2050 to 2100 °F (1121 to 1149 °C) Solidus-Liquidus Range

SAE - SAE International, temperature liquidus

SAE AMS4787G-2017 Gold-Nickel Alloy, Brazing Filler Metal, High Temperature, 82Au 18Ni, 1740°F (949°C) Solidus-Liquidus Temperature
SAE AMS4787C-1990 BRAZING FILLER METAL@ HIGH TEMPERATURE 82Au - 18Ni 1740°F (949°C) Solidus-Liquidus Temperature (UNS P00820)
SAE AMS4787D-1992 Gold-Nickel Alloy Brazing Filler Metal@ High Temperature 82Au - 18Ni 1740 Degrees F (949 Degrees C) Solidus- Liquidus Temperature
SAE AMS4787E-1999 Gold-Nickel Alloy@ Brazing Filler Metal@ High Temperature 82Au - 18Ni 1740 Degrees F (949 Degrees C) Solidus-Liquidus Temperature (UNS P00820)
SAE AMS4787A-1978 BRAZING FILLER METAL@ HIGH TEMPERATURE 82Au - 18Ni 1740°F (950°C) Solidus-Liquidus Temperature (UNS P00820)
SAE AMS4787B-1984 BRAZING FILLER METAL@ HIGH TEMPERATURE 82Au - 18Ni@ 1740°F (950°C) Solidus-Liquidus Temperature (UNS P00820)
SAE AMS4785B-1984 BRAZING FILLER METAL@ HIGH TEMPERATURE 30Au - 34Pd - 36Ni 2075° - 2130°F (1135° - 1165°C) Solidus-Liquidus Range (UNS P00300)
SAE AMS4785C-1990 BRAZING FILLER METAL@ HIGH TEMPERATURE 30Au - 34Pd - 36Ni 2075° - 2130°F (1135° - 1166°C) Solidus-Liquidus Range (UNS P00300)
SAE AMS4786B-1984 BRAZING FILLER METAL@ HIGH TEMPERATURE 70Au - 8.0Pd - 22Ni 1845° - 1915°F (1005° - 1045°C) Solidus-Liquidus Range (UNS P00700)
SAE AMS4786C-1990 BRAZING FILLER METAL@ HIGH TEMPERATURE 70Au - 8.0Pd - 22Ni 1845° - 1915° F (1007° - 1046° C) Solidus-Liquidus Range (UNS P00700)
SAE AMS4784B-1984 BRAZING FILLER METAL@ HIGH TEMPERATURE 50Au - 25Pd - 25Ni@ 2015° - 2050°F (1100° to 1120 °C) Solidus-Liquidus Range (UNS P00500)
SAE AMS4783A-1978 Brazing Filler Metal@ High Temperature 50Co - 8.0Si - 19Cr - 17Ni - 4.0W - 0.80B 2050° - 2100°F (1120° - 1150°C) Solidus-Liquidus Range
SAE AMS4783B-1985 Brazing Filler Metal@ High Temperature 50Co - 8.0Si - 19Cr - 17Ni - 4.0W - 0.80B 2050° - 2100°F (1120° - 1150°C) Solidus-Liquidus Range
SAE AMS4784C-1990 BRAZING FILLER METAL@ HIGH TEMPERATURE 50Au - 25Pd - 25Ni@ 2015° - 2050°F (1102° - 1121°C) Solidus-Liquidus Range (UNS P00500)
SAE AMS4778F-1994 NICKEL ALLOY@ BRAZING FILLER METAL 92Ni - 4.5Si - 3.1B 1800 to 1900 degrees Solidus-Liquidus Range (UNS N99630)
SAE AMS3415B-1992 Flux@ Aluminum Dip Brazing 1030 Degrees F (554 Degrees C) or Lower Liquidus
SAE AMS4784D-1992 Gold-Palladium-Nickel Alloy Brazing Filler Metal@ High Temperature 50Au - 25Pd - 25Ni 2015 to 2050 Degrees F (1102 to 1121 Degrees C) Solidus-Liquidus Range
SAE AMS4786E-1999 Gold-Palladium-Nickel Alloy@ Brazing Filler Metal@ High Temperature 70Au - 8.0Pd - 22Ni 1845 to 1915 Degrees F (1007 to 1046 Degrees C) Solidus-Liquidus Range (UNS P00700)
SAE AMS4784E-1999 Gold-Palladium-Nickel Alloy@ Brazing Filler Metal@ High Temperature 50Au - 25Pd - 25Ni 2015 to 2050 Degrees F (1102 to 1121 Degrees C) Solidus-Liquidus Range (UNS P00500)
SAE AMS4785D-1992 Gold-Palladium-Nickel Alloy Brazing Filler Metal@ High Temperature 30Au - 34Pd - 36Ni 2075 to 2130 Degrees F (1135 to 1166 Degrees C) Solidus-Liquidus Range
SAE AMS4786D-1992 Gold-Palladium-Nickel Alloy Brazing Filler Metal@ High Temperature 70Au - 8.0Pd - 22Ni 1845 to 1915 Degrees F (1007 to 1046 Degrees C) Solidus-Liquidus Range
SAE AMS4774D-1991 Brazing Filler Metal@ Silver 63Ag - 28.5Cu - 6.0Sn - 2.5Ni 1275 Degrees to 1475 Degrees F (691 Degrees to 802 Degrees C) Solidus-Liquidus Range (UNS P07630)
SAE AMS4765D-1992 Silver Alloy Brazing Filler Metal 56Ag - 42Cu - 2.0Ni 1420 to 1640 Degrees F (771 to 893 Degrees C) Solidus- Liquidus Range
SAE AMS4786G-2007 Gold-Palladium-Nickel Alloy@ Brazing Filler Metal@ High Temperature 70Au - 8.0Pd - 22Ni 1845 to 1915 °F (1007 to 1046 °C) Solidus-Liquidus Range (UNS P00700)
SAE AMS4784F-2001 Gold-Palladium-Nickel Alloy@ Brazing Filler Metal@ High Temperature 50Au - 25Pd - 25Ni 2015 to 2050 °F (1102 to 1121 °C) Solidus-Liquidus Range (UNS P00500)
SAE AMS4769E-1992 Silver Alloy Brazing Filler Metal 45Ag - 24Cd - 16Zn - 15Cu 1125 to 1145 Degrees F (607 to 618 Degrees C) Solidus- Liquidus Range
SAE AMS4770J-1992 Silver Alloy Brazing Filler Metal 50Ag - 18Cd - 16.5Zn - 15.5Cu 1160 to 1175 Degrees F (627 to 635 Degrees C) Solidus -Liquidus Range
SAE AMS4778G-1995 Nickel Alloy@ Brazing Filler Metal 92Ni - 4.5Si - 3.1B 1800 to 1900 Degrees F Solidus-Liquidus Range (UNS N99630)
SAE MAM4778C-1995 Nickel Alloy@ Brazing Filler Metal 92Ni - 4.5Si - 3.1B 980 to 1040 Degrees C Solidus- Liquidus Range (UNS N99630)
SAE AMS4771G-1992 Silver Alloy Brazing Filler Metal 50Ag - 16Cd - 15.5Zn - 15.5Cu - 3.0Ni 1170 to 1270 Degrees F (632 to 688 Degrees C) Solidus- Liquidus Range
SAE AMS4783E-1995 Cobalt Alloy@ High Temperature Brazing Filler Metal 50Co - 8.0Si - 19Cr - 17Ni - 4.0W - 0.80B 2050 to 2100 Degrees F (1121 to 1149 Degrees C) Solidus- Liquidus Range (UNS R30040)
SAE AMS4785G-2007 Gold-Palladium-Nickel Alloy@ Brazing Filler Metal@ High Temperature 30Au - 34Pd - 36Ni 2075 to 2130 °F (1135 to 1166 °C) Solidus-Liquidus Range (UNS P00300)
SAE AMS4785E-1999 Gold-Palladium-Nickel Alloy@ Brazing Filler Metal@ High Temperature 30Au - 34Pd - 36Ni 2075 to 2130 °F (1135 to 1166 °C) Solidus-Liquidus Range (UNS P00300)
SAE AMS4763-1992 Silver Alloy Brazing Filler Metal 56Ag - 22Cu - 17Zn - 5.0Sn 1145 to 1205 Degrees F (618 to 652 Degrees C) Solidus- Liquidus Range (UNS P07563)
SAE AMS4761-1992 Silver Alloy Brazing Filler Metal 38Ag - 32Cu - 28Zn - 2.0Sn 1200 to 1330 Degrees F (649 to 721 Degrees C) Solidus- Liquidus Range (UNS P07380)
SAE AMS4786A-1978 BRAZING FILLER METAL@ HIGH TEMPERATURE 70Au - 8.0Pd - 22Ni 1845° - 1915° F (1005° - 1045° C) Solidus-Liquidus Range (UNS P00700)
SAE AMS4772G-1991 BRAZING FILLER METAL@ SILVER 54Ag - 40Cu - 5.0Zn - 1.0Ni 1325 Degrees - 1575 Degrees F (718 Degrees - 857 Degrees C) Solidus-Liquidus Range (UNS P07540)
SAE AMS4772F-1984 BRAZING FILLER METAL@ SILVER 54Ag - 40Cu - 5.0Zn - 1.0Ni 1325 Degrees - 1575 Degrees F (720 Degrees - 855 Degrees C) Solidus-Liquidus Range (UNS P07540)
SAE AMS4783C-1991 Brazing Filler Metal@ High Temperature 50Co - 8.0Si - 19Cr - 17Ni - 4.0W - 0.80B 2050° - 2100°F (1121° - 1149 °C) Solidus-Liquidus Range (UNS S30040)
SAE AMS4788-1990 FILLER METAL@ SILVER@ BRAZING 50Ag - 28Zn - 20Cu - 2.0Ni 1220 Degrees to 1305 Degree F (660 Degrees to 707 Degree C) Solidus-Liquidus Range (UNS P07505)
SAE AMS5337B-1995 Steel, Maraging, Investment Castings 18.5Ni - 9.0Co - 5.0Mo - 0.70Ti - 0.12Al Vacuum Melted Homogenized, Overaged, and Solution Heat Treated UNS J93150
SAE AMS5337E-2017 Steel@ Maraging@ Investment Castings 18.5Ni - 9.0Co - 5.0Mo - 0.70Ti - 0.12Al Vacuum Melted Homogenized@ Overaged@ and Solution Heat Treated (UNS J93150)
SAE AMS4766F-1992 Silver Alloy Brazing Filler Metal 85Ag - 15Mn 1760 Degrees to 1780 Degrees F (960 Degrees to 971 Degrees C) Solidus-Liquidus Range
SAE AMS4773E-1992 Silver Alloy Brazing Filler Metal 60Ag - 30Cu - 10Sn 1115 to 1325 Degrees F (602 to 718 Degrees C) Solidus- Liquidus Range
SAE AMS4767E-1992 Silver Alloy Brazing Filler Metal 92.5Ag - 7.2Cu - 0.22Li 1435 to 1635 Degrees F (779 to 891 Degrees C) Solidus-Liquidus Range
SAE AMS4764D-1992 Copper Alloy Brazing Filler Metal 52.5Cu - 38Mn - 9.5Ni 1615 to 1700 Degrees F (879 to 927 Degrees C) Solidus-Liquidus Range (UNS C69950)
SAE AMS4774E-1992 Silver Alloy Brazing Filler Metal 63Ag - 28.5Cu - 6.0Sn - 2.5Ni 1275 to 1475 Degrees F (691 to 802 Degrees C) Solidus-Liquidus Range
SAE AMS4772H-1992 Silver Alloy Brazing Filler Metal 54Ag - 40Cu - 5.0Zn - 1.0Ni 1325 to 1575 Degrees F (718 to 857 Degrees C) Solidus-Liquidus Range
SAE AMS4768G-1992 Silver Alloy Brazing Filler Metal 35Ag - 26Cu - 21Zn - 18Cd 1125 to 1295 Degrees F (607 to 702 Degrees C) Solidus-Liquidus Range
SAE AMS4780D-1992 Manganese Alloy Brazing Filler Metal 66Mn - 16Ni - 16Co - 0.80B 1770 to 1875 Degrees F (965 to 1024 Degrees C) Solidus-Liquidus Range (UNS M26800)
SAE AMS4772E-1978 Brazing Filler Metal@ Silver 54Ag - 40Cu - 5.0Zn - 1.0Ni 1325 to 1575 Degrees F (718 to 857 Degrees C) Solidus-Liquidus Range (UNS P07540)
SAE AMS4783D-1992 Cobalt Alloy Brazing Filler Metal@ High Temperature 50Co - 8.0Si - 19Cr - 17Ni - 4.0W - 0.80B 2050 to 2100 °F (1121 to 1149 °C) Solidus-Liquidus Range (UNS R30040)
SAE AMS4762-1992 Silver Alloy Brazing Filler Metal 40Ag - 30Cu - 30Zn 1245 to 1340 Degrees F (674 to 727 Degrees C) Solidus- Liquidus Range (UNS P07402)

American Society for Testing and Materials (ASTM), temperature liquidus

ASTM C829-81(1995)e1 Standard Practices for Measurement of Liquidus Temperature of Glass by the Gradient Furnace Method
ASTM C829-81(2000) Standard Practices for Measurement of Liquidus Temperature of Glass by the Gradient Furnace Method
ASTM C829-81(2022) Standard Practices for Measurement of Liquidus Temperature of Glass by the Gradient Furnace Method
ASTM C829-81(2015) Standard Practices for Measurement of Liquidus Temperature of Glass by the Gradient Furnace Method
ASTM C1720-21 Standard Test Methods for Determining Liquidus Temperature of Waste Glasses and Simulated Waste Glasses
ASTM C1720-17e1 Standard Test Method for Determining Liquidus Temperature of Waste Glasses and Simulated Waste Glasses
ASTM C1720-17 Standard Test Method for Determining Liquidus Temperature of Waste Glasses and Simulated Waste Glasses
ASTM C1720-11e1 Standard Test Method for Determining Liquidus Temperature of Immobilized Waste Glasses and Simulated Waste Glasses
ASTM D2219-97 Standard Specification for Poly(Vinyl Chloride) Insulation for Wire and Cable, 60176C Operation
ASTM D2219-21 Standard Specification for Poly(Vinyl Chloride) Insulation for Wire and Cable, 60 ��C Operation
ASTM E344-07 Terminology Relating to Thermometry and Hydrometry
ASTM E344-06 Terminology Relating to Thermometry and Hydrometry
ASTM D3860-98 Standard Practice for Determination of Adsorptive Capacity of Activated Carbon by Aqueous Phase Isotherm Technique
ASTM D3860-98(2003) Standard Practice for Determination of Adsorptive Capacity of Activated Carbon by Aqueous Phase Isotherm Technique
ASTM D3860-98(2008) Standard Practice for Determination of Adsorptive Capacity of Activated Carbon by Aqueous Phase Isotherm Technique
ASTM D3860-98(2014) Standard Practice for Determination of Adsorptive Capacity of Activated Carbon by Aqueous Phase Isotherm Technique
ASTM D7867-13(2020) Standard Test Methods for Measurement of the Rotational Viscosity of Paints, Inks and Related Liquid Materials as a Function of Temperature
ASTM D6822-02(2008) Standard Test Method for Density, Relative Density, and API Gravity of Crude Petroleum and Liquid Petroleum Products by Thermohydrometer Method
ASTM D7867-13 Standard Test Methods for Measurement of the Rotational Viscosity of Paints, Inks and Related Liquid Materials as a Function of Temperature

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

GB/T 6526-1986 Self-fluxing alloy powders--Determination of solidus-liquidus temperature range

Professional Standard - Non-ferrous Metal, temperature liquidus

YS/T 533-2006 Method for Determination of Solid-Liquidus Temperature Range of Self-fluxing Alloy Powder

ESDU - Engineering Sciences Data Unit, temperature liquidus

ESDU 89023-1989 Temperatures in plates subjected to a recovery temperature varying linearly with time.
ESDU 77016 B-2007 The gravitational component of pressure gradient for two-phase gas or vapour/liquid flow through straight pipes.
ESDU 89025-1989 Thermal stresses in unrestrained plates subjected to a recovery temperature varying linearly with time.
ESDU 89024-1989 Resultant forces and moments in completely restrained plates subjected to a recovery temperature varying linearly with time.

IN-BIS, temperature liquidus

IS 2627-1979

American National Standards Institute （ANSI), temperature liquidus

ANSI/IEEE 738:2006 Standard for Calculating the Current-Temperature of Bare Overhead Conductors

CL-INN, temperature liquidus

INDITECNOR 20-102

ASD-STAN - Aerospace and Defence Industries Association of Europe - Standardization, temperature liquidus

PREN 3877-1993 Aerospace Series Test Method for Braze Alloys Determination of Solidus and Liquidus Temperatures by Differential Thermal Analysis
PREN 3877-1997 Aerospace Series Metallic Materials Test Method Determination of Solidus and Liquidus Temperatures by Differential Thermal Analysis of Braze Alloys (Edition P 1)
PREN 3684-1996 Aerospace Series Test Methods Titanium Alloy Wrought Products Determination of Beta Ray Transus Temperature Metallographic Method (Edition P 1)

National Aeronautics and Space Administration (NASA), temperature liquidus

NASA-CR-135255-1977 Two-Phase Working Fluids for the Temperature Range 50 to 350 C

未注明发布机构, temperature liquidus

SAE AMS4783G-2014 Brazing Filler Metal@ High Temperature 50Co - 8.0Si - 19Cr - 17Ni - 4.0W - 0.80B 2050° - 2100°F (1120° - 1150°C) Solidus-Liquidus Range

ES-UNE, temperature liquidus

SAE AS4851A-2023 Relative Thermal Life and Temperature Index for Insulated Electric Wire

Aerospace, Security and Defence Industries Association of Europe (ASD), temperature liquidus

ASD-STAN PREN 3877-1997 Aerospace Series Metallic Materials Test Method Determination of Solidus and Liquidus Temperatures by Differential Thermal Analysis of Braze Alloys (Edition P 1)

YU-JUS, temperature liquidus

JUS U.J1.070-1986 Fire protection. Standard time-temperature curve in fire resistance test furnaces for constructions
JUS N.C7.112-1984 VVinding wires. Enamelled round copper wires, with two types of enamel insulation, self-fluxing at in- creased tempera tu res. Technical requirement? for manu factu ring.

国家质量监督检验检疫总局, temperature liquidus

SN/T 4432-2016 Determination of Density, Relative Density and API Gravity of Crude Oil and Liquid Petroleum Products Thermohydrometer Method

IT-UNI, temperature liquidus

IEEE - The Institute of Electrical and Electronics Engineers@ Inc., temperature liquidus

IEEE 55-1953 Guide for Temperature Correlation in the Connection of Insulated Wire and Cables to Electronic Equipment

Association Francaise de Normalisation, temperature liquidus

NF G41-030:1983 Textile and allied machinery and accessories. Table of twisting machinery and terminologie relating to throwing, twisting and conditioning operations.
UTE C46-407U*UTE C46-407:1989 Provisional requirements. Industrial-process measurement and control. Four wire temperature converters-transmitters, with adjustable configuration.
NF T51-507-5*NF EN ISO 11357-5:2014 Plastics - Differential scanning calorimetry (DSC) - Part 5 : determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
NF UTE C46-407:1989 Prescriptions provisoires - Mesure et commandes dans les processus industriels - Convertisseurs-transmetteurs de températures, configurables, à 4 fils
NF EN ISO 11357-5:2014 Plastiques - Analyse calorimétrique différentielle (DSC) - Partie 5 : détermination des températures et temps caractéristiques de la courbe de réaction, de l'enthalpie de réaction et du degré de transformation
NF C46-407:1989 Provisional Requirements Industrial-Process Measurement and Control Four Wire Temperature Converters-Transmitters,With Adjustable Configuration
UTE C93-524U*UTE C93-524:1980 Components for electronic equipment. Wires for high temperatures up to 150 degrees C. Relevant article sheets.
NF C46-408:1989 Provisional Requirements Industrial-Process Measurement and Control Cabinet Mounted Two Wire Temperature Converters-Transmitters,With Adjustable Configuration

GOSTR, temperature liquidus

GOST R 8.988-2020 State system for ensuring the uniformity of measurements. Standard reference data. The density and thermal expansion of liquid lithium-lead alloys in the temperature range from the liquidus line to 1050 K and in the concentration range from 10 at. % to 84

British Standards Institution (BSI), temperature liquidus

BS ISO 11357-5:1999 Plastics - Differential scanning calorimetry (DSC) - Determination of characteristic reaction-curve temperatures and times, enthalphy of reaction and degree of conversion
BS ISO 11357-5:2001 Plastics - Differential scanning calorimetry (DSC) - Determination of characteristic reaction-curve temperatures and times, enthalphy of reaction and degree of conversion
BS ISO 11357-5:2013 Plastics. Differential scanning calorimetry (DSC). Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
BS EN ISO 11357-5:2014 Plastics. Differential scanning calorimetry (DSC). Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
22/30461615 DC BS EN 17925. Soil improvers and growing media. Determination of temperature and time profile during composting and digestion

PL-PKN, temperature liquidus

PN S47039-1992 Road vehicles. Elastomeric cups and seales for cylinders for hydraulic braking system using a non-petroleum base hydraulic brake fluid (service temperature 120 degree max)

European Association of Aerospace Industries, temperature liquidus

AECMA PREN 3877-1997 Aerospace Series Metallic Materials Test Method Determination of Solidus and Liquidus Temperatures by Differential Thermal Analysis of Braze Alloys Edition P 1
AECMA PREN 3877-1993 Aerospace Series Test Method for Braze Alloys Determination of Solidus and Liquidus Temperatures by Differential Thermal Analysis
AECMA PREN 3684-1996 Aerospace Series Test Methods Titanium Alloy Wrought Products Determination of Beta Ray Transus Temperature Metallographic Method Edition P 1

Institute of Electrical and Electronics Engineers (IEEE), temperature liquidus

IEEE Std 55-1953 IEEE Guide for Temperature Correlation in the Connection of Insulated Wire and Cables to Electronic Equipment
IEEE 835 PG 2129- 2222-1994(R2000) 69 kV l / c Self Contained Liquid Filled Lead Sheathed Power Cable in Underground Duct Bank - 1 Circuit - Three Cables - 12 in Spacing 25℃ Earth Ambient

German Institute for Standardization, temperature liquidus

DIN EN 17925:2022-11 Soil improvers and growing media - Determination of temperature and time profile during composting and digestion; German and English version prEN 17925:2022 / Note: Date of issue 2022-10-21
DIN EN 17925:2022 Soil improvers and growing media - Determination of temperature and time profile during composting and digestion; German and English version prEN 17925:2022
DIN EN ISO 11357-5:2014-07 Plastics - Differential scanning calorimetry (DSC) - Part 5: Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion (ISO 11357-5:2013); German version EN ISO 11357-5:2014

RU-GOST R, temperature liquidus

GOST R 56755-2015 Plastics. Differential scanning calorimetry (DSC). Part 5. Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion

International Organization for Standardization (ISO), temperature liquidus

ISO 11357-5:1999 Plastics - Differential scanning calorimetry (DSC) - Part 5: Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
ISO 11357-5:2013 Plastics - Differential scanning calorimetry (DSC) - Part 5: Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion

Korean Agency for Technology and Standards (KATS), temperature liquidus

KS M ISO 11357-5:2007 Plastics-Differential scanning calorimetry(DSC)-Part 5:Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
KS M ISO 11357-5:2015 Plastics－Differential scanning calorimetry(DSC)－Part 5：Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion
KS M ISO 11357-6:2018 Plastics — Differential scanning calorimetry (DSC) — Part 6:Determination of oxidation induction time (isothermal OIT) and oxidation induction temperature (dynamic OIT)
KS M ISO 11357-5-2015(2020) Plastics－Differential scanning calorimetry(DSC)－Part 5：Determination of characteristic reaction-curve temperatures and times, enthalpy of reaction and degree of conversion

KR-KS, temperature liquidus

KS M ISO 11357-6-2018 Plastics — Differential scanning calorimetry (DSC) — Part 6:Determination of oxidation induction time (isothermal OIT) and oxidation induction temperature (dynamic OIT)

International Telecommunication Union (ITU), temperature liquidus

ITU-T R.103 FRENCH-1988 CODE AND SPEED-DEPENDANT TDM 600 BIT/S SYSTEM FOR USE IN POINT-TO-POINT OR BRANCH-LINE MULDEX CONFIGURATIONS