ZH
RU
ES

multiple melting peaks

multiple melting peaks, Total:40 items.

In the international standard classification, multiple melting peaks involves: Lifting equipment, Solar energy engineering, Ceramics, Electronic component assemblies, Mechanical structures for electronic equipment, Milk and milk products, Welding, brazing and soldering, Materials for aerospace construction.

Henan Provincial Standard of the People's Republic of China, multiple melting peaks

• DB41/T 1644-2018 Inspection Rules for Cranes Lifting Molten Metal
• DB41/T 1378-2017 Electric single girder crane for lifting molten metal

Group Standards of the People's Republic of China, multiple melting peaks

• T/CPARK 6-2020 Electric single girder crane for lifting molten metal
• T/CEMIA 018-2019 Fused Quartz Ceramic Crucible for Photovoltaic Polycrystalline Silicon

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, multiple melting peaks

• GB/T 32652-2016 Fused quartz used for quartz ceramic crucibles for casting polycrystalline silicon

Professional Standard - Building Materials, multiple melting peaks

• JC/T 2067-2011 Fused Silica ceramic crucible for solar poly-crystalline silicon crystal growth

Anhui Provincial Standard of the People's Republic of China, multiple melting peaks

• DB34/T 1719-2023 Inspection regulations for cranes using electric hoists as lifting mechanisms for lifting molten metal
• DB34/T 1719-2012 Inspection rules for cranes using electric hoist as lifting mechanism for lifting molten metal

European Committee for Electrotechnical Standardization（CENELEC）, multiple melting peaks

• EN 62739-3:2017 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 3: Selection guidance of erosion test methods

British Standards Institution (BSI), multiple melting peaks

• BS EN 62739-3:2017 Test method for erosion of wave soldering equipment using molten lead-free solder alloy. - Part 3: Selection guidance of erosion test methods
• BS EN 62739-2:2016 Test method for erosion of wave soldering equipment using molten lead-free solder alloy. Erosion test method for metal materials with surface processing
• BS EN 62739-1:2013 Test method for erosion of wave soldering equipment using molten lead-free solder alloy. Erosion test method for metal materials without surface processing

International Electrotechnical Commission (IEC), multiple melting peaks

• IEC 62739-3:2017 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 3: Selection guidance of erosion test methods

Korean Agency for Technology and Standards (KATS), multiple melting peaks

• KS H ISO 1735-2006(2016) Cheese and processed cheese products－Determination of fat content－Gravimetric method(Reference method)

Association Francaise de Normalisation, multiple melting peaks

• NF C93-742-3*NF EN 62739-3:2017 Test method for erosion of wave soldering equipment using molten lead free solder alloy - Part 3bn: selection guidance of erosion test methods
• NF C93-742-2*NF EN 62739-2:2016 Test method for erosion of wave soldering equipment using molten lead free solder alloy - Part 2 : erosion test method for metal materials with surface processing
• NF EN 62739-3:2017 Méthode d'essai de l'érosion de l'équipement de brasage à la vague utilisant un alliage à braser sans plomb fondu - Partie 3 : document d'orientation pour le choix des méthodes d'essai d'érosion
• NF C93-742-1*NF EN 62739-1:2014 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 1 : erosion test method for metal materials without surface processing
• NF EN 62739-1:2014 Méthode d'essai de l'érosion de l'équipement de brasage à la vague utilisant un alliage à braser sans plomb fondu - Partie 1 : méthode d'essai d'érosion de matériaux métalliques sans traitement de surface

SAE - SAE International, multiple melting peaks

• SAE AMS4935-1959 TITANIUM ALLOY EXTRUSIONS 6Al - 4V Consumable Electrode@ Multiple Vacuum Melted Annealed
• SAE AMS6516B-2017 Steel@ Bars and Forgings 1Cr – 10Ni – 7Co – 2Mo – 1.3W – 0.1V – (0.28 – 0.32C) Vacuum Induction Melted@ Vacuum Arc Remelted@ Normalized and Annealed Precipitation Hardenable (UNS K91973)
• SAE AMS5860D-1992 Steel@ Corrosion and Heat Resistant@ Sheet@ Strip@ and Plate 12Cr - 8.5Ni - 0.30(Cb + Ta)- 1.1Ti - 2.0Cu Multiple Melted@ Solution Heat Treated@ Precipitation Hardenable (UNS S45500)

German Institute for Standardization, multiple melting peaks

• DIN EN 62739-3:2017-10 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 3: Selection guidance of erosion test methods (IEC 62739-3:2017); German version EN 62739-3:2017
• DIN EN 62739-2:2017-04 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 2: Erosion test method for metal materials with surface processing (IEC 62739-2:2016); German version EN 62739-2:2016
• DIN EN 62739-1:2014-02 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 1: Erosion test method for metal materials without surface processing (IEC 62739-1:2013); German version EN 62739-1:2013
• DIN EN 62739-2:2017 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 2: Erosion test method for metal materials with surface processing (IEC 62739-2:2016); German version EN 62739-2:2016
• DIN EN 62739-1:2014 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 1: Erosion test method for metal materials without surface processing (IEC 62739-1:2013); German version EN 62739-1:2013

ES-UNE, multiple melting peaks

• UNE-EN 62739-3:2017 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 3: Selection guidance of erosion test methods (Endorsed by Asociación Española de Normalización in May of 2017.)
• UNE-EN 62739-2:2016 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 2: Erosion test method for metal materials with surface processing (Endorsed by AENOR in November of 2016.)
• UNE-EN 62739-1:2013 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 1: Erosion test method for metal materials without surface processing (Endorsed by AENOR in October of 2013.)

Society of Automotive Engineers (SAE), multiple melting peaks

• SAE AMS5940A-2005 Alloy, Corrosion and Heat Resistant, Bars, Forgings, and Rings 34Co 3.0Cr 28Ni 3.0Cb 5.5Al 0.008B 25.5Fe Multiple Melted, High Temperature, Oxidation Resistant, Low Expansion Solution Heat Treated, Precipication Hardenable
• SAE AMS5940B-2007 Alloy, Corrosion and Heat Resistant, Bars, Forgings, and Rings 34Co 3.0Cr 28Ni 3.0Cb(Nb) 5.5Al 0.008B 25.5Fe Multiple Melted, High Temperature, Oxidation Resistant, Low Expansion Solution Heat Treated, Precipication Hardenable
• SAE AMS6516A-2013 Steel, Bars and Forgings 1Cr 10Ni 7Co 2Mo 1.3W 0.1V (0.28 - 0.32C) Vacuum Induction Melted, Vacuum Arc Remelted, Normalized and Annealed Precipitation Hardenable
• SAE AMS5860E-2000 Steel, Corrosion Resistant, Sheet, Strip, and Plate 12Cr 8.5Ni 0.30Cb 1.1Ti 2.0Cu Multiple Melted, Solution Heat Treated, Precipitation Hardenable
• SAE AMS5860F-2006 Steel, Corrosion Resistant, Sheet, Strip, and Plate 12Cr - 8.5Ni - 0.30Cb - 1.1Ti - 2.0Cu Multiple Melted, Solution Heat Treated, Precipitation Hardenable UNS S45500
• SAE AMS5892B-2008 Alloy, Sheet and Strip 42Fe 37.5Ni 14Co 4.8Cb (Nb) 1.6Ti Solution Heat Treated, Precipitation Hardenable Multiple Melted, High Temperature, Low Expansion

Japanese Industrial Standards Committee (JISC), multiple melting peaks

• JIS C 62739-1:2015 Test method for erosion of wave soldering equipment using molten lead-free solder alloy -- Part 1: Erosion test method for metal materials without surface processing

Danish Standards Foundation, multiple melting peaks

• DS/EN 62739-1:2013 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 1: Erosion test method for metal materials without surface processing

CENELEC - European Committee for Electrotechnical Standardization, multiple melting peaks

• EN 62739-1:2013 Test method for erosion of wave soldering equipment using molten lead-free solder alloy - Part 1: Erosion test method for metal materials without surface processing

American Society for Testing and Materials (ASTM), multiple melting peaks

• ASTM E1019-08 Standard Test Methods for Determination of Carbon, Sulfur, Nitrogen, and Oxygen in Steel, Iron, Nickel, and Cobalt Alloys by Various Combustion and Fusion Techniques

Others:   melting peak and melting crystallization peak, dtg multiplet, dsc multiple melting peaks, melting peak, dsc melting peak, melting peak crystallization peak, melting peak melting crystallization peak, melting peak ratio melting temperature, melting peak + crystallization peak, melting peak crystallization peak, multiple melting peaks, dsc multiple melting peaks, crystallization peak melting peak, crystallization peak melting peak, melting peak melting temperature, dsc multiple fusion, Melting peak + melting crystallization peak, crystallization peak + melting peak, melting peak, melting peak.