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Principle of vacuum box

Principle of vacuum box, Total:229 items.

In the international standard classification, Principle of vacuum box involves: Vacuum technology, Environmental testing, Paper and board, Pharmaceutics, Metrology and measurement in general, Welding, brazing and soldering, Heat treatment, Sugar. Sugar products. Starch, Surface treatment and coating, Components for aerospace construction, Coals, Fluid storage devices, On-board equipment and instruments, Telecommunications in general, Fertilizers, Kitchen equipment, Materials for aerospace construction, Freight distribution of goods, Shipbuilding and marine structures in general, Terminology (principles and coordination), Vocabularies, Textile machinery, Iron and steel products, Paint ingredients, Industrial furnaces, Nuclear energy engineering, Installations in buildings, Ferrous metals, Floor treatment appliances, Road engineering, Road vehicle systems.

Association Francaise de Normalisation, Principle of vacuum box

• NF E29-720:1974 Vacuum technology. High vacuum connections. Basic principles.
• NF L65-211:1978 Control boxes. Dimensions and principles governing installation.
• NF V03-621*NF EN ISO 1741:1994 Dextrose. Determination of loss in mass on drying. Vacuum oven method.
• NF L10-510*NF EN 3532:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Plate - 6 mm < a < or = 40 mm - 1 750 MPa < or = Rm < or = 2000 MPa
• NF L10-511*NF EN 3528:2013 Aerospace series - Steel X2NiCoMo18-8-5 (1.6359) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Bar - a or D < ou = 150 mm - 1 750 MPa < or = Rm < or = 2 000 MPa
• NF L10-505*NF EN 3531:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Sheet and strip - a < or = 6 mm - 1 750 MPa < or = Rm < or = 2000 Mpa

Professional Standard - Machinery, Principle of vacuum box

• JB/T 9505-1999 Vacuum drying chamber
• JB/T 20130-2009 Boxing mocrowave vacumm drying machine
• JB/T 9210-1999 Vacuum heat treatment
• JB/T 11808-2014 Technical requirements of heat treatment for the vacuum-cleaning machine
• JB/T 11809-2014 Technical requirement of heat treatment for vaccum low pressure carburizing furnace
• JB/T 11810-2014 Technical requirements of heat treatment for vacuum high pressure gas quenching furnace
• JB/T 8195.3-1999 Indirect resistance furnaces ZR series vacuum heat-treating and brazing furnaces

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Principle of vacuum box

• GB/T 29251-2012 Vacuum ovens
• GB/T 22561-2023 Vacuum heat treatment
• GB/T 22561-2008 Vacuum heat treatment
• GB/T 8576-2002 Determination of free water for compound fertilizers--Vacuum oven method
• GB/T 8576-2010 Determination of free water for compound fertilizers.Vacuum oven method
• GB/T 50815-2013 Technical code of vacuum concentration treatment for weak sulfuric acid

CZ-CSN, Principle of vacuum box

• CSN ON 12 6117-1964
• CSN ON 12 6116-1964
• CSN 01 3622-1981 Graphical symbols. Construction elements of vacuum equipments
• CSN 49 3310-1984 Wooden cases for fork handling Principles of construction and dimensioning

工业和信息化部, Principle of vacuum box

• QB/T 5055-2017 Vacuum aluminum plated base paper
• YS/T 1361-2020 Vacuum lifting of raw aluminum liquid

Group Standards of the People's Republic of China, Principle of vacuum box

• T/SBX 076-2023 Specifications for Calibration of Vacuum Drying Ovens
• T/CAS 626-2022 Noise test methods for household refrigerators with vacuum module
• T/CNLIC 0070-2022 Household refrigerator — Test method and evaluation requirements for vacuum preservation
• T/GVS 003-2021 Ion source for vacuum surface treatment process
• T/NDAS 21-2020 Integrated high vacuum welding fume control system
• T/ZS 0024-2018 Technical Standards for Vacuum Preloading Foundation Treatment Engineering
• T/CHTS 10086-2023 Technical Guidelines for Vacuum Preloading of Highway Embankment on Under Consolidated Site

Association of German Mechanical Engineers, Principle of vacuum box

• DVS 3201-2001
• DVS 3201-2010 Fundamental principles for the designing of components for electron beam welding in fine and high vacuums
• DVS 3220-2007 Fundamental principles for the utilisation of non-vacuum electron beam welding - Technological and design-related notes

(U.S.) Ford Automotive Standards, Principle of vacuum box

• FORD FLTM BO 024-2-2001 DETERMINATION OF MOISTURE CONTENT OF NYLON - VACUUM OVEN METHOD

RU-GOST R, Principle of vacuum box

• GOST R 50545-1993 Glucose syrups. Determination of dry matter vacuum oven method
• GOST R 50547-1993 Dextrose. Determination of loss in mass on drying. Vacuum oven method
• GOST R 56519-2015 Automatic spacecrafts. Thermal vacuum treatment. General requirements

Korean Agency for Technology and Standards (KATS), Principle of vacuum box

• KS H ISO 1741-2008(2018) Dextrose－Determination of loss in mass on drying－Vacuum oven method
• KS H ISO 1742:2008 Glucose syrups－Determination of dry matter－Vacuum oven method
• KS H ISO 1742-2008(2018) Glucose syrups－Determination of dry matter－Vacuum oven method
• KS B 6846-1999(2019) Test code of vacuum heat treatment furnace
• KS H ISO 1741:2008 Dextrose－Determination of loss in mass on drying－Vacuum oven method
• KS V 0953-2014 On-board test procedure for vacuum sewage treatment system
• KS V 0953-2014(2019) On-board test procedure for vacuum sewage treatment system

Anhui Provincial Standard of the People's Republic of China, Principle of vacuum box

• DB34/T 3442-2019 Surface Treatment Method of Ultra High Vacuum Stainless Steel Vacuum Parts

NL-NEN, Principle of vacuum box

• NEN 2912-1985 Woodpreservation - Vacuüm treatment

Society of Automotive Engineers (SAE), Principle of vacuum box

• SAE AMS2769B-2009 Heat Treatment of Parts in a Vacuum
• SAE AMS2769A-2004 Heat Treatment of Parts in a Vacuum
• SAE AMS2769-2001 Heat Treatment of Parts in a Vacuum
• SAE AMS2769C-2019 Heat Treatment of Parts in a Vacuum
• SAE AMS2769A-2008 Heat Treatment of Parts in a Vacuum
• SAE AMS2769B-2014 Heat Treatment of Parts in a Vacuum
• SAE AMS2769-1996 Heat Treatment of Parts in a Vacuum R(2001)
• SAE AMS5844G-2008 Alloy, Corrosion-Resistant, Round Bars 20Cr 35Ni 35Co 10Mo Vacuum Induction Plus Vacuum Consumable Electrode Vacuum Remelted Solution Heat Treated and Work Strengthened
• SAE AMS5844H-2014 Alloy, Corrosion-Resistant, Round Bars, 20Cr - 35Ni - 35Co - 10Mo, Vacuum Induction Plus Consumable Electrode Vacuum Remelted, Solution Heat Treated and Work Strengthened
• SAE ARP5143-2002 Vacuum Bagging of Thermosetting Composite Repairs
• SAE AMS5845C-1984 ALLOY BARS, CORROSION RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Work Strengthened, and Aged
• SAE AMS5845B-1983 ALLOY BARS, CORROSION RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Work Strengthened, and Aged
• SAE AMS5845D-1990 ALLOY BARS, CORROSION RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Melted Solution Heat Treated, Work Strengthened, and Aged
• SAE AMS5399C-1993 Nickel Alloy, Corrosion and Heat Resistant, Investment Castings, 52Ni 19Cr 11Co 9.8Mo 3.2Ti 1.6Al 0.006B, Vacuum-Melted, Vacuum-Cast, Solution Heat Treated
• SAE AMS5399A-1977 ALLOY CASTINGS, INVESTMENT, CORROSION AND HEAT RESISTANT 52Ni - 19Cr - 11Co - 9.8Mo - 3.2Ti - 1.6Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution Treated
• SAE AMS5617D-1979 STEEL BARS AND FORGINGS, CORROSION RESISTANT 12Cr - 8.5Ni - 2.0Cu - 1.1Ti Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated
• SAE AMS5617B-1976 STEEL BARS AND FORGINGS, CORROSION RESISTANT 12Cr - 8.5Ni - 2.0Cu - 1.1Ti Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated
• SAE AMS5617C-1977 STEEL BARS AND FORGINGS, CORROSION RESISTANT 12Cr - 8.5Ni - 2.0Cu - 1.1Ti Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated
• SAE AMS5617E-1981 STEEL BARS AND FORGINGS, CORROSION RESISTANT 12Cr - 8.5Ni - 2.0Cu - 1.1Ti Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated
• SAE AMS5617A-1973 STEEL BARS AND FORGINGS, CORROSION RESISTANT 12Cr - 8.5Ni - 2.0Cu - 1.1Ti Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated
• SAE AMS5399B-1983 ALLOY CASTINGS, INVESTMENT, CORROSION AND HEAT RESISTANT 52Ni - 19Cr - 11Co - 9.8Mo - 3.2Ti - 1.6Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution Heat Treated
• SAE AMS5399-1966 ALLOY CASTINGS, INVESTMENT, CORROSION AND HEAT RESISTANT Nickel Base - 19Cr - 11Co - 9.75Mo - 3.15Ti - 1.6Al Vacuum Melted and Vacuum Cast, Solution Treated
• SAE AMS5936C-2007 Steel, Corrosion-Resistant, Bars, Wire, and Forgings 12Cr - 11Ni - 1.7Ti - 1Mo Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Precipitation Hardenable UNS S46500
• SAE AMS5929-2008 Steel, Corrosion-Resistant, Bars and Forgings 11.5Cr 10Ni 1.0Al 0.5Ti 1.0Cu 1.0W Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Precipitation Hardenable
• SAE AMS5399C-2000 Nickel Alloy, Corrosion and Heat Resistant, Investment Castings 52Ni - 19Cr - 11Co - 9.8Mo - 3.2Ti - 1.6Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution Heat Treated
• SAE AMS5844D-1990 ALLOY BARS, CORROSION RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Melted Solution Heat Treated and Work Strengthened
• SAE AMS5844B-1983 ALLOY BARS, CORROSION RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated and Work Strengthened
• SAE AMS5844C-1984 ALLOY BARS, CORROSION RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated and Work Strengthened
• SAE AMS5399D-2018 Nickel Alloy, Corrosion and Heat-Resistant, Investment Castings 52Ni - 19Cr - 11Co - 9.8Mo - 3.2Ti - 1.6Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution Heat Treated
• SAE AMS6562-2023 Medium Temperature, Out-of-Autoclave, Oven-Vacuum-Bag Cure Epoxy Resin Impregnated Fiber Reinforced Composite Materials
• SAE AMS5758D-1984 ALLOY BARS, CORROSION RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated for Work Strengthening
• SAE AMS5758E-1990 ALLOY BARS, CORROSION-RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Melted Solution Heat Treated for Work Strengthening
• SAE AMS5758G-2002 Alloy, Corrosion-Resistant, Bars 20Cr 35Ni 35Co 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Melted Solution Heat Treated for Work Strengthening
• SAE AMS5384A-1977 ALLOY CASTINGS, INVESTMENT, CORROSION AND HEAT RESISTANT 53Ni - 18Cr - 18Co - 4Mo - 2.9Ti - 2.9Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution and Precipitation Treated
• SAE AMS5876-1984 ALLOY STRIP, CORROSION AND HEAT RESISTANT 20Cr - 15Ni - 40Co - 7.0Mo - 0.06Be - 16Fe Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated and Cold Rolled
• SAE AMS5844F-2007 Alloy, Corrosion-Resistant, Round Bars 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Melted Solution Heat Treated and Work Strengthened
• SAE AMS5758G-2007 Alloy, Corrosion-Resistant, Bars 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Melted Solution Heat Treated for Work Strengthening
• SAE AMS5758J-2019 Alloy, Corrosion-Resistant, Bars 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Remelted Solution Heat Treated for Work Strengthening
• SAE AMS5935-2010 Steel, Corrosion-Resistant, Bars, Wire, and Forgings 12Cr - 10Ni - 2Mo - 0.9Al - 0.3Ti Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Precipitation Hardenable
• SAE AMS5758C-1983 ALLOY BARS, CORROSION-RESISTANT 20Cr - 35Ni - 35Co - 10Mo Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated for Work Strengthening
• SAE AMS5384B-1982 ALLOY CASTINGS, INVESTMENT, CORROSION AND HEAT RESISTANT 53Ni - 18Cr - 18Co - 4.0Mo - 2.9Ti - 2.9Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution and Precipitation Heat Treated
• SAE AMS5384D-1995 ALLOY CASTINGS, INVESTMENT, CORROSION AND HEAT RESISTANT 53Ni - 18Cr - 18Co - 4.0Mo - 2.9Ti - 2.9Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution and Precipitation Heat Treated
• SAE AMS5384C-1985 ALLOY CASTINGS, INVESTMENT, CORROSION AND HEAT RESISTANT 53Ni - 18Cr - 18Co - 4.0Mo - 2.9Ti - 2.9Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution and Precipitation Heat Treated
• SAE AMS5617F-1988 STEEL BARS AND FORGINGS, CORROSION RESISTANT 12Cr - 8.5Ni - 1.2Ti - 2.0Cu Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Precipitation Hardenable
• SAE AMS5758H-2008 Alloy, Corrosion-Resistant, Bars 20Cr 35Ni 35Co 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Remelted Solution Heat Treated for Work Strengthening
• SAE AMS5758J-2014 Alloy, Corrosion-Resistant, Bars, 20Cr - 35Ni - 35Co - 10Mo, Vacuum Induction Plus Consumable Electrode Vacuum Remelted, Solution Heat Treated for Work Strengthening
• SAE AMS5399D-2006 Nickel Alloy, Corrosion and Heat Resistant, Investment Castings 52Ni - 19Cr - 11Co - 9.8Mo - 3.2Ti - 1.6Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution Heat Treated
• SAE AMS5845G-2003 Alloy, Corrosion-Resistant, Round Bars 20Cr 35Ni 35Co 10Mo Vacuum Induction Plus Consumable Electrode Vacuum Melted Solution Heat Treated, Work Strengthened and Aged
• SAE AMS5841D-2000 Cobalt-Nickel Alloy, Corrosion and Heat Resistant, Bars 19Cr 36Co 25Ni 7.0Mo 0.50Cb 2.9Ti 0.20Al 9.0Fe Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated For Work Strengthening
• SAE AMS5955-2013 Steel, Corrosion-Resistant, Bars, Wire, and Forgings 10Cr 12Ni 2Mo 1.45Al 1.15Ti Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Precipitation Hardenable
• SAE AMS5876B-2000 Cobalt Alloy, Corrosion and Heat Resistant, Strip 20Cr - 15Ni - 40Co - 7.0Mo - 16Fe Solution Heat Treated and Cold Rolled Vacuum Induction Plus Vacuum Consumable Electrode Melted
• SAE AMS5384E-2012 Alloy Castings, Investment, Corrosion and Heat Resistant 53Ni - 18Cr - 18Co - 4.0Mo - 2.9Ti - 2.9Al - 0.006B Vacuum-Melted, Vacuum-Cast, Solution and Precipitation Heat Treated
• SAE AMS5875-1984 ALLOY STRIP, CORROSION AND HEAT RESISTANT 40Co - 20Cr - 15Ni - 7.0Mo - 0.06Be - 16Fe Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Cold Rolled, and Aged
• SAE AMS5404-2011 ALLOY CASTINGS, INVESTMENT, CORROSION AND HEAT RESISTANT 59Ni - 12.6Cr - 9.0Co - 1.9Mo - 4.2W - 4.0Ti - 4.2Ta - 3.4Al - 0.015B - 0.10Zr - 0.90Hf Vacuum Melted, Vacuum Cast Solution and Precipitation Heat Treated
• SAE AMS5617G-1994 STEEL BARS, WIRE, AND FORGINGS, CORROSION RESISTANT 12Cr - 8.5Ni - 1.2Ti - 2.0Cu Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated, Precipitation Hardenable
• SAE AMS5578G-2014 Steel, Corrosion and Heat-Resistant, Welded Tubing 12Cr - 8.5Ni - 0.30Cb - 1.1Ti - 2.0Cu Vacuum Induction Plus Consumable Electrode Vacuum Melted Solution Heat Treated, Precipitation Hardenable

未注明发布机构, Principle of vacuum box

• SAE AMS2769D-2020 Heat Treatment of Parts in a Vacuum
• BS EN ISO 1741:1995(2000) Dextrose — Determination ofloss in mass on drying — Vacuum oven method

International Organization for Standardization (ISO), Principle of vacuum box

• ISO 1742:1980 Glucose syrups; Determination of dry matter; Vacuum oven method
• ISO 1741:1980 Dextrose; Determination of loss in mass on drying; Vacuum oven method
• ISO/TR 15070:1996 Series 1 freight containers - Rationale for structural test criteria
• ISO/TR 15070:1996/Amd 2:2007 Series 1 freight containers - Rationale for structural test criteria; Amendment 2

ZA-SANS, Principle of vacuum box

• SANS 5924:2009 Moisture content of coal samples intended for general analysis (vacuum-oven method)
• SANS 1582-1:2006 Light industrial electric floor treatment machines Part 1: Vacuum cleaners
• SANS 1486-1:2006 Domestic electric floor treatment machines Part 1: Vacuum cleaners

AENOR, Principle of vacuum box

• UNE 55082:1973 FATS. DETERMINATION OF HUMIDITY AND VOLATILE MATTERS (VACUM OVEN METHOD).
• UNE-EN ISO 1741:1995 DEXTROSE. DETERMINATION OF LOSS IN MASS ON DRYING. VACUUM OVEN METHOD. (ISO 1741:1980).

Professional Standard - Agriculture, Principle of vacuum box

• GB 8576-1988 Determination of free water content in compound fertilizer by vacuum oven method
• SN/T 5036-2018 Risk Assessment and Control Management Rules for Sanitation and Quarantine of Inbound Container Empty Containers
• 142兽药典 三部-2015 Appendix Contents Physical Inspection Method 3103 Vacuum Determination Method

Jilin Provincial Standard of the People's Republic of China, Principle of vacuum box

• DB22/T 2873-2018 Inspection methods for vacuum insulated cryogenic liquid tank containers

ASD-STAN - Aerospace and Defence Industries Association of Europe - Standardization, Principle of vacuum box

• PREN 4094-1997 Aerospace Series Heat Resisting Alloy NI-CH1305 (NiCr16Co10Mo8Al4Ti4) Vacuum Melted Non Heat Treated Remelting Stock (Edition P 1)
• PREN 4096-1997 Aerospace Series Heat Resisting Alloy NI-CD1401 (NiCo10W10Cr9Al6Ta3) Vacuum Melted Non Heat Treated Remelting Stock (Edition P 1)

American Gear Manufacturers Association, Principle of vacuum box

• AGMA 06FTM13-2006 Economic Aspects of Vacuum Carburizing
• AGMA 07FTM05-2007 Vacuum Carburizing System for Powder Metal Parts and Components

Professional Standard - Electron, Principle of vacuum box

• SJ/T 10093-1991 Vacuum heat treating furnace with air out for type L1316Ⅱ
• SJ/T 31353-1994 Integrity requirements and inspection and evaluation methods for single-station and four-station vacuum forming machines for refrigerator production
• SJ 3199-1989 Method of analysis for Zinc-Lead in vacuum-Silicon Aluminium alloy by atomic absorption spectrophotometry

Professional Standard - Aviation, Principle of vacuum box

• HB 7750-2004 Vacuum heat treatment of titanium alloy parts
• HB/Z 191-1991 Aviation structural steel stainless steel vacuum heat treatment instructions

Professional Standard - Commodity Inspection, Principle of vacuum box

• SN/T 3167-2012 Rules on vacuum fumigation for flowers
• SN/T 4323-2015 Specification for process evaluation on the effect of sanitary treatment of containers
• SN/T 1587-2005 Rules for vacuum fumigation treatment of wood borers
• SN/T　1587-2005
• SN/T 4411-2015 Regulations for vacuum fumigation of wood packaging materials
• SN/T 2837-2011 Regulations for animal and plant quarantine and pest removal treatment of waste raw materials carried in entry containers

U.S. Air Force, Principle of vacuum box

• AIR FORCE A-A-50783 A-1984 SLEEPING BAG, ARCTIC SURVIVAL, CONTAINERIZED, PRESSURE/VACUUM PACKED

Danish Standards Foundation, Principle of vacuum box

• DS/EN ISO 1741:1995 Dextrose - Determination of loss in mass on drying - Vacuum oven method
• DS/ISO/TR 15069:1999 Series 1 freight containers - Handling and securing - Rationale for ISO 3874 Annex A
• DS/ISO/TR 15070/Amd. 2:2012 Series 1 freight containers - Rationale for structural test criteria
• DS/ISO/TR 15070:2000 Series 1 freight containers - Rationale for structural test criteria
• DS/EN 3528:2013 Aerospace series - Steel X2NiCoMo18-8-5 (1.6359) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Bar - a or D <= 150 mm - 1 750 MPa <= Rm <= 2 000 MPa
• DS/EN 3532:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Plate - 6 mm < a <= 40 mm - 1750 MPa <= Rm <= 2000 MPa
• DS/EN 3529:2010 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Forgings - a or D <= 150 mm - 1 750 MPa <= Rm <= 2 000 MPa
• DS/EN 3531:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Sheet and strip - a <= 6 mm - 1 750 MPa <= Rm <= 2 000 MPa

Professional Standard - Chemical Industry, Principle of vacuum box

• HG/T 2222-1991 Determination of free moisture in double superphosphate by vacuum oven method
• HG 2222-1991 Determination of free moisture in double superphosphate by vacuum oven method

IET - Institution of Engineering and Technology, Principle of vacuum box

• PRINC SPC TIME ADAPT PROC-2006 Principles of Space-Time Adaptive Processing

ASHRAE - American Society of Heating@ Refrigerating and Air-Conditioning Engineers@ Inc., Principle of vacuum box

• ASHRAE PRINCIPLES OF HEATING VENTILATING-2005 Principles of Heating Ventilating and Air Conditioning (90424)
• ASHRAE PRINCIPLES OF HEATING VENTILATING-2010 Principles of Heating Ventilating and Air Conditioning (Edition 6; 90405)
• ASHRAE PRINCIPLES OF HEATING VENTILATING-2017 Principles of Heating Ventilating and Air Conditioning (Edition 8; 90569)
• ASHRAE PRINCIPLES OF HEATING VENTILATING-2013 Principles of Heating Ventilating and Air Conditioning (Edition 7; 90557)

Lithuanian Standards Office , Principle of vacuum box

• LST EN ISO 1741:2000 Dextrose - Determination of loss in mass on drying - Vacuum oven method (ISO 1741:1980)
• LST EN 3532-2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Plate - 6 mm < a ? 40 mm - 1 750 MPa ? Rm ? 2 000 MPa
• LST EN 3529-2010 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Forgings - a or D ? 150 mm - 1 750 MPa ? Rm ? 2 000 MPa
• LST EN 3531-2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Sheet and strip - a ? 6 mm - 1 750 MPa ? Rm ? 2 000 MPa
• LST EN 3528-2013 Aerospace series - Steel X2NiCoMo18-8-5 (1.6359) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Bar - a or D ? 150 mm - 1 750 MPa ? Rm ? 2 000 MPa

German Institute for Standardization, Principle of vacuum box

• DIN EN ISO 1741:1994-10 Dextrose - Determination of loss in mass on drying - Vacuum oven method (ISO 1741:1980); German version EN ISO 1741:1994
• DIN ISO 20726:2006 Textile machinery - Hopper feeders for cotton spinning - Vocabulary and principles of construction (ISO 20726:2004); text in German, English and French
• DIN EN 3532:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Plate - 6 mm a 40 mm - 1 750 MPa R<(Index)m> 2 000 MPa; Germ
• DIN EN 3531:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Sheet and strip - a 6 mm - 1 750 MPa R<(Index)m> 2 000 MPa; German and
• DIN EN ISO 1741:1994 Dextrose - Determination of loss in mass on drying - Vacuum oven method (ISO 1741:1980); German version EN ISO 1741:1994

BE-NBN, Principle of vacuum box

• NBN-EN ISO 1741:1994 Dextrose - Determination of loss in mass on drying - Vacuum oven method (ISO 1741:1980)

European Committee for Standardization (CEN), Principle of vacuum box

• EN ISO 1741:1994 Dextrose - Determination of Loss in Mass on Drying - Vacuum Oven Method (ISO 1741:1980)
• EN 3532:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Plate - 6 mm < a <= 40 mm - 1750 MPa <= Rm <= 2000 MPa
• EN 3531:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Sheet and strip - a <= 6 mm - 1750 MPa <= Rm <= 2000 MPa

American Society for Testing and Materials (ASTM), Principle of vacuum box

• ASTM F1594-95(2003) Standard Specification for Pure Aluminum (Unalloyed) Source Material for Vacuum Coating Applications
• ASTM F1594-95(2011) Standard Specification for Pure Aluminum (Unalloyed) Source Material for Vacuum Coating Applications
• ASTM D3272-76(1998) Standard Practice for Vacuum Distillation of Solvents From Solvent-Reducible Paints For Analysis
• ASTM A469/A469M-04 Standard Specification for Vacuum-Treated Steel Forgings for Generator Rotors
• ASTM A469-94a(1999) Standard Specification for Vacuum-Treated Steel Forgings for Generator Rotors
• ASTM E415-21 Standard Test Method for Atomic Emission Vacuum Spectrometric Analysis of Carbon and Low-Alloy Steel
• ASTM A469/A469M-07 Standard Specification for Vacuum-Treated Steel Forgings for Generator Rotors
• ASTM A469/A469M-06 Standard Specification for Vacuum-Treated Steel Forgings for Generator Rotors
• ASTM F2609-11(2015) Standard Test Method for Litter-Cleaning Effectiveness of Vacuum Cleaners
• ASTM A469/A469M-07(2022) Standard Specification for Vacuum-Treated Steel Forgings for Generator Rotors
• ASTM F2609-11(2021) Standard Test Method for Litter-Cleaning Effectiveness of Vacuum Cleaners
• ASTM A469/A469M-07(2012) Standard Specification for Vacuum-Treated Steel Forgings for Generator Rotors
• ASTM F2609-07 Standard Test Method for Litter-Cleaning Effectiveness of Vacuum Cleaners
• ASTM A469/A469M-07(2017) Standard Specification for Vacuum-Treated Steel Forgings for Generator Rotors

American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), Principle of vacuum box

• ASHRAE 90557-2013 Principles of Heating Ventilating and Air Conditioning (7th Edition)

Institute of Electrical and Electronics Engineers (IEEE), Principle of vacuum box

• NFPA (Fire) MGHB18 Medical Gas and Vacuum Systems Installation Handbook, 2018 Edition (Formerly NFPA 99C)

ESDU - Engineering Sciences Data Unit, Principle of vacuum box

• ESDU 98013-1998 Aerodynamic principles of winglets.

British Standards Institution (BSI), Principle of vacuum box

• BS ISO/TR 15070:1996 Series 1 freight containers - Rationale for structural test criteria
• BS ISO/TR 15070:1997 Series 1 freight containers. Rationale for design and structural test criteria
• BS EN 3528:2013 Aerospace series. Steel X2NiCoMo18-8-5 (1.6359). Vacuum induction melted and vacuum arc remelted. Solution treated and precipitation treated. Bar. a or D 150 mm. 1750 MPa Rm 2000 MPa
• BS EN 3529:2010 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Forgings - a or D 150 mm - 1750 MPa Rm 2000 MPa
• BS EN 3531:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Sheet and strip - a 6 mm - 1750 MPa Rm 2000 MPa
• BS EN 3532:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5).Vacuum induction melt ed and vacuum arc remelted - Solution treated and precipitation treated.P late - 6 mm $2J a 40 mm - 1750 MPa Rm 2000 MPa
• BS ISO TR 15069:1997 Series 1 freight containers - Handling and securing - Rationale for ISO 3874 annex A
• BS ISO TR 15069:1998 Series 1 freight containers - Handling and securing - Rationale for ISO 3874 annex A

SAE - SAE International, Principle of vacuum box

• SAE AMS5617J-2006 Steel@ Corrosion-Resistant@ Bars@ Wire@ and Forgings 12Cr - 8.5Ni - 1.2Ti - 2.0Cu Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated@ Precipitation Hardenable (UNS S45500)
• SAE AMS5617K-2018 Steel@ Corrosion-Resistant@ Bars@ Wire@ and Forgings 12Cr - 8.5Ni - 1.2Ti - 2.0Cu Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated@ Precipitation Hardenable (UNS S45500)
• SAE AMS5936A-2002 Steel@ Corrosion-Resistant@ Bars@ Wire@ and Forgings 12Cr - 11Ni - 1.7Ti - 1Mo Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated@ Precipitation Hardenable (UNS S46500)
• SAE AMS5936D-2019 Steel@ Corrosion-Resistant@ Bars@ Wire@ and Forgings 12Cr - 11Ni - 1.7Ti - 1Mo Vacuum Induction Plus Vacuum Consumable Electrode Remelted Solution Heat Treated@ Precipitation Hardenable (UNS S46500)
• SAE AMS2759/7-1991 Gas and Vacuum Carburizing and Heat Treatment of Carburizing Grade Steel Parts
• SAE AMS5404B-2007 Alloy Castings@ Investment@ Corrosion and Heat Resistant 59Ni - 12.6Cr - 9.0Co - 1.9Mo - 4.2W - 4.0Ti - 4.2Ta - 3.4Al - 0.015B - 0.10Zr - 0.90Hf Vacuum Melted@ Vacuum Cast Solution and Precipitation Heat Treated
• SAE AMS6544-1975 STEEL PLATE 2.0Cr - 10Ni - 8.0Co - 1.0Mo (0.10 - 0.14C) Premium Quality@ Vacuum Melted@ Solution Heat Treated
• SAE AMS5841C-1994 Alloy@ Corrosion and Heat Resistant@ Bars 19Cr - 36Co - 25Ni - 7.0Mo - 0.50Cb - 2.9Ti - 0.20Al - 9.0Fe Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated for Work Strengthening (UNS R30159)
• SAE AMS5617G-1990 Steel Bars@ Wire@ and Forgings@ Corrosion Resistant 12Cr - 8.5Ni - 1.2Ti - 2.0Cu Vacuum Induction Plus Vacuum Consumable Electrode Melted Solution Heat Treated@ Precipitation Hardenable

The American Road & Transportation Builders Association, Principle of vacuum box

• AASHTO TP 86-2010 Standard Method of Test for Accelerated Aging of Bituminous Sealants and Fillers Using a Vacuum Oven

Professional Standard - Aerospace, Principle of vacuum box

• QJ 3167-2003 Test method and safety monitoring requirements for common-bottom vacuum performance of low-temperature storage tanks of launch vehicles

ES-UNE, Principle of vacuum box

• UNE-EN 3528:2013 Aerospace series - Steel X2NiCoMo18-8-5 (1.6359) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Bar - a or D <= 150 mm - 1 750 MPa <= Rm <= 2 000 MPa (Endorsed by AENOR in February of 2013.)
• UNE-EN 3532:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Plate - 6 mm < a = 40 mm - 1 750 MPa = Rm = 2 000 MPa (Endorsed by AENOR in May of 2007.)
• UNE-EN 3529:2010 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Forgings - a or D = 150 mm - 1 750 MPa = Rm = 2 000 MPa (Endorsed by AENOR in April of 2010.)
• UNE-EN 3531:2007 Aerospace series - Steel FE-PM2701 (X2NiCoMo18-8-5) - Vacuum induction melted and vacuum arc remelted - Solution treated and precipitation treated - Sheet and strip - a = 6 mm - 1 750 MPa = Rm = 2 000 MPa (Endorsed by AENOR in May of 2007.)

American National Standards Institute （ANSI), Principle of vacuum box

• ANSI/ASTM A940:1996 Specification for Vacuum Treated Steel Forgings, Alloy, Differentially Heat Treated, for Turbine Rotors
• ANSI/ASSE 1098-2021 Performance Requirements for Atmospheric Vacuum Breakers for Vacuum Toilet Assemblies and Galley Waste Disposal Units on Commercial Aircraft
• ANSI/ASTM A469:1994 Specification for Vacuum-Treated Steel Forgings for Generator Rotors
• ANSI/UL 1017b-2010 Vacuum Cleaners, Blower Cleaners, and Household Floor Finishing Machines
• ANSI/ASTM F2609:2011 Test Method For Litter-Cleaning Effectiveness Of Vacuum Cleaners

国家市场监督管理总局、中国国家标准化管理委员会, Principle of vacuum box

• GB/T 39194-2020 Technical requirement of heat treatment for vacuum low pressure carburizing high pressure gas quenching

Aerospace, Security and Defence Industries Association of Europe (ASD), Principle of vacuum box

• ASD-STAN PREN 3529-1999 Aerospace Series Steel FE-PM2701 (X2NiCoMo18-8-5) Vacuum Induction Melted and Vacuum Arc Remelted Solution Treated and Precipitation Treated Forgings a or D Less Than or Equal to 150 mm 1 750 MPa Less Than or Equal to Rm Less Than or Equal to 2 000 MPa (E
• ASD-STAN PREN 3532-1999 Aerospace Series Steel FE-PM2701 (X2NiCoMo18-8-5) Vacuum Induction Melted and Vacuum Arc Remelted Solution Treated and Precipitation Treated Plate 6 mm Less Than or Equal to a Less Than or Equal to 40 mm 1 750 MPa Less Than or Equal to Rm Less Than or Equ
• ASD-STAN PREN 3531-1999 Aerospace Series Steel FE-PM2701 (X2NiCoMo18-8-5) Vacuum Induction Melted and Vacuum Arc Remelted Solution Treated and Precipitation Treated Sheet and Strip a Less Than or Equal to 6 mm 1 750 MPa Less Than or Equal to Rm Less Than or Equal to 2 000 MPa (E
• ASD-STAN PREN 4088-1997 Aerospace Series Steel FE-PL5101 (13MoCrNiV4-4-3-1) Vacuum Induction Melted and Vacuum Arc Remelted Carburized, Hardened, Sub-Zero Treated and Tempered Bar for Machining De Less Than or Equal to 30 mm 1 315 MPa Less Than or Equal to Rm Less Than or Equal
• ASD-STAN PREN 4090-1997 Aerospace Series Steel FE-PL5101 (13MoCrNiV4-4-3-1) Vacuum Induction Melted and Vacuum Arc Remelted Carburized, Hardened, Sub-Zero Treated and Tempered Forgings De Less Than or Equal to 30 mm 1 315 MPa Less Than or Equal to Rm Less Than or Equal to 1 650

Professional Standard - Energy, Principle of vacuum box

• NB/T 20039.4-2013 Code on nuclear air and gas treatment Ventilation, air conditioning and air cleaning.Part 4: Housings

AASHTO - American Association of State Highway and Transportation Officials, Principle of vacuum box

• R 95-2019 Standard Practice for Accelerated Aging of Hot-Poured Asphalt Crack Sealant Using a Vacuum Oven
• T 367-2017 Standard Method of Test for Accelerated Aging of Hot-Poured Asphalt Crack Sealant Using a Vacuum Oven

European Association of Aerospace Industries, Principle of vacuum box

• AECMA PREN 4094-1997 Aerospace Series Heat Resisting Alloy NI-CH1305 (NiCr16Co10Mo8Al4Ti4) Vacuum Melted Non Heat Treated Remelting Stock Edition P 1
• AECMA PREN 4096-1996 Aerospace Series Heat Resisting Alloy NI-CD14XX (NiCo10W10Cr9Al6Ta3Hf2Ti2) Vacuum Melted Non Heat Treated Remelting Stock Edition P 1
• AECMA PREN 4096-1997 Aerospace Series Heat Resisting Alloy NI-CD1401 (NiCo10W10Cr9Al6Ta3) Vacuum Melted Non Heat Treated Remelting Stock Edition P 1

International Commission on Illumination (CIE), Principle of vacuum box

• CIE 41-1978 Light as a True Visual Quantity: Principles of Measurement (1st Edition) (Reprint 1994) (E)

Shanghai Provincial Standard of the People's Republic of China, Principle of vacuum box

• DB31/ 928-2015 Norm of energy consumption per unit product of vacuum heat treated metals

Underwriters Laboratories (UL), Principle of vacuum box

• UL 1017-1996 Vacuum cleaners, blower cleaners, and household floor finishing machines
• UL 1017-2001 Vacuum cleaners, blower cleaners, and household floor finishing machines

Professional Standard - Business, Principle of vacuum box

• SB/T 10440-2007 Wood preservative-treating vacuum/pressure injection equipment set

Indonesia Standards, Principle of vacuum box

• SNI 09-0967-1989 Dry type air filters for motor vehicles, Performance test

Military Standard of the People's Republic of China-Commission of Science,Technology and Industry for National Defence, Principle of vacuum box

• GJB 5381.3-2005 Methods of chemical analysis for pyrotech. Part 3: Determination of moisture content and volatile matter content. Vacuum oven method

Military Standard of the People's Republic of China-General Armament Department, Principle of vacuum box

• GJB 8682.3-2015 Methods for chemical analysis of pyrotechnics Part 3: Determination of moisture and volatile matter content Vacuum oven method

Others:   Principle of True Density Meter, Principle of vacuum box, Principle of True Density Meter, Principle of True Density Determination, True Density Principle, Principle of Solid Density Meter, The principle of measuring the true density of solid, The principle of true density meter, Measuring principle of true protein.