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Working principle of UV detector

Working principle of UV detector, Total:19 items.

In the international standard classification, Working principle of UV detector involves: Radiation measurements, Occupational safety. Industrial hygiene, Petroleum products in general, Lubricants, industrial oils and related products, Fluid storage devices, Protection against dangerous goods, Rubber, Fuels, Safety of machinery, Ergonomics, Air quality.

Indonesia Standards, Working principle of UV detector

• SNI 16-7060-2004 The measurement of ultraviolet ray radiation at work places

Occupational Health Standard of the People's Republic of China, Working principle of UV detector

• GBZ/T 189.6-2007 Measurement of Physical Agents in Workplace Part 6:Ultraviolet Radiation

German Institute for Standardization, Working principle of UV detector

• DIN 51451:2020-02 Testing of petroleum products and related products - Analysis by infrared spectrometry - General working principles
• DIN 51451:2004 Testing of petroleum products and related products - Analysis by infrared spectrometry - General working principles
• DIN 51350-1:2010 Testing of lubricants - Testing in the four-ball tester - Part 1: General working principles
• DIN 51350-1:2015 Testing of lubricants - Testing in the four-ball tester - Part 1: General working principles
• DIN 53529-1:1983 Testing of rubber and elastomers; measurement of vulcanization characteristics (curometry); general working principles
• DIN 51451:2020 Testing of petroleum products and related products - Analysis by infrared spectrometry - General working principles
• DIN 51400-1:1992 Testing of mineral oils and fuels; determination of the sulfur content (total sulfur); general working principles
• DIN EN 547-1:2009 Safety of machinery - Human body measurements - Part 1: Principles for determining the dimensions required for openings for whole body access into machinery; German version EN 547-1:1996+A1:2008
• DIN 53533-1:1988 Testing of elastomeres; testing of heat generation and service life during the fatigue test (flexometer test); bases principles

BE-NBN, Working principle of UV detector

• NBN S 21-107-1988 Components ol automatic fire detection Systems Part 7 : Point type smoke detectors - Detectors using scattered light, transmitted light or ionization

Association Francaise de Normalisation, Working principle of UV detector

• NF M88-117:1993 Petroleum products. Filling detectors for tank truck containers for liquefied petroleum gas transport. Working principle. Testing and control.

Standard Association of Australia （SAA）, Working principle of UV detector

• AS 1807.23:2000 Cleanrooms, workstations, safety cabinets and pharmaceutical isolators - Methods of test - Determination of intensity of radiation from germicidal ultraviolet lamps

Korean Agency for Technology and Standards (KATS), Working principle of UV detector

• KS I ISO 14382:2020 Workplace atmospheres — Determination of toluene diisocyanate vapours using 1-(2-pyridyl)piperazine-coated glass fibre filters and analysis by high performance liquid chromatography with ultraviolet a

RU-GOST R, Working principle of UV detector

• GOST R ISO 14382-2015 Workplace air. Determination of toluene diisocyanate vapours using 1-(2-pyridyl) piperazine-coated glass fibre filters and analysis by high performance liquid chromatography with ultraviolet and fluorescence detectors

KR-KS, Working principle of UV detector

• KS I ISO 14382-2020 Workplace atmospheres — Determination of toluene diisocyanate vapours using 1-(2-pyridyl)piperazine-coated glass fibre filters and analysis by high performance liquid chromatography with ultraviolet a

International Organization for Standardization (ISO), Working principle of UV detector

• ISO 14382:2012 Workplace atmospheres - Determination of toluene diisocyanate vapours using 1-(2-pyridyl)piperazine-coated glass fibre filters and analysis by high performance liquid chromatography with ultraviolet and fluorescence detectors

British Standards Institution (BSI), Working principle of UV detector

• BS ISO 14382:2012 Workplace atmospheres. Determination of toluene diisocyanate vapours using 1-(2-pyridyl) piperazine-coated glass fibre filters and analysis by high performance liquid chromatography with ultraviolet and fluorescence detectors

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