DIN ISO 4802-2:2012 Glassware - Hydrolytic resistance of the interior surfaces of glass containers - Part 2: Determination by flame spectrometry and classification (ISO 4802-2:2010)
ISO 719 Glass — Hydrolytic resistance of glass grains at 98 °C — Method of test and classification*, 2020-09-11 Update
ISO 720 Glass — Hydrolytic resistance of glass grains at 121 °C — Method of test and classification*, 2020-09-11 Update
ISO 9187-1 Injection equipment for medical use - Part 1: Ampoules for injectables
DIN ISO 4802-2:2012 history
2023DIN ISO 4802-2:2023-03 Glassware - Hydrolytic resistance of the interior surfaces of glass containers - Part 2: Determination by flame spectrometry and classification (ISO/DIS 4802-2:2022); Text in German and English / Note: Date of issue 2023-02-03*Intended as replacement f...
2017DIN ISO 4802-2:2017-02 Glassware - Hydrolytic resistance of the interior surfaces of glass containers - Part 2: Determination by flame spectrometry and classification (ISO 4802-2:2016) / Note: To be replaced by DIN ISO 4802-2 (2023-03) (in preparation).
2017DIN ISO 4802-2:2017 Glassware - Hydrolytic resistance of the interior surfaces of glass containers - Part 2: Determination by flame spectrometry and classification (ISO 4802-2:2016)
2012DIN ISO 4802-2:2012 Glassware - Hydrolytic resistance of the interior surfaces of glass containers - Part 2: Determination by flame spectrometry and classification (ISO 4802-2:2010)
0000 DIN ISO 4802-2:2011
1980DIN 52339-2:1980 Testing of glass; autoclave method for testing the hydrolytic resistance of the interior surfaces of glass containers and classification, determination by flame spectrophotometry
DIN ISO 4802-2:2012 Glassware - Hydrolytic resistance of the interior surfaces of glass containers - Part 2: Determination by flame spectrometry and classification (ISO 4802-2:2010) has been changed from DIN 52339-2:1980 Testing of glass; autoclave method for testing the hydrolytic resistance of the interior surfaces of glass containers and classification, determination by flame spectrophotometry.