ISO 12219:2017
ISO 12219:2017 Interior air of road vehicles – Part 6: Method for the determination of the emissions of semi-volatile organic compounds from vehicle interior parts and materials at higher temperature – Small chamber method
CDN $186.00
Description
ISO 12219-6:2017 describes a qualitative and quantitative analytical method for vapour-phase organic compounds released from car trim materials under simulated real use conditions, i.e. a vehicle is parked for several hours in direct sunlight. Under these conditions, some interior parts and materials reach higher temperatures than 65 °C (ISO 12219‑4), e.g. a dashboard can reach temperatures up to 120 °C. This document can be implemented as an optional addition to ISO 12219‑4 so that VOC, volatile carbonyl and SVOC testing can all be completed within one day. This part has been added to gain insight into the emission behaviour and emission potential of selected vehicle interior parts and materials exposed to higher temperatures. (By convention, 100 °C is set as the higher temperature.)
The test is performed in small emission test chambers (small chambers). These small chambers are intended to provide a transfer function for vehicle level emissions. This method is intended for evaluating new car interior trim components but can, in principle, be applied to used car components.
The specified analytical procedure for SVOCs and semi-volatile carbonyls is ISO 16000‚Äë6.
ISO 12219-6:2017 is complementary to existing standards[1],[2] and provides third party test laboratories and manufacturing industry with an approach for
– identifying the effect of real use conditions on specific VOC and SVOC emissions data,
– comparing emissions from various assemblies with regards to specific VOC and SVOC emissions,
– evaluating and sorting specific assemblies regarding specific VOC and SVOC emissions data,
– providing specific VOC and SVOC emissions data to develop and verify a correlation between component level methods and in vehicle air quality and
– evaluating prototype, “low-emission” assemblies during development.
The method described can be exclusively performed as a high temperature test or it can be performed in combination with the determination of VOCs at 65 °C in one run, which is described in ISO 12219‑4.
Edition
1
Published Date
2017-02-27
Status
PUBLISHED
Pages
17
Language
English
Format
Secure PDF
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Abstract
ISO 12219-6:2017 describes a qualitative and quantitative analytical method for vapour-phase organic compounds released from car trim materials under simulated real use conditions, i.e. a vehicle is parked for several hours in direct sunlight. Under these conditions, some interior parts and materials reach higher temperatures than 65 °C (ISO 12219‑4), e.g. a dashboard can reach temperatures up to 120 °C. This document can be implemented as an optional addition to ISO 12219‑4 so that VOC, volatile carbonyl and SVOC testing can all be completed within one day. This part has been added to gain insight into the emission behaviour and emission potential of selected vehicle interior parts and materials exposed to higher temperatures. (By convention, 100 °C is set as the higher temperature.)
The test is performed in small emission test chambers (small chambers). These small chambers are intended to provide a transfer function for vehicle level emissions. This method is intended for evaluating new car interior trim components but can, in principle, be applied to used car components.
The specified analytical procedure for SVOCs and semi-volatile carbonyls is ISO 16000‚Äë6.
ISO 12219-6:2017 is complementary to existing standards[1],[2] and provides third party test laboratories and manufacturing industry with an approach for
- identifying the effect of real use conditions on specific VOC and SVOC emissions data,
- comparing emissions from various assemblies with regards to specific VOC and SVOC emissions,
- evaluating and sorting specific assemblies regarding specific VOC and SVOC emissions data,
- providing specific VOC and SVOC emissions data to develop and verify a correlation between component level methods and in vehicle air quality and
- evaluating prototype, "low-emission" assemblies during development.
The method described can be exclusively performed as a high temperature test or it can be performed in combination with the determination of VOCs at 65 °C in one run, which is described in ISO 12219‑4.
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