ISO 10358:2021
ISO 10358:2021 Plastics pipes and fittings for industrial applications – Collection of data on combined chemical-resistance
CDN $422.00
Description
This document collects available data on combined chemical resistance of thermoplastic materials typically used to manufacture piping components for industrial applications, against fluids over a range of temperatures.
The base thermoplastic materials covered by this classification are:
Polyethylene                                                              PE
NOTE 1        The PE considered in this document corresponds to PE-HD, with a minimum density value of 0,935 g/cm3 (e.g.: PE63, PE80, PE100, PE100-RC, PE-RT).
Polypropylene                                                           PP (PP-R and PP-RCT, PP-H, PP-B)
Polyvinyl chloride, unplasticized                          PVC-U
Polyvinyl chloride, chlorinated                             PVC-C
Polybutylene                                                              PB
Acrylonitrile/butadiene/styrene                         ABS
Polyvinylidene fluoride                                          PVDF
NOTE 2        This document considers homopolymer PVDF.
Cross-linked polyethylene                                     PE-X (PE-Xa, PE-Xb, PE-Xc)
Ethylene chloro trifluoro ethylene                       ECTFE
Polyamide, unplasticized                                        PA-U (PA-U11, PA-U12)
NOTE 3        This document focuses on PA-U11 and PA-U12 only, as these long chained PA-U are standardized according to ISO 16486-1; short chained (e.g. PA 66) and plasticized PAs are not used for monolithic plastic piping components.
Polysulfone                                                                PSU
Perfluoralkoxy                                                          PFA
NOTE 4        Temperatures higher than 200°C can be applied after an evaluation with the raw material manufacturer.
Polytetrafluoroethylene                                         PTFE
NOTE 5        Temperatures higher than 200°C can be applied after an evaluation with the raw material manufacturer.
 
 
Polyphenylene sulphide                                          PPS
NOTE 6        PPS is new with regards to industrial application and chemical resistance issues; for this reason, manufacturers and end-users are advised to assess the chemical suitability of the material.
Edition
2
Published Date
2021-06-25
Status
PUBLISHED
Pages
215
Language
English
Format
Secure PDF
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Abstract
This document collects available data on combined chemical resistance of thermoplastic materials typically used to manufacture piping components for industrial applications, against fluids over a range of temperatures.
The base thermoplastic materials covered by this classification are:
Polyethylene                                                              PE
NOTE 1        The PE considered in this document corresponds to PE-HD, with a minimum density value of 0,935 g/cm3 (e.g.: PE63, PE80, PE100, PE100-RC, PE-RT).
Polypropylene                                                           PP (PP-R and PP-RCT, PP-H, PP-B)
Polyvinyl chloride, unplasticized                          PVC-U
Polyvinyl chloride, chlorinated                             PVC-C
Polybutylene                                                              PB
Acrylonitrile/butadiene/styrene                         ABS
Polyvinylidene fluoride                                          PVDF
NOTE 2        This document considers homopolymer PVDF.
Cross-linked polyethylene                                     PE-X (PE-Xa, PE-Xb, PE-Xc)
Ethylene chloro trifluoro ethylene                       ECTFE
Polyamide, unplasticized                                        PA-U (PA-U11, PA-U12)
NOTE 3        This document focuses on PA-U11 and PA-U12 only, as these long chained PA-U are standardized according to ISO 16486-1; short chained (e.g. PA 66) and plasticized PAs are not used for monolithic plastic piping components.
Polysulfone                                                                PSU
Perfluoralkoxy                                                          PFA
NOTE 4        Temperatures higher than 200°C can be applied after an evaluation with the raw material manufacturer.
Polytetrafluoroethylene                                         PTFE
NOTE 5        Temperatures higher than 200°C can be applied after an evaluation with the raw material manufacturer.
 
 
Polyphenylene sulphide                                          PPS
NOTE 6        PPS is new with regards to industrial application and chemical resistance issues; for this reason, manufacturers and end-users are advised to assess the chemical suitability of the material.
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