NACE TM0297
English -- Effects of High-Temperature, High-Pressure Carbon Dioxide Decompression on Elastomeric Materials - Item No. 21229
Organization:
NACE - NACE International
Year: 2016
Abstract: Scope: General This standard test method sets forth procedures to measure the effect on elastomeric materials subjected to rapid depressurization from elevated pressures (higher than 7 MPa [1,000 psi]) and temperatures of 50 °C (122 °F) or greater in dry CO2 environments, and is designed for testing O-rings or other test specimens of elastomeric vulcanizates. NACE TM0192(1) shall be used as a reference for testing at room temperature and lower pressures. This method is not applicable to the testing of cellular rubber or porous materials. This standard may be used to evaluate materials in either the free or constrained state. If the state is constrained, the fixture design shall be agreed upon by the parties involved. This standard sets forth procedures for the preparation of test specimens and equipment to be used, the test procedures to be followed, and procedures for reporting test results. The test results are determined by monitoring changes in physical and mechanical properties, as well as changes in appearance of the test specimen after exposure to CO2. In view of the wide range of service conditions, this standard is intended only to provide a means of initial material evaluation and comparison. The test results are not intended to provide any direct correlation with service performance. This standard is useful in conducting research and development of elastomeric vulcanizates and comparing the relative performance of compounds. SAFETY PRECAUTIONS: This test involves the use of high-pressure CO2. The appropriate safety precautions for working with high-pressure gases shall be observed. One source of safety information is CGA(2) P-1.2
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contributor author | NACE - NACE International | |
date accessioned | 2017-10-18T11:11:32Z | |
date available | 2017-10-18T11:11:32Z | |
date copyright | 2016.10.04 | |
date issued | 2016 | |
identifier other | ZBCAZFAAAAAAAAAA.pdf | |
identifier uri | http://yse.yabesh.ir/std;query=autho162sear/handle/yse/236211 | |
description abstract | Scope: General This standard test method sets forth procedures to measure the effect on elastomeric materials subjected to rapid depressurization from elevated pressures (higher than 7 MPa [1,000 psi]) and temperatures of 50 °C (122 °F) or greater in dry CO2 environments, and is designed for testing O-rings or other test specimens of elastomeric vulcanizates. NACE TM0192(1) shall be used as a reference for testing at room temperature and lower pressures. This method is not applicable to the testing of cellular rubber or porous materials. This standard may be used to evaluate materials in either the free or constrained state. If the state is constrained, the fixture design shall be agreed upon by the parties involved. This standard sets forth procedures for the preparation of test specimens and equipment to be used, the test procedures to be followed, and procedures for reporting test results. The test results are determined by monitoring changes in physical and mechanical properties, as well as changes in appearance of the test specimen after exposure to CO2. In view of the wide range of service conditions, this standard is intended only to provide a means of initial material evaluation and comparison. The test results are not intended to provide any direct correlation with service performance. This standard is useful in conducting research and development of elastomeric vulcanizates and comparing the relative performance of compounds. SAFETY PRECAUTIONS: This test involves the use of high-pressure CO2. The appropriate safety precautions for working with high-pressure gases shall be observed. One source of safety information is CGA(2) P-1.2 | |
language | English | |
title | NACE TM0297 | num |
title | English -- Effects of High-Temperature, High-Pressure Carbon Dioxide Decompression on Elastomeric Materials - Item No. 21229 | en |
type | standard | |
page | 12 | |
status | Active | |
tree | NACE - NACE International:;2016 | |
contenttype | fulltext |