SEDL / STP / STP543-EB
STP543 Hydrogen Embrittlement Testing Raymond L Pages: 265 Published: 1974
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Nineteen papers cover internal hydrogen embrittlement, testing for relative susceptibility, testing for hydrogen pickup during processing, mechanical delay-time test, hydrogen defection methods, hydrogen environment embrittlement
Table of Contents Introduction Raymond L. Opening Remarks Gray H. Mechanical Testing Methods Elsea A., Groeneveld T. Electrochemical Techniques Dull D., Raymond L. Disk Pressure Technique Broudeur R., Fidelle J., Pirrovani C., Roux C. Notched C-Ring Test Jankowsky E. Stressed O-Ring Test Hyter W. Notched Bar-Bending Test Movich R. Notched Test Strips Jones W. Hydrogen Detection Gage Lawrence S. An Ultrasensitive Hydrogen Detector Das K. Neodymium Detection System Toy S. Testing for Hydrogen Environment Embrittlement: Experimental Variables Gray H. Testing for Hydrogen Environment Embrittlement: Primary and Secondary Influences Nelson H. Testing to Determine the Effect of High-Pressure Hydrogen Environments on the Mechanical Properties of Metals Chandler W., Walter R. Various Mechanical Tests Used to Determine the Susceptibility of Metals to High-Pressure Hydrogen Harris J., VanWanderham M. Disk Pressure Testing of Hydrogen Environment Embrittlement Bernardi R., Broudeur R., Fidelle J., Rapin M., Roux C. Effects of Irradiation and Oxygen on Hydrogen Environment Embrittlement of Selected Alloys Kesterson R. Closing Commentary—IHE-HEE: Are They the Same? Fidelle J. Closing Commentary—IHE-HEE: Are They the Same? Nelson H. Committee: F07 Paper ID: STP543-EB DOI: 10.1520/STP543-EB ISBN-EB: 978-0-8031-5579-4 ASTM International is a member of CrossRef. 0-8031-0373-5 978-0-8031-0373-3 STP543-EB
