from the conferences organized by TANGER Ltd.
Alloys used for the manufacture of various structures must be strong and easy to process. Under certain conditions, hydrogen can adversely affect the fracture characteristics of most structural alloys. A classic example is hydrogen embrittlement of high-strength martensitic steel, which is the result of a high concentration of hydrogen in the metal. An extremely high internal concentration of hydrogen in such alloys can be created during chemical or electrochemical processing, such as etching, electroplating, and removing coatings used in the production of a particular product. Over time, this hydrogen forms bubbles and cracks on the internal surfaces of grain boundaries or inclusions and causes slow destruction. This type of embrittlement, caused by hydrogen located in the internal volumes of the alloy and developing during the stay of the alloy under external load, is called internal hydrogen embrittlement. This embrittlement is typical for a large number of alloys used in mechanical engineering. The article discusses the features of the origin of hydrogen and the form of its existence in structural alloys. The process of hydrogen embrittlement in alloyed structural steels is studied. The method of performing analysis on the "G8 GALILEO" hydrogen analyzer for structural alloys is adapted and described. The corresponding results of the work and recommendations are given.
Keywords: Hydrogen embrittlement, carrier gas, chemical composition of the alloy, hydrogen analyzer© This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.