Several rules to guide choice of materials, and methods of welding, electroplating, and heat treatment will provide a method for minimizing failures in storage tanks and related hardware. Failures are caused by high-pressure hydrogen effects, the formation of hydrides in titanium, and hydrogen absorption through various metals processing techniques
Due to its small atomic size hydrogen can easily diffuse in steel, and interstitially incorporate in...
Coating technologies have improved the working life for nuclear steam generators, chemical and petro...
In this document, after a review of the accidents/incidents, are described the different interaction...
Hydrogen embrittlement in high strength iron-base and nickel-base alloys and titaniu
Hydrogen-stress cracking in high-strength steels is influenced by hydrogen content of the material a...
The effect of hydrogen in metals and alloys are discussed. The various trapping and cracking process...
The nature of hydrogen embrittlement by high pressure gaseous hydrogen is described and methods of d...
A technology utilization program is presented for the dissemination of information on technological ...
Because introduction of hydrogen during bright-cadmium electroplating of high strength steels causes...
Premature hydrogen-induced failure observed to occur in many metal systems involves three stages of ...
Investigation determined whether irradiated pressure-vessel steels 4340 and 212-B are susceptible to...
Additional support is presented for the previously proposed role of hydrogen as an embrittling agent...
As a result of work done in the last twenty years or so, it is now accepted that hydrogen can cause...
As a result of work done in the last twenty years or so, it is now accepted that hydrogen can cause...
Report presents discussion of three common and primary influences on embrittlement process. Applicat...
Due to its small atomic size hydrogen can easily diffuse in steel, and interstitially incorporate in...
Coating technologies have improved the working life for nuclear steam generators, chemical and petro...
In this document, after a review of the accidents/incidents, are described the different interaction...
Hydrogen embrittlement in high strength iron-base and nickel-base alloys and titaniu
Hydrogen-stress cracking in high-strength steels is influenced by hydrogen content of the material a...
The effect of hydrogen in metals and alloys are discussed. The various trapping and cracking process...
The nature of hydrogen embrittlement by high pressure gaseous hydrogen is described and methods of d...
A technology utilization program is presented for the dissemination of information on technological ...
Because introduction of hydrogen during bright-cadmium electroplating of high strength steels causes...
Premature hydrogen-induced failure observed to occur in many metal systems involves three stages of ...
Investigation determined whether irradiated pressure-vessel steels 4340 and 212-B are susceptible to...
Additional support is presented for the previously proposed role of hydrogen as an embrittling agent...
As a result of work done in the last twenty years or so, it is now accepted that hydrogen can cause...
As a result of work done in the last twenty years or so, it is now accepted that hydrogen can cause...
Report presents discussion of three common and primary influences on embrittlement process. Applicat...
Due to its small atomic size hydrogen can easily diffuse in steel, and interstitially incorporate in...
Coating technologies have improved the working life for nuclear steam generators, chemical and petro...
In this document, after a review of the accidents/incidents, are described the different interaction...
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