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Oligomeric-solvent engineering of hierarchical hydrogen-bonding networks for multifunctional glass interlayers. [PDF]
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Hydrogen absorption in LaNi4.9Fe0.1
Solid State Communications, 1983Abstract The magnetic properties of LaNi4.9Fe0.1 and its hydride have been studied by making Mossbauer and magnetic susceptibility measurements. 57Fe Mossbauer spectroscopy shows a small increase in the isomer shift after hydriding. An increase in the magnetic susceptibility after hydriding was observed.
F.W. Oliver +3 more
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Hydrogen Embrittlement and Hydrogen Absorption
2017The focus in this chapter is on the delayed failure, hydrogen embrittlement of steels, and detection of hydrogen in the metal. Several techniques for the detection of hydrogen in the metal are also explained. The diffusible hydrogen in the metal plays an important role in the delayed failure or hydrogen embrittlement, and the electrochemical detection ...
Toshiaki Ohtsuka +3 more
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Journal of Alloys and Compounds, 2000
Abstract The hydrogen absorption and desorption pressure–composition isotherms of the PuNi 3 type rhombohedral Zr 0.1 Tb 0.9 Fe 1.5 Co 1.5 are investigated by using a Sieverts’ type apparatus based on pressure reduction method in the ranges 75≤ T (°C)≤150 and 0.01≤ P (bar)≤30.
R Sivakumar +4 more
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Abstract The hydrogen absorption and desorption pressure–composition isotherms of the PuNi 3 type rhombohedral Zr 0.1 Tb 0.9 Fe 1.5 Co 1.5 are investigated by using a Sieverts’ type apparatus based on pressure reduction method in the ranges 75≤ T (°C)≤150 and 0.01≤ P (bar)≤30.
R Sivakumar +4 more
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Metal Science and Heat Treatment, 1969
1. The steel is more susceptible to hydrogen absorption after tempering at 20–450°C. The highest absorption capacity was found in the steel with a structure of troostite; the hydrogen absorption was minimal after tempering at 550–650°C. 2. Vacuum arc remelting reduces hydrogen absorption due to the higher purity of the metal. 3.
Yu. A. Klyachko +3 more
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1. The steel is more susceptible to hydrogen absorption after tempering at 20–450°C. The highest absorption capacity was found in the steel with a structure of troostite; the hydrogen absorption was minimal after tempering at 550–650°C. 2. Vacuum arc remelting reduces hydrogen absorption due to the higher purity of the metal. 3.
Yu. A. Klyachko +3 more
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The Journal of the Acoustical Society of America, 1958
Improved absorption results in hydrogen in the range 1 to 37 Mc/sec atmos are reported and their theoretical implications briefly reviewed.
H. D. Parbrook, W. Tempest
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Improved absorption results in hydrogen in the range 1 to 37 Mc/sec atmos are reported and their theoretical implications briefly reviewed.
H. D. Parbrook, W. Tempest
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Hydrogen sulphide chemical absorption
Chemical Engineering Science, 1964Abstract The chemistry of the processes of H 2 S absorption in aqueous hydroxide solutions and in aqueous carbonate-bicarbonate buffer solutions is studied, and theoretical equations for the rate of absorption are derived. Experimental results are in good agreement with theory.
G. Astarita, F. Gioia
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