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• W2092115237 abstract "Total erosion yields by sputtering and blistering for 1 to 15 keV H2+ bombardment at normal incidence have been measured by weight loss of 304 stainless steel, pyrolytic graphite, carbon fibres, glassy carbon and SiC. The erosion yields are in the range of 3 × 10−3 to 2.6 × 10−2 atoms per incident hydrogen atom. Observation in the scanning electron microscope shows that blisters occur in stainless steel and SiC at doses of 5 × 1018 particles/cm2, but disappear at doses of 5 × 10 particles/cm2 . The surface roughening observed depends largely on grain orientation. On carbon no blistering could be found. After bombardment the carbon surfaces are generally more smooth than before. Les taux d'érosion et la formation de cloques par bombardment, sous incidence normale, avec des ions de 1 à 15 keV H2+ de l'acier inoxydable 304, du graphite pyrolitique, de fibres de carbone, du carbone vitreux et de SiC ont été mesurés par la méthode de perte de poids. Les taux d'érosion sont de 3 × 10−3 à 2,6 × 10−2 atome par atome d'hydrogène incident. Des observations au microscope électronique à balayage montrent la formation de cloques à des doses de 5 × 1018 particles/cm2 pour l'acier inoxydable et SiC, mais elles disparaissent à des doses de 5 × 1019 particules/cm2. La rugosité observée dépend beaucoup de l'orientation des grains. Il n'y a pas de formation de cloques pour le carbone. Sa surface est, en général, plus lisse après bombardement. Edelstahl 304, Siliciumcarbid, pyrolytischer Graphit, Kohlefasern und Glaskohlenstoff wurden mit 1 bis 15 keV h2+-Ionen Senkrecht einfallend beschossen und die totale Erosion durch Zerstäubung und Blasenbildung uber den Gewichtsverlust gemessen. Die Erosionsausbeuten liegen zwischen 3 × 10−3 und 2,6 × 10−2 Atomen pro einfallendem Wasserstoffatom. Beobachtungen im Rasterelektronenmikroskop zeigen, dass auf Edelstahl und SiC bei Dosen von 5 × 1018 Teilchen/cm2 Blasen (“blisters”) entstehen, aber bei 5 × 1019 Teilchen/cm2 wieder verschwinden. Es wurde eine Aufrauhung der Oberflächen beobachtet, die stark von der Kornorientierung abhangt. Auf Kohlenstoff konnten keine Blasen beobachtet werden. Nach dem Beschuss sind die Kohlenstoffoberflächen im allgemeinen glatter als vorher." @default.
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• W2092115237 date "1976-06-01" @default.
• W2092115237 modified "2023-09-26" @default.
• W2092115237 title "Measurements of the erosion of stainless steel, carbon, and SiC by hydrogen bombardment in the energy range of 0.5 – 7.5 keV" @default.
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• W2092115237 doi "https://doi.org/10.1016/0022-3115(76)90147-1" @default.
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