| 1 |
Grain refinement effect on hydrogen embrittlement resistance of an equiatomic CoCrFeMnNi high-entropy alloy
Koyama M, Ichii K, Tsuzaki K
International Journal of Hydrogen Energy, 44(31), 17163, 2019 |
| 2 |
Transformation-assisted hydrogen desorption during deformation in steels: Examples of alpha '- and epsilon-Martensite
Hojo T, Koyama M, Terao N, Tsuzaki K, Akiyama E
International Journal of Hydrogen Energy, 44(57), 30472, 2019 |
| 3 |
Hydrogen migration and hydrogen-dislocation interaction in austenitic steels and titanium alloy in relation to hydrogen embrittlement
Teus SM, Savvakin DG, Ivasishin OM, Gavriljuk VG
International Journal of Hydrogen Energy, 42(4), 2424, 2017 |
| 4 |
On the effectiveness of surface severe plastic deformation by shot peening at cryogenic temperature
Novelli M, Fundenberger JJ, Bocher P, Grosdidier T
Applied Surface Science, 389, 1169, 2016 |
| 5 |
Structural evolution of oxide dispersion strengthened austenitic powders during mechanical alloying and subsequent consolidation
Wang M, Sun HY, Zou L, Zhang GM, Li SF, Zhou ZJ
Powder Technology, 272, 309, 2015 |
| 6 |
Features of swelling in modified austenitic steels
Voyevodin V, Bryk V, Borodin O, Neklyudov I, Akasaka N, Onose S
Materials Science Forum, 475-479, 1437, 2005 |
| 7 |
A TEM study of cavity structures in a Fe-Cr-mn alloy and A 316L stainless steel heavily irradiated with 92 MeV Ar ions
Zhang CH, Wang YS, Chen KQ, Sun JG, Quan JM, Chen CQ
Materials Science Forum, 475-479, 1459, 2005 |
| 8 |
Microstructure and creep properties of AISI 316LN steels with niobium additions
Vodarek V, Roznovska G, Sobotka J
Materials Science Forum, 482, 275, 2005 |
| 9 |
Steam oxidation resistance of selected austenitic steels
Osgerby S, Fry AT
Materials Science Forum, 461-464, 1023, 2004 |
| 10 |
"High strength stainless steels manufactured by temperature controlled rolling"
Kawalla R, Erkel KP, Goldhahn G
Materials Science Forum, 426-4, 1523, 2003 |
