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W1988979427 endingPage "72" @default.
W1988979427 startingPage "64" @default.
W1988979427 abstract "The formation of expanded austenite after nitrogen insertion into austenitic stainless steel, CoCr or Ni base alloys is still not completely understood. Ex situ X-ray diffraction (XRD) investigations, which can be very sophisticated nowadays, lack the exact time evolution while additional annealing processes may occur during cooling phases. Furthermore a time resolution of a few minutes is required, necessitating modern detectors. After mastering the challenge of building such equipment, in situ experiments can lead to a multitude of information which can be used to reassess current models. Here, a critical discussion about the topics where these in situ XRD investigations during low energy ion implantation (LEII) can help for further understanding and where they cannot help is presented. Especially, the following subjects are addressed: (i) influence of ion current density and grain orientation on diffusion and phase formation, (ii) decay of expanded austenite, (iii) correlation between lattice expansion and nitrogen content, and (iv) mechanical deformation of expanded austenite. While results on the first two points can be readily obtained, additional, external information on the nitrogen content and the orientation distribution function of grains is necessary for the latter two points, respectively." @default.
W1988979427 created "2016-06-24" @default.
W1988979427 creator A5045015959 @default.
W1988979427 creator A5056847854 @default.
W1988979427 creator A5062557210 @default.
W1988979427 creator A5066213967 @default.
W1988979427 date "2014-10-01" @default.
W1988979427 modified "2023-10-17" @default.
W1988979427 title "Analysis of in situ XRD measurements for low energy ion beam nitriding of austenitic stainless steel" @default.
W1988979427 cites W1968641521 @default.
W1988979427 cites W1972950482 @default.
W1988979427 cites W1975038168 @default.
W1988979427 cites W1977524932 @default.
W1988979427 cites W1980187279 @default.
W1988979427 cites W1980308904 @default.
W1988979427 cites W1981744393 @default.
W1988979427 cites W1983116801 @default.
W1988979427 cites W1985312917 @default.
W1988979427 cites W1985629977 @default.
W1988979427 cites W1986156346 @default.
W1988979427 cites W1990402224 @default.
W1988979427 cites W1990673485 @default.
W1988979427 cites W1995957697 @default.
W1988979427 cites W1996200397 @default.
W1988979427 cites W1996308300 @default.
W1988979427 cites W2000368560 @default.
W1988979427 cites W2003106961 @default.
W1988979427 cites W2003244180 @default.
W1988979427 cites W2004154794 @default.
W1988979427 cites W2007332223 @default.
W1988979427 cites W2009673461 @default.
W1988979427 cites W2010562264 @default.
W1988979427 cites W2013135639 @default.
W1988979427 cites W2016882335 @default.
W1988979427 cites W2018912903 @default.
W1988979427 cites W2020045055 @default.
W1988979427 cites W2021395929 @default.
W1988979427 cites W2021472418 @default.
W1988979427 cites W2025301560 @default.
W1988979427 cites W2028834320 @default.
W1988979427 cites W2029659421 @default.
W1988979427 cites W2030341745 @default.
W1988979427 cites W2031651827 @default.
W1988979427 cites W2031975877 @default.
W1988979427 cites W2032368241 @default.
W1988979427 cites W2033581697 @default.
W1988979427 cites W2033766950 @default.
W1988979427 cites W2036256842 @default.
W1988979427 cites W2040611820 @default.
W1988979427 cites W2047040957 @default.
W1988979427 cites W2047114811 @default.
W1988979427 cites W2047165001 @default.
W1988979427 cites W2049323158 @default.
W1988979427 cites W2054974710 @default.
W1988979427 cites W2055063503 @default.
W1988979427 cites W2056559141 @default.
W1988979427 cites W2056562739 @default.
W1988979427 cites W2061096631 @default.
W1988979427 cites W2061653682 @default.
W1988979427 cites W2061668965 @default.
W1988979427 cites W2068699288 @default.
W1988979427 cites W2070844030 @default.
W1988979427 cites W2071765619 @default.
W1988979427 cites W2076285047 @default.
W1988979427 cites W2080146556 @default.
W1988979427 cites W2082201940 @default.
W1988979427 cites W2084696803 @default.
W1988979427 cites W2087599743 @default.
W1988979427 cites W2089957783 @default.
W1988979427 cites W2090456092 @default.
W1988979427 cites W2091969715 @default.
W1988979427 cites W2092654027 @default.
W1988979427 cites W2109351431 @default.
W1988979427 cites W2149711761 @default.
W1988979427 cites W4251140730 @default.
W1988979427 doi "https://doi.org/10.1016/j.surfcoat.2014.03.047" @default.
W1988979427 hasPublicationYear "2014" @default.
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