https://insight.piscomed.com/index.php/I-IM/issue/feed 2019-09-17T22:52:42+00:00 Managing Editor editorial-i-im@piscomed.com Open Journal Systems <table><tbody><tr><td style="vertical-align: top;" align="justify"><em>Insight - Intermetallic Materials</em> is an international journal which aims to share research, experience, knowledge and ideas among those with a professional interest in the area. The journal welcomes all original researches and review articles covering all aspects of intermetallic materials, short communications and commentaries on the current development of intermetallic materials.</td><td width="150px"><img style="margin-left: 25px; clear: both;" src="/public/journals/102/journalThumbnail_en_US.jpg" alt="" width="150" align="right" /></td></tr></tbody></table> https://insight.piscomed.com/index.php/I-IM/article/view/251 2019-09-17T22:52:42+00:00 AWDAWD AWDA AWDAWD 893948522@qq.com

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2012-02-02T00:00:00+00:00 Copyright (c) 2019 AWDAWD AWDA AWDAWD https://insight.piscomed.com/index.php/I-IM/article/view/239 2019-09-17T20:28:01+00:00 xie weijie 893948522@qq.com

<p class="BodyText1">The paper deals with the effect of microstructure on the hydrogen diffusion in traditional ferritic-pearlitic HSLA steels and new high strength steels, with tempered martensite microstructures or banded ferritic-bainitic-martensitic microstructures. Diffusivity was correlated to the hydrogen embrittlement resistance of steels, evaluated by means of slow strain rate tests. </p>

2019-09-17T19:00:09+00:00 Copyright (c) 2019 xie weijie https://insight.piscomed.com/index.php/I-IM/article/view/238 2019-09-17T20:38:05+00:00 xie wei jie 893948522@qq.com

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2019-09-17T00:00:00+00:00 Copyright (c) 2019 xie wei jie https://insight.piscomed.com/index.php/I-IM/article/view/244 2024-04-27T23:37:52+00:00 xie weijie 893948522@qq.com

<p class="BodyText1">The paper deals with the effect of microstructure on the hydrogen diffusion in traditional ferritic-pearlitic HSLA steels and new high strength steels, with tempered martensite microstructures or banded ferritic-bainitic-martensitic microstructures. Diffusivity was correlated to the hydrogen embrittlement resistance of steels, evaluated by means of slow strain rate tests. </p>

2019-09-18T11:47:27+00:00 Copyright (c) Array xie weijie https://insight.piscomed.com/index.php/I-IM/article/view/246 2024-04-27T23:37:52+00:00 xie weijie 893948522@qq.com

<p class="BodyText1">The paper deals with the effect of microstructure on the hydrogen diffusion in traditional ferritic-pearlitic HSLA steels and new high strength steels, with tempered martensite microstructures or banded ferritic-bainitic-martensitic microstructures. Diffusivity was correlated to the hydrogen embrittlement resistance of steels, evaluated by means of slow strain rate tests. </p>

2019-09-18T11:52:36+00:00 Copyright (c) 2019 xie weijie https://insight.piscomed.com/index.php/I-IM/article/view/248 2024-04-27T23:37:52+00:00 xie weijie 893948522@qq.com

<p class="BodyText1">The paper deals with the effect of microstructure on the hydrogen diffusion in traditional ferritic-pearlitic HSLA steels and new high strength steels, with tempered martensite microstructures or banded ferritic-bainitic-martensitic microstructures. Diffusivity was correlated to the hydrogen embrittlement resistance of steels, evaluated by means of slow strain rate tests. </p>

2019-09-18T12:31:14+00:00 Copyright (c) 07-11-05 xie weijie https://insight.piscomed.com/index.php/I-IM/article/view/249 2019-09-17T22:24:11+00:00 xie wei jie 893948522@qq.com

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Copyright (c) 2019 xie wei jie https://insight.piscomed.com/index.php/I-IM/article/view/250 2019-09-17T22:50:51+00:00 xie X XXXX 893948522@qq.com

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2010-02-02T00:00:00+00:00 Copyright (c) 2019 xie X XXXX