应《网络安全法》要求,自2017年10月1日起,未进行实名认证将不得使用互联网跟帖服务。为保障您的帐号能够正常使用,请尽快对帐号进行手机号验证,感谢您的理解与支持!

24小时热门版块排行榜    

小木虫论坛-学术科研互动平台 » 学术交流区 » 论文投稿 » 交流 » 期刊Crystals(JCR Q2, 影响因子2.589)纳米结构材料的专刊邀稿
141/1返回列表
查看: 1088  |  回复: 13
只看楼主 @他人 存档 新回复提醒 (忽略) 收藏    在APP中查看

meconnie

新虫 (小有名气)

[交流] 期刊Crystals(JCR Q2, 影响因子2.589)纳米结构材料的专刊邀稿

期刊“Crystals”(JCR Q2, 影响因子2.589)的Special Issue "High-Performance Heterogeneous Nanostructured Materials"
https://www.mdpi.com/journal/cry ... tructured_materials

Special Issue Information
Dear Colleagues,

A variety of key fields (including aerospace, advanced manufacturing, new energy, deep-sea technology, and transportation, etc.,) have created an urgent need for the design, fabrication, and service evaluation of new high-performance metallic structural materials. Uniformly reducing the grain size to the nanometer scale has been well recognized to substantially improve the strength of metals. However, the strengthened homogeneous nanograined metals will inevitably sacrifice other properties to a significant extent, such as ductility and thermal stability. In recent years, a new class of nanomaterials called heterogeneous nanostructured materials possessing the soft and hard mixed regions have been designed to a unique architecture, e.g., gradient phases/composition/grain size/twin spacing/lamellar, hierarchically structural grains/twins, and nanoprecipitates/second phases, from the nanometer scale to the macroscale in bulk specimens. Owing to the particular cooperative effects of strain/stress partitioning between different domains, heterogeneous structures can harvest the high strength from the hard domains and the high ductility from the soft domains, thus leading to the high strength–ductility synergy. Since some pioneering works (such as from Lu’s, Zhu’s, and Wu’s groups) reported in Nature and Science, heterogeneous nanostructured materials have been proven to effectively achieve high-performance mechanical properties, e.g., strength–ductility synergy, excellent strain hardening, enhanced resistance of fatigue, creep, and wear, and remarkable mechanical and thermal stabilities. In addition to the unprecedented mechanical properties, the heterogamous nanostructuring strategy is also beneficial for developing various multifunctional materials.

The current Special Issue aims to summarize the state of the art of research progress of various high-performance heterogeneous nanostructured metals and alloys, including (i) mechanical properties (e.g., strength, ductility, fatigue, creep, phase transformation, and wear behaviors), (ii) advanced fabrication methods (e.g., severe plastic deformation techniques, laser treatment/additive manufacturing, machining technology, etc.), and (iii) microstructure characterizations responsible for the formation and underlying plastic deformation mechanisms. Research papers related to experiments, computational simulations/high-throughput computing, and theoretical modeling are all welcomed.

Dr. Xusheng Yang
Prof. Dr. Honghui Wu
Prof. Dr. Jiaming Zhu
Guest Editors
回复此楼

» 猜你喜欢

» 本主题相关商家推荐: (我也要在这里推广)

» 抢金币啦!回帖就可以得到:

查看全部散金贴
1楼 2021-09-08 09:43:06
已阅   回复此楼   关注TA 给TA发消息 送TA红花 TA的回帖

meconnie

新虫 (小有名气)
UPUP~~
回复此楼
13楼2021-09-17 19:06:43
已阅   回复此楼   关注TA 给TA发消息 送TA红花 TA的回帖

meconnie

新虫 (小有名气)
~UPUP
回复此楼
14楼2021-09-28 08:40:25
已阅   回复此楼   关注TA 给TA发消息 送TA红花 TA的回帖
简单回复
tzynew2楼
2021-09-08 09:45   回复  
meconnie(金币+1): 谢谢参与
u 发自小木虫Android客户端
bjdxyxy3楼
2021-09-08 09:52   回复  
meconnie(金币+1): 谢谢参与
发自小木虫Android客户端
bjdxyxy4楼
2021-09-08 09:52   回复  
meconnie(金币+1): 谢谢参与
发自小木虫Android客户端
bjdxyxy5楼
2021-09-08 09:52   回复  
meconnie(金币+1): 谢谢参与
发自小木虫Android客户端
bjdxyxy6楼
2021-09-08 09:52   回复  
meconnie(金币+1): 谢谢参与
发自小木虫Android客户端
bjdxyxy7楼
2021-09-08 09:52   回复  
meconnie(金币+1): 谢谢参与
发自小木虫Android客户端
bjdxyxy8楼
2021-09-08 09:53   回复  
meconnie(金币+1): 谢谢参与
发自小木虫Android客户端
bjdxyxy9楼
2021-09-08 09:53   回复  
meconnie(金币+1): 谢谢参与
发自小木虫Android客户端
bjdxyxy10楼
2021-09-08 09:53   回复  
xiaoqiuqiu2011楼
2021-09-08 23:24   回复  
meconnie(金币+1): 谢谢参与
nono200912楼
2021-09-09 00:18   回复  
meconnie(金币+1): 谢谢参与
发自小木虫Android客户端
相关版块跳转 我要订阅楼主 meconnie 的主题更新
141/1返回列表
普通表情 高级回复 (可上传附件)
最具人气热帖推荐 [查看全部] 作者 回/看 最后发表
[考研] 276求调剂 +8 路lyh123 2026-02-28 10/500 2026-03-03 18:25 by xin吖
[考研] 266材料化工求调剂 +3 哇塞王帅 2026-03-03 3/150 2026-03-03 17:58 by houyaoxu
[考研] 085600材料与化工 298 调剂 +3 小西笑嘻嘻 2026-03-03 3/150 2026-03-03 17:57 by houyaoxu
[考研] 材料328求调剂 +4 一个萝卜02 2026-03-03 4/200 2026-03-03 17:24 by barlinike
[基金申请] 没有青基直接申请面上,感觉自己疯了 +5 kevin63t 2026-03-02 6/300 2026-03-03 17:15 by taoyijie
[考研] 085602化学工程350,调剂,有没有211的 +5 利好利好. 2026-03-02 9/450 2026-03-03 17:06 by 利好利好.
[考研] 0805总分292,求调剂 +12 幻想之殇 2026-03-01 12/600 2026-03-03 15:58 by tgxtgxtgx9
[考研] 化工专硕348,一志愿985求调剂 +8 弗格个 2026-02-28 11/550 2026-03-03 14:55 by relum
[考研] 268求调剂 +10 简单点0 2026-03-02 14/700 2026-03-03 14:51 by pingping55
[考研] 计算机学硕 分数285求调剂 +4 glwshine 2026-03-02 5/250 2026-03-03 14:27 by king呀
[考研] 中国科学技术大学材料与化工281求调剂,有科研和获奖经历 +6 wsxw 2026-03-02 7/350 2026-03-03 12:33 by lature00
[考研] 材料类考研调剂 +6 gemmgemm 2026-03-01 7/350 2026-03-03 11:16 by EBSD
[考博] 26申博 +4 north, 2026-02-28 4/200 2026-03-03 10:12 by LOYUBUAA
[考研] 0856调剂 +10 刘梦微 2026-02-28 10/500 2026-03-02 23:42 by hcy618
[考博] 博士自荐 +4 kkluvs 2026-02-28 5/250 2026-03-02 19:19 by 轻松不少随
[考研] 281求调剂 +5 2026计算机_诚心 2026-03-01 8/400 2026-03-02 11:05 by 汪!?!
[考研] 322求调剂 +3 熊境喆 2026-03-01 3/150 2026-03-02 08:44 by houyaoxu
[基金申请] 本子写完了,给DS兄弟看了,得了92分 +3 Doma 2026-03-01 7/350 2026-03-02 00:00 by jnzsy
[硕博家园] 博士自荐 +7 科研狗111 2026-02-26 11/550 2026-03-01 22:24 by 哲平L
[考研] 304求调剂 +3 52hz~~ 2026-02-28 5/250 2026-03-01 00:00 by 52hz~~
信息提示
关闭
请填处理意见
关闭