Institution
University of Science and Technology Beijing
Education•Beijing, China•
About: University of Science and Technology Beijing is a education organization based out in Beijing, China. It is known for research contribution in the topics: Microstructure & Alloy. The organization has 41558 authors who have published 44473 publications receiving 623229 citations. The organization is also known as: Beijing Steel and Iron Institute.
Topics: Microstructure, Alloy, Corrosion, Austenite, Ultimate tensile strength
Papers published on a yearly basis
Papers
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TL;DR: Five practical examples involving a wide variety of systems and analysis methods are given to illustrate the usefulness of Multiwfn, a multifunctional program for wavefunction analysis.
Abstract: Multiwfn is a multifunctional program for wavefunction analysis. Its main functions are: (1) Calculating and visualizing real space function, such as electrostatic potential and electron localization function at point, in a line, in a plane or in a spatial scope. (2) Population analysis. (3) Bond order analysis. (4) Orbital composition analysis. (5) Plot density-of-states and spectrum. (6) Topology analysis for electron density. Some other useful utilities involved in quantum chemistry studies are also provided. The built-in graph module enables the results of wavefunction analysis to be plotted directly or exported to high-quality graphic file. The program interface is very user-friendly and suitable for both research and teaching purpose. The code of Multiwfn is substantially optimized and parallelized. Its efficiency is demonstrated to be significantly higher than related programs with the same functions. Five practical examples involving a wide variety of systems and analysis methods are given to illustrate the usefulness of Multiwfn. The program is free of charge and open-source. Its precompiled file and source codes are available from http://multiwfn.codeplex.com.
17,273 citations
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TL;DR: The concept of high entropy introduces a new path of developing advanced materials with unique properties, which cannot be achieved by the conventional micro-alloying approach based on only one dominant element as mentioned in this paper.
4,394 citations
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TL;DR: In this article, the factors of the atomic size difference Delta and the enthalpy of mixing ΔH mιx of the multi-component alloys were summarized from the literatures.
Abstract: The factors of the atomic size difference Delta and the enthalpy of mixing ΔH mιx of the multi-component alloys were summarized from the literatures. The formation zones of solid-solution phases, intermediate phases, and bulk metallic glasses were determined and the validity was verified by experimental results. For forming the solid solution, the alloys should have high entropy of mixing, lower Delta, and not too negative and positive enthalpy of mixing.
1,936 citations
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TL;DR: This paper systematically reviews the recent modeling developments for estimating the RUL and focuses on statistical data driven approaches which rely only on available past observed data and statistical models.
1,667 citations
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TL;DR: In this article, the phase formation for multi-component alloys has been predicted by calculating parameters Ω and δ for typical multichamber alloys reported, where Ω is defined as a parameter of the entropy of mixing timing the average melting temperature of the elements over the enthalpy of mixing, δ is the mean square deviation of the atomic size of elements.
1,559 citations
Authors
Showing all 41904 results
Name | H-index | Papers | Citations |
---|---|---|---|
Xuedong Bai | 68 | 306 | 17198 |
Wei He | 68 | 399 | 16294 |
Hao Wang | 68 | 219 | 43634 |
Zhijun Li | 68 | 614 | 14518 |
Steven X. Ding | 67 | 541 | 21539 |
Jun Xu | 66 | 1009 | 20967 |
Yu Liu | 66 | 1262 | 20577 |
Caofeng Pan | 65 | 241 | 14604 |
Li-Zhen Fan | 65 | 212 | 13344 |
Federico Rosei | 65 | 451 | 15830 |
Huilin Li | 65 | 305 | 17579 |
Zhi-Min Dang | 65 | 309 | 14651 |
Shaoqing Zhang | 64 | 162 | 20375 |
Jin Wang | 64 | 604 | 15887 |
Xiaogang Li | 64 | 740 | 17841 |