Your search keyword '"Wang, Dongxin"' showing total 6 results

1. Hot Rolling on Microstructure and Properties of NbHfTiVC 0.1 Refractory High-Entropy Alloy.

Author

Qiu, Haochen, Tao, Shutian, Jiang, Wei, Yan, Xuehui, Wu, Shuaishuai, Guo, Shengli, Zhu, Baohong, and Wang, Dongxin

Subjects

HOT rolling, LAVES phases (Metallurgy), MICROSTRUCTURE, TENSILE strength, MATERIAL plasticity

Abstract

NbHfTiVC0.1 refractory high-entropy alloy (RHEA) exhibits excellent comprehensive mechanical properties and demonstrates great potential for applications. However, the mechanical properties need to be improved further. In this work, hot rolling on NbHfTiVC0.1 RHEA at temperatures of 650 °C, 850 °C, and 1050 °C, with total reductions of up to 30%, 50%, 70%, and 80%, was conducted. The microstructure and mechanical property evolution of the samples were further investigated. The hot-rolled samples at 650 °C and 850 °C exhibit a composition consisting of BCC, carbide, and Laves phases, whereas the samples rolled at 1050 °C only consist of BCC and carbide phases. The 650-80 sample displays the highest ultimate tensile strength (1354 MPa), and the 1050-80 sample demonstrates the highest elongation (16%). The highest strength observed in the 650 °C-80% sample can be attributed to the presence of fractured and refined carbides, fine-grains, and the hindrance of dislocation slip by the fine Laves phase. At a higher rolling temperature (1050 °C), the Laves phase disappears, resulting in a reduction in strength but an increase in plasticity. Furthermore, the dislocation slipping mechanism within the BCC matrix also contributes positively to plastic deformation, leading to a notable increase in ductility for the 1050 °C-80% sample. These research findings provide valuable insights into enhancing the strength and ductility simultaneously of NbHfTiVC0.1 RHEA through hot rolling. [ABSTRACT FROM AUTHOR]

Published

2023

2. A Comprehensive Review on Combinatorial Film via High-Throughput Techniques.

Author

Wang, Dongxin, Jiang, Wei, Li, Shurong, Yan, Xuehui, Wu, Shuaishuai, Qiu, Haochen, Guo, Shengli, and Zhu, Baohong

Subjects

*FILM reviewing, *CHEMICAL solution deposition, *ION plating, *TECHNOLOGICAL innovations, *MAGNETRON sputtering

Abstract

Numerous technological advancements in the 21st century depend on the creation of novel materials possessing enhanced properties; there is a growing reliance on materials that can be optimized to serve multiple functions. To efficiently save time and meet the requirements of diverse applications, high-throughput and combinatorial approaches are increasingly employed to explore and design superior materials. Among them, gradient thin-film deposition is one of the most mature and widely used technologies for high-throughput preparation of material libraries. This review summarizes recent progress in gradient thin-film deposition fabricated by magnetron sputtering, multi-arc ion plating, e-beam evaporation, additive manufacturing, and chemical bath deposition, providing readers with a fundamental understanding of this research field. First, high-throughput synthesis methods for gradient thin films are emphasized. Subsequently, we present the characteristics of combinatorial films, including microstructure, oxidation, corrosion tests, and mechanical properties. Next, the screening methods employed for evaluating these properties are discussed. Furthermore, we delve into the limitations of high-throughput preparation and characterization techniques for combinatorial films. Finally, we provide a summary and offer our perspectives. [ABSTRACT FROM AUTHOR]

Published

2023

3. Research Progress of Low Density and High Stiffness of Be-Al Alloy Fabricated by Investment Casting.

Author

Li, Junyi, Xie, Yao, Yang, Yiqun, Liu, Zhaogang, Wang, Dongxin, and Yin, Yajun

Subjects

INVESTMENT casting, ELECTRON beam welding, METALLIC composites, COMPOSITE materials, ALLOYS, HEAT treatment, LIGHTWEIGHT materials

Abstract

Be-Al alloy is a type of in situ metal matrix composite composed of a primary Be phase for strength and stiffness and a continuous Al matrix for ductility and toughness. Be-Al alloy (AlBe-Cast®910) has the characteristics of low density (2.17 g/cm3), high elastic modulus (193 GPa) and specific stiffness (88.94 GPa/(g/cm3)) as a preferred material for lightweight aerospace products. Investment casting technology can be employed to prepare the components with thin-walled complex structures for aerospace; however, the wide solidification range for Be-Al leads to difficulty in feeding a casting and results in extensive shrinkage and porosity in cast parts. In this paper, the characteristics of Be-Al alloy are introduced first. Secondly, the mechanisms of influence of adding elements on the casting process, mechanical properties (strength increases more than 20% by adding elements) and microstructure evolution are explained in detail. In addition, the heat treatment technology (strength increases at least 10% after heat treatment) and the repair of defects by electron beam welding are discussed. Finally, Be-Al alloy is a new type of composite material, and China is a major research and application country; this paper introduces its research status and analyzes existing problems and shortcomings and points out the direction of Be-Al alloy development in China in the next few years. [ABSTRACT FROM AUTHOR]

Published

2022

4. Genome-Wide Association Study in Rice Revealed a Novel Gene in Determining Plant Height and Stem Development, by Encoding a WRKY Transcription Factor.

Author

Wei, Xiaoshuang, Zhou, Hailian, Xie, Deying, Li, Jianguo, Yang, Mingchong, Chang, Tianli, Wang, Dongxin, Hu, Lihua, Xie, Guosheng, Wang, Jihong, and Wang, Lingqiang

Subjects

GENOME-wide association studies, RICE, PLANT stems, TRANSCRIPTION factors, PLANT genes, PLANT breeding

Abstract

Semi-dwarfism is a main agronomic trait in crop breeding. In this study, we performed genome-wide association study (GWAS) and identified a new quantitative trait nucleotide (QTN) for rice shoot length. The peak QTN (C/T) was located in the first coding region of a group III WRKY transcription factor OsWRKY21 (LOC_Os01g60640). Interestingly, further haplotype analysis showed that C/T difference only existed in the indica group but not in the japonica group, resulting in significant differences in plant height among the different indica rice varieties. OsWRKY21 was expressed in embryo, radicle, shoots, leaves, and stems. Most notably, overexpressing OsWRKY21 resulted in the semi-dwarf phenotype, early heading date and short internodes compared to the wild type, while the knockout mutant plants by CRISPR/Cas9 technology yielded the opposite. The overexpressing lines exhibited the decreased length of the cells near sclerenchyma epidermis, accompanied with the lower levels of indole-3-acetic acid (IAA) and gibberellin 3 (GA3), but increased levels of the abscisic acid (ABA) and salicylic acid (SA) in the internodes at heading stage. Moreover, the semi-dwarf phenotype could be fully rescued by exogenous GA3 application at seedling stage. The RNA-seq and qRT-PCR analysis confirmed the differential expression levels of genes in development and the stress responses in rice, including GA metabolism (GA20ox2, GA2ox6, and YABY1) and cell wall biosynthesis (CesA4, 7, and 9) and regulation (MYB103L). These data suggest the essential role of OsWRKY21 in regulation of internode elongation and plant height in rice. [ABSTRACT FROM AUTHOR]

Published

2021

5. Detection and Analysis of C-to-U RNA Editing in Rice Mitochondria-Encoded ORFs.

Author

Zheng, Peng, Wang, Dongxin, Huang, Yuqing, Chen, Hao, Du, Hao, and Tu, Jumin

Subjects

RNA editing, RNA analysis, PLANT mitochondria, RICE, RNA modification & restriction, AMINO acids

Abstract

Cytidine to uridine (C-to-U) RNA editing is an important type of substitutional RNA modification and is almost omnipresent in plant chloroplasts and mitochondria. In rice mitochondria, 491 C-to-U editing sites have been identified previously, and case studies have elucidated the function of several C-to-U editing sites in rice, but the functional consequence of most C-to-U alterations needs to be investigated further. Here, by means of Sanger sequencing and publicly available RNA-seq data, we identified a total of 569 C-to-U editing sites in rice mitochondria-encoded open reading frames (ORFs), 85.41% of these editing sites were observed on the first or the second base of a codon, resulting in the alteration of encoded amino acid. Moreover, we found some novel editing sites and several inaccurately annotated sites which may be functionally important, based on the highly conserved amino acids encoded by these edited codons. Finally, we annotated all 569 C-to-U RNA editing sites in their biological context. More precise information about C-to-U editing sites in rice mitochondria-encoded ORFs will facilitate our investigation on the function of C-to-U editing events in rice and also provide a valid benchmark from rice for the analysis of mitochondria C-to-U editing in other plant species. [ABSTRACT FROM AUTHOR]

Published

2020

6. Comprehensive Regulation of Liquid–Liquid Phase Separation of Polypeptides.

Author

Wang, Yanwei, Xiang, Dongxin, Chen, Siyuan, and Yang, Guangcan

Subjects

PHASE separation, POLYPEPTIDES, PEPTIDES, ELECTROSTATIC interaction, ETHANOL, ARGININE

Abstract

The elucidation of the molecular driving forces responsible for Liquid–liquid Phase Separation (LLPS) of proteins and nucleic acids within living cells is crucial for understanding its biological functions and its role in related diseases. In the present study, we investigated the regulation of LLPS in a series of polypeptides with repetitive proline and arginine (PR) sequences by modifying their length and the salt concentration in the solution. Our findings indicate that higher salt concentrations are necessary for LLPS of repetitive PR peptides longer than eight PRs, which emerges as a threshold value. To pinpoint the molecular forces driving the LLPS in peptides, we sequentially introduced various concentrations of hydrophobic disruptors, such as 1,6-hexanediol, and electrostatic regulators, such as ethyl alcohol and 6-Aminocaproic acid. We further modulated the electrostatic interaction by introducing ethyl alcohol and 6-Aminocaproic acid to alter the dielectric constant of the solution. The inclusion of ethyl alcohol intensified the electrostatic interaction between arginine molecules, facilitating LLPS of PR15, while 6-Aminocaproic acid yielded the reverse effect. We deduced that the phase separation in peptide systems is conjointly driven by hydrophobicity and electrostatic interactions. These insights can guide the regulation of LLPS in other peptide and protein systems, and could be pivotal in addressing abnormal aggregations of proteins and nucleic acids. [ABSTRACT FROM AUTHOR]

Published

2023