Your search keyword '"Weiqing An"' showing total 8 results

1. Evaluation of the partitioned mechanical properties and the hall-petch relationship of cast aluminum alloy cylinder head

Author

Yan Kangjie, Huang Weiqing, Zuo Zhengxing, Liu Jinxiang, Ren Peirong, Hu Dingyun, and Zhao Chengzhang

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

In view of the non-uniform distribution of mechanical properties of cast aluminum alloy cylinder head, the mechanical properties evaluation and microstructure heterogeneity of cylinder head were studied. The results showed that the head plate position of the cylinder head has the best mechanical properties and microstructure characterization, followed by the floor plate and the thick partition plate. The mechanical properties of the floor plate position attenuate with increasing temperature. From 23°C to 300°C, the tensile strength and yield strength decrease in the same range, but the break elongation changes most obviously. The mechanical properties and microstructure characterization of cylinder head in-situ sampling satisfy the Hall-Petch relationship. If the required ultimate tensile strength is not less than 255MPa, the upper threshold of the grain size, by considering the error limit of the Hall-Petch relationship, is 603.4μm, and the upper threshold of secondary dendrite arm spacing is 69.1μm. Meanwhile, established the relationship between hardness and yield strength, the average error of the nonlinear model is 4.35%. The prediction accuracy of the nonlinear model is sufficient to meet the actual needs of the engineering.

Published

2022

2. Elaboration de matériaux composites nanofils magnétiques/polymères pour la fabrication d'aimants permanents

Author

Fang , Weiqing, Laboratoire Léon Brillouin (LLB - UMR 12), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Université Paris Sud - Paris XI, Frédéric Ott, François Boué, Laboratoire Léon Brillouin ( LLB - UMR 12 ), Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Université Paris-Saclay-Centre National de la Recherche Scientifique ( CNRS ), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS)-Université Paris-Saclay, and STAR, ABES

Subjects

Magnetic nanocomposite, Alignement, [CHIM.OTHE] Chemical Sciences/Other, SANS, Nanocomposite magnétique, [ CHIM.OTHE ] Chemical Sciences/Other, DNPA, [ PHYS.COND.CM-GEN ] Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other], SAXS, Cobalt nanowire, DXPA, [CHIM.OTHE]Chemical Sciences/Other, Nanofils de cobalt

Abstract

This thesis focuses on the development of nanocomposites made from anisotropic cobalt nanowires / polymer for the manufacture of permanent magnets which do not contain any rare earth and the optimization of the magnetic properties of these composite materials.The preparation of single-domain cobalt nanowires (R ~ 6-10 nm and L ~ 250-350 nm) was performed by conventional thermal route and by microwave route. The films of composite aligned Co nanowires/polymer have been elaborated with very good magnetic properties (μ0Hc = 0.75T, Mr / Ms = 0.92). The (BH)max is 160 kJ/m3 which is in the range of SmCo magnets (~ 120-200 BHmax kJ/m3). The techniques of small angles neutron and X-ray small angle scattering (SANS and SAXS) were used for the characterization of anisotropic systems and dispersions. The wires in chloroform are better dispersed compared to other solvents and form aggregates smaller. For the films of composite, the aggregation of the nanowires is relatively denser in polystyrene than in poly (vinyl pyrrolidone). The quality of alignment is proportional to the amplitude of the applied field, even for very high fields. However, a better alignment does not automatically lead to a better coercivity. The interactions between nanowires were characterized by Henkel plots. The ΔM values are pretty low (ΔM, Cette thèse porte sur l’élaboration de nanocomposites anisotropes à base de nanofils de cobalt/polymères pour la fabrication d’aimants permanents qui ne contiennent pas de terres rares et l’optimisation des propriétés magnétiques de ces matériaux composites. La préparation de nanofils de cobalt mono-domaines (R~6-10 nm et L~250-350 nm) a été réalisée par voie thermique conventionnelle et par voie micro-onde. Des films de composites Co/polymère alignés ont été élaborés avec de très bonnes propriétés magnétiques (μ0Hc=0.75T, Mr/Ms=0.92). Le (BH)max est de 160 kJ/m3 qui est dans la gamme des aimants SmCo (BHmax~ 120-200 kJ/m3). Les techniques de diffusion de neutrons et de rayons-X aux petits angles (DNPA et DXPA) ont été utilisées pour la caractérisation des dispersions et des systèmes anisotropes. Les fils dans le chloroforme sont mieux dispersés par rapport aux autres solvants et forment des agrégats moins gros. Pour les films de composites, l’agrégation des nanofils est relativement plus dense dans le polystyrène que dans le poly(vinyl pyrrolidone). La qualité de l’alignement est proportionnelle à l’amplitude du champ appliqué même pour des champs très élevés. Cependant, un meilleur alignement ne conduit pas automatiquement à une meilleure coercivité. Les interactions entre des nanofils ont été caractérisées par Henkel plots. Les valeurs de ΔM sont faibles (ΔM

Published

2013

3. Cellulose solutions and hybrid/composite materials from ionic liquid and alkaline solvents

Author

Liu, Weiqing, Centre de Mise en Forme des Matériaux (CEMEF), MINES ParisTech - École nationale supérieure des mines de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Ecole Nationale Supérieure des Mines de Paris, Tatiana Budtova, and Patrick Navard

Subjects

[SPI.OTHER]Engineering Sciences [physics]/Other, Carbon black, Hydroxyde de sodium, Starch, Hybrid materials, Matériaux hybrides, Ionic liquid, Noir de carbone, Cellulose, Amidon, Liquide ionique, Sodium hydroxide

Abstract

Cellulose, as the most common organic compounds on Earth, and also the most abundant polysaccharide, is definitely an important natural resource. With the initiatives of replacing (partially) the conventional petrochemical polymers by bio-based polymers, cellulose has regained the researchers' interests in the last few decades, not only because it is renewable and biodegradable, but also due to interesting properties such as biocompatibility and chemical stability. Additionaly, cellulose properties can be further enhanced by chemical/physical modification or making composites with functional fillers.This study was to investigate several fundamental scientific aspects as cellulose dissolution, making cellulose-based materials from solutions, and test of new concepts as surface modification or coating at laboratory scale. We studied and will present in this manuscript the characterization and properties of both cellulose solutions in different solvents (aqueous sodium hydroxide and ionic liquid) and two types of cellulose-based hybrid materials (one with starch and the other with carbon black), which were all prepared from dissolved cellulose.; La cellulose, composé organique le plus courant et polysaccharide le plus abondant sur Terre, est une ressource naturelle très importante. Les initiatives pour remplacer totalement ou partiellement les polymères pétrochimiques conventionnels avec des bio-polymères à base de cellulose ont donc attiré l'intérêt des chercheurs ces dernières décennies, non seulement parce que la cellulose est renouvelable et biodégradable, mais aussi en raison de ses propriétés intéressantes telles que la biocompatibilité et la stabilité chimique. De plus, les propriétés de cellulose peuvent être encore améliorées par des procédés chimiques, des modifications physiques ou en préparant des composites avec des charges fonctionnelles.Les études concernant d'étudier plusieurs aspects fondamentaux comme la dissolution de la cellulose afin de produire des matériaux et le test de nouveaux concepts autour de la modification de surface ou des revêtements, à l'échelle du laboratoire. Nous présentons dans ce manuscrit nos travaux concernant la caractérisation de solutions de cellulose dans deux solvants différents (hydroxyde de sodium aqueux et un liquide ionique) et la préparation de deux nouveaux types de matériaux à base de cellulose (un matériau hybride cellulose-amidon et un composite cellulose-noir de carbone), qui sont tous les deux préparés à partir de ces solutions de cellulose.

Published

2013

4. Solutions de cellulose et matériaux hybrides/composites à base de liquides ioniques et solvants alcalins

Author

Liu, Weiqing, Centre de Mise en Forme des Matériaux (CEMEF), MINES ParisTech - École nationale supérieure des mines de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Ecole Nationale Supérieure des Mines de Paris, Tatiana Budtova, and Patrick Navard

Subjects

[SPI.OTHER]Engineering Sciences [physics]/Other, Carbon black, Hydroxyde de sodium, Starch, Hybrid materials, Matériaux hybrides, Ionic liquid, Noir de carbone, Cellulose, Amidon, Liquide ionique, Sodium hydroxide

Abstract

Cellulose, as the most common organic compounds on Earth, and also the most abundant polysaccharide, is definitely an important natural resource. With the initiatives of replacing (partially) the conventional petrochemical polymers by bio-based polymers, cellulose has regained the researchers' interests in the last few decades, not only because it is renewable and biodegradable, but also due to interesting properties such as biocompatibility and chemical stability. Additionaly, cellulose properties can be further enhanced by chemical/physical modification or making composites with functional fillers.This study was to investigate several fundamental scientific aspects as cellulose dissolution, making cellulose-based materials from solutions, and test of new concepts as surface modification or coating at laboratory scale. We studied and will present in this manuscript the characterization and properties of both cellulose solutions in different solvents (aqueous sodium hydroxide and ionic liquid) and two types of cellulose-based hybrid materials (one with starch and the other with carbon black), which were all prepared from dissolved cellulose.; La cellulose, composé organique le plus courant et polysaccharide le plus abondant sur Terre, est une ressource naturelle très importante. Les initiatives pour remplacer totalement ou partiellement les polymères pétrochimiques conventionnels avec des bio-polymères à base de cellulose ont donc attiré l'intérêt des chercheurs ces dernières décennies, non seulement parce que la cellulose est renouvelable et biodégradable, mais aussi en raison de ses propriétés intéressantes telles que la biocompatibilité et la stabilité chimique. De plus, les propriétés de cellulose peuvent être encore améliorées par des procédés chimiques, des modifications physiques ou en préparant des composites avec des charges fonctionnelles.Les études concernant d'étudier plusieurs aspects fondamentaux comme la dissolution de la cellulose afin de produire des matériaux et le test de nouveaux concepts autour de la modification de surface ou des revêtements, à l'échelle du laboratoire. Nous présentons dans ce manuscrit nos travaux concernant la caractérisation de solutions de cellulose dans deux solvants différents (hydroxyde de sodium aqueux et un liquide ionique) et la préparation de deux nouveaux types de matériaux à base de cellulose (un matériau hybride cellulose-amidon et un composite cellulose-noir de carbone), qui sont tous les deux préparés à partir de ces solutions de cellulose.

Published

2013

5. Research on the Teaching Reform of Translation Online Course for Business English Majors in Application-oriented Universities -- A Case Study of S University

Author

Meng Qin, Liu Weiqing, and Lv Yanan

Subjects

Social Sciences

Abstract

With the advent of the information age, online education has developed rapidly. The teaching reform of translation online course for business English majors in application-oriented universities is an important means to cultivate high-quality application-oriented talents. In view of this need, this study has explored the teaching reform of translation online course for business English majors in application-oriented universities from the aspects of curriculum orientation and planning, teacher team construction, curriculum resources, teaching and management as well as teaching effect. Therefore, this study aims to improve the training quality of application-oriented talents, innovate the talent training mode and form teaching characteristics.

Published

2023

6. Optimization Study of New Type High-Capacity Synchronous Condenser based on Coupling of Electromagnetic and Temperature Field

Author

Zhang Xi, Wang Weiqing, He Shan, Cheng Jing, and Yuan Zhi

Subjects

Environmental sciences, GE1-350

Abstract

In order to optimize electromagnetic structure of new type high-capacity synchronous condenser, increase reactive capacity, and improve the speed of dynamic response, the theoretical derivation of the effects on the main performance parameters of the synchronous condenser is carried out, also the influence of the structure size of the synchronous condenser on the transient characteristics is clarified. Changing the air gap length and improving the size of stator structure are proposed to optimize the performance of synchronous condenser. The electromagnetic calculation of the optimized synchronous condenser is carried out by using finite element analysis method, the mathematical relationship between length of air gap and reactive capacity is clarified and the relationship between size of stator slot and fast response characteristics is explicited too. The temperature field of the synchronous condenser under multiple working conditions is simulated. The simulation results show that the temperature distribution of the optimized synchronous condenser is reasonable, and it possess good effect of cooling. Also the overload capacity of the synchronous condenser is verified with the temperature field.

Published

2020

7. Comparisons on Calculating Methods of Total Daily Global Solar Radiation in Urban Area Based on Panoramic Images

Author

Zhang Moyan, Liu Yan, Chen Ruixin, Guo Xiangfei, Yuan Weiqing, and Yang Liu

Subjects

Environmental sciences, GE1-350

Abstract

In this paper, the total daily global solar radiation is tested at 18 locations with different morphological characteristics in Xi’an University of Architecture and Technology. PTgui is used to convert the panoramic pictures from Baidu Street Map to fisheye images. Sky view factor (SVF) and tree view factor (TVF) are calculated by Rayman model with fisheye images. SVF is used to calculate the total daily global solar radiation at the 18 locations with two different methods and TVF is used to classify the locations. The calculations and testing results are compared and combined the morphological characteristics. Then it is found that using suitable methods on different locations is necessary to obtain more accurate results whether the TVF (tree view factor) is more than 0.3 or less. To obtain solar radiation at different locations in the urban area, the calculating methods should be carefully chosen based on the morphology characteristics of the location.

Published

2019

8. Two-dimensional Modelling of Thermal Responses of GFRP Profiles Exposed to ISO-834 Fire

Author

Ding Teng, Wang Lu, and Liu Weiqing

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

In the past three decades, one-dimensional (1-D) thermal model was usually used to estimate the thermal responses of glass fiber-reinforced polymer (GFRP) materials and structures. However, the temperature gradient and mechanical degradation of whole cross sections cannot be accurately evaluated. To address this issue, a two-dimensional (2-D) thermo-mechanical model was developed predict the thermal and mechanical responses of rectangular GFRP tubes subjected to one-side ISO-834 fire exposure in this paper. The 2-D governing heat transfer equations with thermal boundary conditions, discretized by alternating direction implicit (ADI) method, were solved by Gauss-Seidel iterative approach. Then the temperature-dependent mechanical responses were obtained by considering the elastic modulus degradation from glass transition and decomposition of resin. The temperatures of available experimental results can be reasonably predicted. This model can also be extended to simulate the thermo-mechanical responses of beams and columns subjected to multi-side fire loading, which may occur in real fire scenarios.

Published

2019