Surface Treatments : FATIGUE PROPERTIES OF 40Cr - STEEL AFTER LASER OVERLAPPING IRRADIATION

Tao Gu,Qingkui Cai 대한금속재료학회 ( 구 대한금속학회 ) 1995 Advanced Material and Processing Vol.1 No.-

Research on No-Contact Hydraulic Dynamic Seal Characteristic based on CFD

Gu Jun-tao,Zhang Yong-de 보안공학연구지원센터 2013 International Journal of Smart Home Vol.7 No.6

Novel Method to Improve the Microstructure and Mechanical Properties of 45 Steel

Tao Gu,Shuaixin Zhang,Yuhong Zhao,Yurong Yang,Huafeng Liu,Li Wu,Jianhua Liu,Hua Hou 대한금속·재료학회 2022 METALS AND MATERIALS International Vol.28 No.4

Aiming at the problems of poor hardenability and low mechanical strength of 45 steel after quenching and tempering atnormal pressure, 45 steel was quenched and tempered under high pressure. The microstructure of 45 steel after high pressurequenching and tempering was analyzed by optical microscope, scanning electron microscope and transmission electronmicroscope, its hardness and compressive strength were tested by hardness tester and electronic universal testing machine,and compared with samples treated by the same process under atmospheric pressure. The results show that uniform andcompact tempered sorbite can be obtained after high pressure quenching and tempering of 45 steel, and the precipitatedgranular carbides are finely dispersed, thus improving the mechanical properties of 45 steel. Under a pressure of 3 GPa,quenching at 900 °C for 15 min and 550 °C for 60 min tempering, the hardness and compressive yield strength of 45 steelwere 36.3 HRC and 971 MPa, respectively, which were respectively 25.17% and 20.77% higher than the corresponding valuesobtained with the same process under atmospheric pressure quenching and tempering. This work provides a new method toeffectively improve the mechanical properties of 45 steel.

Effect of Mechanical Alloying and Sintering Behavior on the Microstructure and Properties of NbMoTaWRe Refractory High Entropy Alloy

Tao Gu,Li‑Min Wang,Qiang Hu,Xiu‑Bing Liang,Dong‑Xing Fu,Yong‑Xiong Chen,Xin‑Ming Zhao,Yan‑Wei Sheng 대한금속·재료학회 2022 METALS AND MATERIALS International Vol.28 No.11

An equiatomic refractory high-entropy alloy (RHEA) NbMoTaWRe is prepared by mechanical alloying (MA) and sparkplasma sintering (SPS). The effects of mechanical alloying and sintering behaviors on the microstructure and propertiesof the RHEA are investigated. After ball-milling for 30 h, the metastable and supersaturated MA powders with the bodycenteredcubic (BCC) structure are obtained. Then, the MA powders are sintered using the SPS method under the sinteringtemperature range of 1700–1900 °C, and the C atoms and WC introduced by the MA process reacts with the metastable andsupersaturated Ta/Nb phase of the MA powers to form the face-centered cubic (FCC) structure (Nb, Ta)C particles alongthe BCC matrix boundaries during the SPS process. The NbMoTaWRe alloy sintered at 1800 °C consisted of BCC matrixand FCC-type (Nb, Ta)C particles has high compactness (porosity fraction is 0.32%), fracture strength (2630 MPa), plasticstrain (6.82%), and hardness (992 ± 20 HV). These excellent properties of this RHEA are mainly attributed to the combinationof multi-effects, including sintering densification, grain refinement strengthening from the refined sizes (3.80 μm) BCCmatrix, precipitation strengthening from the (Nb, Ta)C particles, solid solution strengthening from multi-principal elementsand interstitial solid solution strengthening from C atoms dissolving into BCC matrix.

Pathway and Network Analysis in Glioma with the Partial Least Squares Method

Gu, Wen-Tao,Gu, Shi-Xin,Shou, Jia-Jun Asian Pacific Journal of Cancer Prevention 2014 Asian Pacific journal of cancer prevention Vol.15 No.7

Gene expression profiling facilitates the understanding of biological characteristics of gliomas. Previous studies mainly used regression/variance analysis without considering various background biological and environmental factors. The aim of this study was to investigate gene expression differences between grade III and IV gliomas through partial least squares (PLS) based analysis. The expression data set was from the Gene Expression Omnibus database. PLS based analysis was performed with the R statistical software. A total of 1,378 differentially expressed genes were identified. Survival analysis identified four pathways, including Prion diseases, colorectal cancer, CAMs, and PI3K-Akt signaling, which may be related with the prognosis of the patients. Network analysis identified two hub genes, ELAVL1 and FN1, which have been reported to be related with glioma previously. Our results provide new understanding of glioma pathogenesis and prognosis with the hope to offer theoretical support for future therapeutic studies.

Translation Teaching under the Background of Machine Translation

Gu Tao 한국외국어대학교 통번역연구소 2019 한국외국어대학교 통번역연구소 학술대회 Vol.2019 No.07

In recent years, the rapid development of computer technology and machine translation has pushed forward the advancement of translation and translation teaching. In fact, it is even said that the machine translation may take place of human in translation field. However, in the views of many experts, machine translation may be the trend of the future, but it will never replace the human translation, especially in the field of literary one. Although the running speed of computer has been and will be faster and faster, the establishment and operation of corpus really need a long time to finish. Nevertheless, machine translation can play its role in many occasions, particularly in technical translation and business translation. Thus, under this background, translation teaching should be largely reformed to meet the new challenge, including the teaching aim and design; the teaching process; as well as the requirement for teachers and students. First of all, the aim of the teaching should be adjusted. Traditionally, students have been required to be equipped with language competence, subject knowledge, and careful attitude generally. In the new era, things will be different. The changed purpose may the cultivation of the talent with complex ability who can both skillfully make use of translation software and have enough translation competence. Because of the fast emergence of various translation software, either teachers or students should keep up with the time in order to find and use the most suitable one for them. Second, to meet this need, the necessary courses of computer and machine translation should be added into current teaching curriculum. That is to say, no matter for teacher or for students, the mastery of relevant computer technique will be essential. To some degree, the students of science may have some strong points over the students of arts. As a result, the recruitment of some applicants with science background in high school may be more efficient. Next, with the subject knowledge and background information accessible in fingertips, the focus of basic knowledge cultivation should be shifted into how to get them instead of memorizing them, and into the setting of reasonable frame of knowledge. In addition, the critical thinking will be more and more important, which should also be trained in the process of translation learning and practice. Finally, given the future translation need of the market and society, different institutes also should make specific aims according to its own features.

Improving MapReduce Performance by Data Prefetching in Heterogeneous or Shared Environments

Tao Gu,Chuang Zuo,Qun Liao,Yulu Yang,Tao Li 보안공학연구지원센터(IJGDC) 2013 International Journal of Grid and Distributed Comp Vol.6 No.5

Development of stress-tolerant transgenic plants via RNA metabolism control

Hunseung Kang,Tao Xu,Lili Gu,Min Kyung Kim,Su Jung Park 한국육종학회 2013 한국육종학회 심포지엄 Vol.2013 No.07

Environmental stresses including drought, extreme temperatures, and high salinity are major factors that severely limit crop productivity worldwide. To overcome yield loss due to these environmental stresses, a large number of researches have been conducted to understand how plants respond to and adapt these environmental stresses. Posttranscriptional regulation as well as transcriptional regulation of gene expression is recognized as a key regulatory process in plant stress responses, and these cellular processes are regulated by diverse RNA-binding proteins (RBPs). Over the last years, we have extensively investigated the functional roles of RBPs that harbor an RNA-recognition motif at the N-terminal half and a glycine-rich region at the C-terminal half (glycine-rich RNA-binding proteins, GRPs), zinc finger-containing GRP, and cold shock domain proteins (CSDPs) in Arabidopsis thaliana, rice (Oryza sativa), wheat (Triticum aestivum), and rapeseed (Brasicca napus) under stress conditions. Our comparative analysis demonstrated that certain family members display RNA chaperone function during stress adaptation process in monocotyledonous plants as well as in dicotyledonous plants. These findings point to the importance of the regulation of mRNA metabolism in plant response to environmental stresses and shed new light on the practical application of these RBPs to develop stress-tolerant transgenic crops.

Preparation of Carbon Nanotubes/Polyurethane Hybrids as a Synergistic Absorbent for Efficient Oil/Water Separation

Tao Zhang,Bin Gu,Fengxian Qiu,Xiaoming Peng,Xuejie Yue,Dongya Yang 한국섬유공학회 2018 Fibers and polymers Vol.19 No.10

Polyurethane (PU) hybrid materials have attracted a great deal of attention as oil-absorbents in oil/water separation because they combine the surface properties of nanomaterials and the excellent absorption properties of PU. Herein, we report a facile two-step process to synthesize the oil-absorbing hybrid materials by integrating carbon nanotubes (CNTs) into porous PU foam architectures. First, the multi-walled carbon nanotubes (MWCNTs) were modified by oxidation in binary H2SO4-HNO3 mixed acid, followed by grafting the silane coupling agent (KH 570) on the on surfaces of MWCNTs. Then, the MWCNTs/PU hybrid materials were synthesized using isocyanate and polyether polyol as monomers for polymerization and surface modified MWCNTs as inorganic components. The physical and chemical properties of hybrid materials were validated by XRD, TEM, SEM, N2 sorption and contact angle analysis. The surface grafted MWCNTs possess superhydrophobic properties with the maximum water contact angle of 153 o. The SEM results indicate that the WCNTs/PU hybrid materials consisted of spherical structures with microscale holes, which can separate oils from oil/water mixtures with high absorption properties and high selectivity. Effects of the various MWCNTs contents on the oil absorption behavior of the WCNTs/PU hybrid materials were investigated. The results show that the modified MWCNTs significantly improves the oil absorption properties with the optimal MWCNTs content of 3 %. By combining the structural features of WCNTs and PU foams, the hybrid materials not only exhibit excellent absorption properties for various types of oils and organic solvents, but also show excellent oil recoverability and absorbent regenerability. The as-synthesized WCNTs/PU hybrid have significant potential as oil absorbents for efficient separation of oils and organic solvents from water.

Behavior of Steel-concrete Composite Cantilever Beams with Web Openings under Negative Moment

Tao Chen,Xianglin Gu,Hua Li 한국강구조학회 2011 International Journal of Steel Structures Vol.11 No.1

The effect of web openings on the mechanical behavior of composite beams under negative moment was studied through monotonically loading tests. Nonlinear finite element method based analysis was also conducted for cantilever composite beams. The test and the finite element analysis results indicated that the initial cracking loads of composite beams with web opening are lower than that without web opening. The first crack initiated from the concrete slab on the top of the opening. The beams with web opening failed due to shear failure of concrete slab upon the opening. It was also found that the load carrying capacity of beam decreases with the increase of the moment-to-shear ratio at the central line of the opening and the mechanical behavior of beam can be improved significantly by applying stiffening steel plates around the opening. To quantify the reduction of load carrying capacity, a method for calculating the load carrying capacity of beams with web openings under negative moment was derived with consideration of the interaction between moment and shear. Good consistency was obtained between the proposed method, the finite element method and the test results.