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RISS 인기검색어
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- 저자 : Huai-Bing (검색결과 5 건)
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Active mass driver control system for suppressing wind-induced vibration of the Canton Tower
Huai-bing Xu,Jin-ping Ou,Chun-wei Zhang,Hui Li,Ping Tan,Fu-lin Zhou 국제구조공학회 2014 Smart Structures and Systems, An International Jou Vol.13 No.2
In order to suppress the wind-induced vibrations of the Canton Tower, a pair of active mass river (AMD) systems has been installed on the top of the main structure. The structural principal directions n which the bending modes of the structure are uncoupled are proposed and verified based on the rthogonal projection approach. For the vibration control design in the principal X direction, the simplified odel of the structure is developed based on the finite element model and modified according to the field measurements under wind excitations. The AMD system driven by permanent magnet synchronous linear otors are adopted. The dynamical models of the AMD subsystems are determined according to the pen-loop test results by using nonlinear least square fitting method. The continuous variable gain feedback VGF) control strategy is adopted to make the AMD system adaptive to the variation in the intensity of wind excitations. Finally, the field tests of free vibration control are carried out. The field test results of AMD control show that the damping ratio of the first vibration mode increases up to 11 times of the original value without control.
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Active mass driver control system for suppressing wind-induced vibration of the Canton Tower
Xu, Huai-Bing,Zhang, Chun-Wei,Li, Hui,Tan, Ping,Ou, Jin-Ping,Zhou, Fu-Lin Techno-Press 2014 Smart Structures and Systems, An International Jou Vol.13 No.2
In order to suppress the wind-induced vibrations of the Canton Tower, a pair of active mass driver (AMD) systems has been installed on the top of the main structure. The structural principal directions in which the bending modes of the structure are uncoupled are proposed and verified based on the orthogonal projection approach. For the vibration control design in the principal X direction, the simplified model of the structure is developed based on the finite element model and modified according to the field measurements under wind excitations. The AMD system driven by permanent magnet synchronous linear motors are adopted. The dynamical models of the AMD subsystems are determined according to the open-loop test results by using nonlinear least square fitting method. The continuous variable gain feedback (VGF) control strategy is adopted to make the AMD system adaptive to the variation in the intensity of wind excitations. Finally, the field tests of free vibration control are carried out. The field test results of AMD control show that the damping ratio of the first vibration mode increases up to 11 times of the original value without control.
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Exotic Geometrical and Electronic Properties in Hydrogenated Graphyne
Koo, Jahyun,Hwang, Ho Jun,Huang, Bing,Lee, Hunpyo,Lee, Hosik,Park, Minwoo,Kwon, Yongkyung,Wei, Su-Huai,Lee, Hoonkyung American Chemical Society 2013 JOURNAL OF PHYSICAL CHEMISTRY C - Vol.117 No.23
<P>On the basis of first-principles calculations, we present exotic geometrical and electronic properties in hydrogenated graphyne, a 2D material of sp–sp<SUP>2</SUP> hybrid carbon networks. Hydrogen atoms adsorbed onto sp-bonded carbon atoms can form both sp<SUP>2</SUP>- and sp<SUP>3</SUP>-hybridized bonds and can exist in three different geometries: in-plane, out-of-plane, and oblique-plane; this is in sharp contrast to hydrogenated graphene, which has only one hydrogenation geometry. The band gaps of hydrogenated graphyne can vary by ∼3 eV as the geometry changes. We also find that change in the hydrogen concentration allows a large band-gap tuning of ∼5 eV. Unlike hydrogenated graphene, in which H atoms show a tendency to cluster, H atoms tend to be dispersed in graphyne, making band-gap tuning feasible. These exotic properties in hydrogenated graphyne indicate that the band gap of hydrogenated graphyne can be tailored for new device applications. Furthermore, the composite of fully hydrogenated graphyne is C<SUB>1</SUB>H<SUB>1.75</SUB>, which has a hydrogen-to-carbon ratio greater than that of graphane (C<SUB>1</SUB>H<SUB>1</SUB>). This large hydrogen capacity (∼13 wt % H) suggests that graphyne also can be used as a high-capacity hydrogen storage material.</P><P><B>Graphic Abstract</B> <IMG SRC='http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jpccck/2013/jpccck.2013.117.issue-23/jp402286f/production/images/medium/jp-2013-02286f_0010.gif'></P>
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Expression and Functional Role of ALDH1 in Cervical Carcinoma Cells
Rao, Qun-Xian,Yao, Ting-Ting,Zhang, Bing-Zhong,Lin, Rong-Chun,Chen, Zhi-Liao,Zhou, Hui,Wang, Li-Juan,Lu, Huai-Wu,Chen, Qin,Di, Na,Lin, Zhong-Qiu Asian Pacific Journal of Cancer Prevention 2012 Asian Pacific journal of cancer prevention Vol.13 No.4
Tumor formation and growth is dictated by a very small number of tumor cells, called cancer stem cells, which are capable of self-renewal. The genesis of cancer stem cells and their resistance to conventional chemotherapy and radiotherapy via mechanisms such as multidrug resistance, quiescence, enhanced DNA repair abilities and anti-apoptotic mechanisms, make it imperative to develop methods to identify and use these cells as diagnostic or therapeutic targets. Aldehyde dehydrogenase 1 (ALDH1) is used as a cancer stem cell marker. In this study, we evaluated ALDH1 expression in CaSki, HeLa and SiHa cervical cancer cells using the Aldefluor method to isolate ALDH1-positive cells. We showed that higher ALDH1 expression correlated with significantly higher rates of cell proliferation, microsphere formation and migration. We also could demonstrate that SiHa-ALDH1-positive cells were significantly more tumorigenic compared to SiHa-ALDH1-negative cells. Similarly, SiHa cells overexpressing ALDH1 were significantly more tumorigenic and showed higher rates of cell proliferation and migration compared to SiHa cells where ALDH1 expression was knocked down using a lentivirus vector. Our data suggested that ALDH1 is a marker of cervical cancer stem cells and expand our understanding of its functional role.
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