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Weibo Zhang,Ze Wang,Shuyong Jia,Yuying Tian,Guangjun Wang,Hongyan Li,Kjell Fuxe 사단법인약침학회 2017 Journal of Acupuncture & Meridian Studies Vol.10 No.1
Volume transmission is a new major communication signaling via extracellular fluid (interstitial fluid) pathways. It was proposed by the current authors that such pathways can explain the meridian phenomena and acupuncture effects. To investigate whether meridian-like structures exist in fish body and operate via volume transmission in extracellular fluid pathways, we injected alcian blue (AB) under anesthesia into Gephyrocharax melanocheir, which has a translucent body. The migration of AB could be seen directly and was recorded by a digital camera. The fish was then embedded and cut transversely to observe the position of tracks in three dimensions. Eight longitudinal threadlike blue tracks were recognized on the fish. The positions of these threadlike tracks were similar to meridians on the human body. Transverse sections showed that these tracks distributed to different layers of distinct subcutaneous loose connective tissues and intermuscular septa. Lymphatic vessels were sometimes associated with the extracellular blue tracks where the migration of AB occurred. Extracellular fluid pathways were found on fish through their transport of AB. These pathways operating via volume transmission appeared to be similar in positions and functions to the acupuncture meridians in Chinese medicine.
Effect of pre-stressed cable on pre-stressed mega-braced steel frame
Tang Baijian,Zhang Fuxing,Wang Yi,Wang Fei 국제구조공학회 2016 Structural Engineering and Mechanics, An Int'l Jou Vol.59 No.2
This study addresses the effect of pre-stressed cables on a pre-stressed mega-braced steel frame through employing static analysis and pushover analysis. The performances of a pre-stressed mega-braced steel frame and a pure steel frame without mega-braces are compared in terms of base shear, ductility, and failure mode. The influence of the cable parameters is also analyzed. Numerical results show that cable braces can effectively improve the lateral stiffness of a pure frame. However, it reduces structural ductility and degenerates structural pre-failure lateral stiffness greatly. Furthermore, it is found that 20% fluctuation in the cable pretension has little effect on structural ultimate bearing capacity and lateral stiffness. As comparison, 20% fluctuation in the cable diameter has much greater impact.
Enhanced-coupling-based Tracking Control of Double Pendulum Gantry Cranes
Huaitao Shi,Fuxing Yao,Zhe Yuan,Yunjian Hu,Ke Zhang,Ling Fu 제어·로봇·시스템학회 2022 International Journal of Control, Automation, and Vol.20 No.7
Gantry cranes are mostly regarded as single pendulum models to research. However, gantry cranes will produce a double pendulum effect during the actual operation when the hook mass or cable length between the load and hook cannot be ignored. Aiming at the problems of working inefficiency, poor positioning accuracy and violent hook/load swing during the lifting process of gantry cranes, an enhanced-coupling-based tracking control method is proposed. By referring to a smooth tracking trajectory, the proposed method ensures that the trolley runs steadily. And by combining with the passivity analysis of the gantry crane system, a coupling signal, which enhances the relationship between system variables, is constructed. The system stability is proved strictly by Barbarat theorem and Lyapunov method. Experiments and simulations are performed to demonstrate the feasibility of the proposed method. The final results reflect that the proposed method, which can not only ensure the precise positioning of the trolley, but also restrain and eliminate the system swings promptly, has excellent control performance. When the system parameters are changed or external disturbances are added, the proposed method can also obtain outstanding control performance and has excellent robustness. Not only does the proposed method provide an antiswing strategy for double pendulum underactuated gantry cranes, but also it provides a possibility for the research and development of the automatic driving of gantry cranes, which has great practical significance and application prospects.
Junhua Li,Daizhi Kuang,Yonglan Feng,Fuxing Zhang,Zhifeng Xu,Mengqin Liu 대한화학회 2012 Bulletin of the Korean Chemical Society Vol.33 No.8
A novel and convenient electrochemical method has been developed for sensitive determination of melamine (MEL) using ascorbic acid (AA) as the recognition element. The working electrode employed in this method was modified with the nanocomposite of hydroxyapatite/carbon nanotubes to enhance the current signal of recognition element. The interaction between MEL and AA was investigated by fourier transform infrared spectroscopy and cyclic voltammetry, and the experimental results indicated that hydrogen bonding was formed between MEL and AA. Because of the existing hydrogen bonding and electrostatic interaction, the anodic peak current of AA was decreased obviously while the non-electroactive MEL added in. It illustrated that the MEL acted as an inhibitor to the oxidation of AA and the decreasing signals can be used to detect MEL. Under the optimal conditions, the decrease in anodic peak current of AA was proportional to the MEL concentrations ranging from 10 to 350 nM, with a detection limit of 1.5 nM. Finally this newly-proposed method was successfully employed to detect MEL in infant formula and milk, and good recovery was achieved.
Li, Junhua,Kuang, Daizhi,Feng, Yonglan,Zhang, Fuxing,Xu, Zhifeng,Liu, Mengqin Korean Chemical Society 2012 Bulletin of the Korean Chemical Society Vol.33 No.8
A novel and convenient electrochemical method has been developed for sensitive determination of melamine (MEL) using ascorbic acid (AA) as the recognition element. The working electrode employed in this method was modified with the nanocomposite of hydroxyapatite/carbon nanotubes to enhance the current signal of recognition element. The interaction between MEL and AA was investigated by fourier transform infrared spectroscopy and cyclic voltammetry, and the experimental results indicated that hydrogen bonding was formed between MEL and AA. Because of the existing hydrogen bonding and electrostatic interaction, the anodic peak current of AA was decreased obviously while the non-electroactive MEL added in. It illustrated that the MEL acted as an inhibitor to the oxidation of AA and the decreasing signals can be used to detect MEL. Under the optimal conditions, the decrease in anodic peak current of AA was proportional to the MEL concentrations ranging from 10 to 350 nM, with a detection limit of 1.5 nM. Finally this newly-proposed method was successfully employed to detect MEL in infant formula and milk, and good recovery was achieved.
Wei Peng,Jie Liu,Wei Peng,Chenxu Li,Fuxing Zong,Wensi Xu,Xing Zhang 한국화학공학회 2018 Korean Journal of Chemical Engineering Vol.35 No.8
Heterogeneous catalysts with low cost, environmentally friendly, highly effective and ready separation from aqueous solution are highly desirable. Magnetic CuO-Fe3O4 nanoparticles, a type of non-toxic bimetallic transition metal oxide, is a promising heterogeneous catalyst for activation of peroxymonosulfate (PMS) to generate reactive oxygen species (ROS) that has not been previously investigated. In this study, the activation of PMS by CuO-Fe3O4 nanoparticles was evaluated using the degradation of 4-chlorophenol as a model reaction. Several critical factors such as pH, catalyst dosage and PMS concentration were investigated. CuO-Fe3O4/PMS system demonstrated a wide effective pH range to degrade 4-chlorophenol, namely 5.5 to 9.5. With the increase of the catalyst dosage, the degradation efficiency of 4-chlorophenol appeared to increase first and then decrease, that the inflection point was 0.5 g/L. Elevated PMS concentration obviously improved the decomposition of 4-chlorophenol; however, the plateau was reached when the PMS concentration was 8mM. Further increase in PMS concentration would not significantly improve the removal efficiency. Through examining the effects of scavengers and electron spin resonance (ESR) analyses, CuO-Fe3O4 nanoparticles were proven to activate PMS through a non-radical and radical pathway to generate singlet oxygen, sulfate radicals and hydroxyl radicals. Based on results, CuO-Fe3O4 nanoparticles were effective, environmentally friendly and low cost catalysts for efficient activation of PMS. These features make CuO-Fe3O4 nanoparticles a readily available heterogeneous catalyst to activate PMS for refractory organic pollutants degradation in advanced oxidation processes (AOPs).