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Numerical Simulation of TWo Different Flexible Bodies Immersed in Moving Flow
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作者 王思莹 黄明海 尹协振 《Chinese Physics Letters》 SCIE CAS CSCD 2015年第8期98-101,共4页
The coupled motion of two flexible bodies with different lengths immersed in moving fluid is studied numerically. The flapping frequency, flapping amplitude and average drag coefficient of each body are calculated and... The coupled motion of two flexible bodies with different lengths immersed in moving fluid is studied numerically. The flapping frequency, flapping amplitude and average drag coefficient of each body are calculated and the influences of the arranging manner and separation distance are analyzed. In our simulation, when placed in the flow individually, the flexible body with a longer length will flap in period and the shorter one will maintain still straightly in the flow direction. The numerical results show that, two different flexible structures near placed in moving flow would strongly interact. When they are placed side by side, the existence of the stable shorter flexible body will restrain the flapping of the longer one while the existence of the longer flexible body may also induce the shorter one to flap synchronously. When placed in tandem with the shorter flexible body in upstream, the flapping of the longer one in downstream will be obviously enhanced. In the situation for the longer flexible body placed in upstream of the shorter one, the coupled flapping amplitude and average drag coefficients increase and decrease periodically with increasing the arranging space, and peak values appear as a result of the mediate of the tail wakes. 展开更多
关键词 flexible In Numerical simulation of TWo Different flexible Bodies Immersed in Moving Flow
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Research on characteristics of water motion and influencing factors for the flexible air chamber jig body 被引量:1
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作者 Chen Yinghua Kuang Yali Li Haisheng 《International Journal of Mining Science and Technology》 SCIE EI CSCD 2015年第3期389-394,共6页
The air bag deformation data were obtained by high-speed dynamic videos experiments. Based on gas–liquid flow VOF model, dynamic mesh technique and deformation data, numerical simulations for different structure mode... The air bag deformation data were obtained by high-speed dynamic videos experiments. Based on gas–liquid flow VOF model, dynamic mesh technique and deformation data, numerical simulations for different structure models were achieved, and the law of water motion and influencing factors were analyzed.The results show that the flow in the length direction of the jig is smooth, and second pulsation appears in the separation time and forms the secondary separation. The installation position of screen and the number of air bags have a great influence on the uniformity of flow and velocity. The screen height cannot be too low to avoid forming the unstable flow. At the same time, the screen height cannot be too high, otherwise water velocity will be too small and was unable to provide enough power. At the height of 1.4m,velocity unevenness is minimum and the best uniform flow can be obtained. Compared with double air bags, there are the following features of single air bag: water flow is not smooth, the time achieving the maximum velocity is too long, maximum velocity is smaller, and overall effect is worse than double air bags. 展开更多
关键词 flexible air chamber jig Water motion Numerical simulation Screen location Number of air bags
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Development of a Flexible Multibody Model to Simulate Nonlinear Effects in Printing Process 被引量:1
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作者 Martin Eckl Thomas Lepper Berend Denkena 《Modern Mechanical Engineering》 2016年第1期10-19,共10页
Modern high speed printing machines are able to print up to 700 m/min. At this rate, little excita-tions lead to vibrations, which may lead to loss of contact between the rollers (bouncing). This bouncing results in w... Modern high speed printing machines are able to print up to 700 m/min. At this rate, little excita-tions lead to vibrations, which may lead to loss of contact between the rollers (bouncing). This bouncing results in white stripes, being visible on the printed image. To enable the simulation of the whole printing process, including effects like bouncing, a discrete multibody model is developed. The rollers are modeled by several rigid bodies. These bodies are connected to each other by rotational springs, which allow simulation of the first bending eigenmodes of each roller. The contact area between the rollers is modeled by several nonlinear translational springs and damping elements. These elements change their stiffness and damping values depending on the distance between the rollers. If a defined distance is exceeded, the values become zero, which represents the loss of contact (bouncing). The unknown spring and damping elements of this model are parametrized with help of an experimental modal analysis. This paper presents the development of a flexible multibody model to simulate nonlinear effects in printing process. 展开更多
关键词 flexible Multi Body simulation Flexographic Printing
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Proficiency of virtual reality simulator training in flexible retrograde ureteroscopy renal stone management 被引量:2
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作者 Cai Jian-liang Zhang Yi +3 位作者 Sun Guo-feng Li Ning-chen Yuan Xue-li Na Yan-qun 《Chinese Medical Journal》 SCIE CAS CSCD 2013年第20期3940-3943,共4页
Background Minimally invasive flexible ureteroscopy techniques have widely adopted in the management of patients with renal stones. We performed this study to investigate the value of virtual reality simulator trainin... Background Minimally invasive flexible ureteroscopy techniques have widely adopted in the management of patients with renal stones. We performed this study to investigate the value of virtual reality simulator training in retrograde flexible ureteroscopy renal stone treatment for catechumen. 展开更多
关键词 virtual reality simulator flexible ureteroscopy renal stone lithotripsy training
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