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人体膝关节动态有限元模型及其在TKR中的应用 被引量:23
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作者 王建平 吴海山 王成焘 《医用生物力学》 EI CAS CSCD 2009年第5期333-337,342,共6页
目的研究膝关节高屈曲活动下运动和应力等的动态特征。为膝关节生物摩擦学研究提供相对运动和应力分布等生物力学数据。方法建立包括人体主要骨与软组织的全膝关节置换前后的膝关节的动态有限元模型,对天然及全膝置换后膝关节下蹲运动... 目的研究膝关节高屈曲活动下运动和应力等的动态特征。为膝关节生物摩擦学研究提供相对运动和应力分布等生物力学数据。方法建立包括人体主要骨与软组织的全膝关节置换前后的膝关节的动态有限元模型,对天然及全膝置换后膝关节下蹲运动和接触应力分布进行分析,并与相应的尸体实验的结果进行验证分析。结果通过有限元分析,获得高屈曲膝关节的三维相对运动参数,胫股关节和髌股关节的接触位置和应力等动态力学参数。有限元分析结果表明,分别在膝关节过伸和高屈曲时,在胫骨高分子聚乙烯平台的胫骨平台轮柱和平台前部的交界处、胫骨平台内后方和轮柱后部3个区域发生较高的接触应力。这些也正是假体发生较高磨损率的区域。结论所建立的有限元模型能够对于膝关节下蹲动作的运动、接触等力学行为进行评估,为临床膝关节全膝置换术、膝关节假体的摩擦学研究及其膝关节假体设计提供有力的分析工具。 展开更多
关键词 膝关节 动态有限元模型 膝关节假体 相对运动 接触应力
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超磁致伸缩执行器的三维非线性动态有限元模型 被引量:5
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作者 赵章荣 邬义杰 +2 位作者 顾新建 徐君 葛荣杰 《浙江大学学报(工学版)》 EI CAS CSCD 北大核心 2008年第2期203-208,共6页
超磁致伸缩执行器工作时超磁致伸缩材料的磁导率会随着应力变化而变化,并存在磁滞损失和涡流损失等非线性问题,同时磁场、电场、温度场及机械应力场之间存在耦合.建立了超磁致伸缩执行器电场、磁场和机械应力场3场耦合的三维非线性动态... 超磁致伸缩执行器工作时超磁致伸缩材料的磁导率会随着应力变化而变化,并存在磁滞损失和涡流损失等非线性问题,同时磁场、电场、温度场及机械应力场之间存在耦合.建立了超磁致伸缩执行器电场、磁场和机械应力场3场耦合的三维非线性动态有限元模型,考虑了超磁致伸缩执行器Terfenol-D棒质量、预压应力、偏置磁场、磁滞和涡流损失.使用Jile-Autherton磁化模型计算磁滞损失,在商业有限元软件FEMLAB中实现了有限元模型.模型仿真结果和实验结果相一致,验证了所建立模型的正确性. 展开更多
关键词 超磁致伸缩执行器 涡流 磁滞损失 三维非线性 动态有限元模型 FEMLAB
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超磁致伸缩执行器全耦合非线性动态有限元模型 被引量:6
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作者 赵章荣 隋晓梅 +1 位作者 邬义杰 张雷 《农业机械学报》 EI CAS CSCD 北大核心 2008年第3期123-126,共4页
超磁致伸缩执行器在高频率下工作时,能量损失不仅包括磁滞损失、Terfenol-D棒涡流损失,还包括执行器导磁回路的附加涡流损失,同时执行器上存在磁场、电场、温度场及机械应力场四场之间的耦合。本文考虑超磁致伸缩执行器Terfenol-D棒质... 超磁致伸缩执行器在高频率下工作时,能量损失不仅包括磁滞损失、Terfenol-D棒涡流损失,还包括执行器导磁回路的附加涡流损失,同时执行器上存在磁场、电场、温度场及机械应力场四场之间的耦合。本文考虑超磁致伸缩执行器Terfenol-D棒质量、预压应力、偏置磁场、磁滞和涡流损失,从电场、磁场和机械应力场三场耦合角度,建立超磁致伸缩执行器三维非线性动态有限元模型。超磁致伸缩材料磁滞特性由Berqvist和Engdahl磁滞模型来描述。应用FEMLAB建模分析并与实验结果对比,发现模型与实验结果吻合较好,验证了所建立三维动态FEM模型的正确性。 展开更多
关键词 超磁致伸缩执行器 涡流 磁滞损失 动态有限元模型 耦合
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正常膝关节和人工膝关节髌股关节高屈曲运动特性及其比较分析 被引量:5
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作者 王建平 符龙 +3 位作者 张雁儒 梁军 张盼盼 王猛 《中国临床解剖学杂志》 CSCD 北大核心 2016年第4期432-438,共7页
目的分析人体正常膝关节和人工膝关节高屈曲活动下髌股关节的运动,为膝关节髌股关节运动特性研究提供参考。方法建立包括膝关节骨组织和主要软组织在内的正常膝关节以及人工膝关节的动态有限元模型,采用三束股四头肌肌力非同步变力加载... 目的分析人体正常膝关节和人工膝关节高屈曲活动下髌股关节的运动,为膝关节髌股关节运动特性研究提供参考。方法建立包括膝关节骨组织和主要软组织在内的正常膝关节以及人工膝关节的动态有限元模型,采用三束股四头肌肌力非同步变力加载的方式,对膝关节下蹲运动中髌股关节的运动特性进行研究,并与相关研究结果进行对比分析。结果通过有限元分析,获得高屈曲膝关节三维运动的相对运动参数。髌股关节在位移和旋转均呈现出相同的运动趋势,同时,存在局部的差异,在低屈曲时,人工髌股关节表现出先外倾后内倾的运动趋势,而正常髌股关节表现出持续内倾的运动特性。结论通过仿真和对比分析,人体髌股关节的运动数据总体趋势近似,同时存在差异。对于正常膝关节,差异的原因主要在于髌骨运动各个方向上和不同屈曲度时的约束程度的改变;对于人工膝关节,差异主要来源于膝关节型面和结构的改变,以及坐标系定义、在体和离体差异、负荷加载差异。 展开更多
关键词 髌股关节 动态有限元模型 非同步变力加载 相对运动 对比分析
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人工膝关节的生物摩擦学特点 被引量:5
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作者 赵艳 王禹 《中国组织工程研究与临床康复》 CAS CSCD 北大核心 2010年第22期4090-4092,共3页
目的:探讨膝关节屈曲活动时的动态特征,为人工膝关节生物摩擦学的研究提供相对运动和应力分布等生物力学数据。方法:由第一作者采用电子检索的方式,在中国期刊全文数据库(CNKI:1994/2009)中检索有关人工膝关节运动及摩擦的文献,检索词为... 目的:探讨膝关节屈曲活动时的动态特征,为人工膝关节生物摩擦学的研究提供相对运动和应力分布等生物力学数据。方法:由第一作者采用电子检索的方式,在中国期刊全文数据库(CNKI:1994/2009)中检索有关人工膝关节运动及摩擦的文献,检索词为"膝关节假体,生物力学,磨损颗粒,仿生滑液"。排除较陈旧的文章及重复性研究,共检索到符合标准的文献22篇。结果:建立包括人体主要骨与软组织的全膝关节置换前后的膝关节的动态有限模型,通过有限元分析,获得与屈曲膝关节的三维相对运动参数,胫骨关节和髋股关节的接触位置和应力等动态力学参数。结论:人工膝关节磨损性能受到较多因素的影响,多数学者在研究这些因素时以单因素研究为主,对多因素研究较少而且研究主要集中于对实验结果的描述,很少有对关节运动及磨损机制进行深入研究的报道。对人工膝关节运动及摩擦性能的研究需要把运动学和力学与磨损状态结合起来,共同期待今后进行磨损状况的预测。 展开更多
关键词 膝关节 动态有限元模型 膝关节假体 生物力学 磨损颗粒 仿生滑液
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混沌性或噪声信号引起的确定性响应 被引量:1
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作者 郑文衡 陈湘鹏 王乘 《华中科技大学学报(自然科学版)》 EI CAS CSCD 北大核心 2001年第11期70-72,共3页
利用均匀介质构成一个具有波的遍历特性的系统 ,初步探讨了随机信号的激励行为 ,研究表明 ,带有某种随机性的输入信号 ,同样能产生确定性的脉冲输出 .
关键词 非线性动力学 遍历特性 时间逆转效应 确定性响应 动态有限元计算模型 地震波 混沌信号
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弹丸侵彻闭孔泡沫铝冲击波形数值模拟 被引量:5
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作者 汤俊 葛建立 +2 位作者 闫彬 杨国来 李振 《南京理工大学学报》 EI CAS CSCD 北大核心 2016年第3期328-333,共6页
为分析弹丸结构参数及闭孔泡沫铝材料参数对冲击加速度响应的影响,建立了弹丸侵彻闭孔泡沫铝试验装置的动态非线性有限元模型。利用LS-DYNA软件模拟了弹丸冲击侵彻闭孔泡沫铝的波形发生过程。通过数值计算研究参数对冲击响应的影响,特... 为分析弹丸结构参数及闭孔泡沫铝材料参数对冲击加速度响应的影响,建立了弹丸侵彻闭孔泡沫铝试验装置的动态非线性有限元模型。利用LS-DYNA软件模拟了弹丸冲击侵彻闭孔泡沫铝的波形发生过程。通过数值计算研究参数对冲击响应的影响,特别是对冲击过程中弹丸加速度峰值、脉宽及加速度波形的影响。研究发现,使用锥形头弹丸可获得较为平整的加速度波形;降低泡沫铝孔隙率、减小厚度、减小弹丸质量均会引起弹丸冲击加速度峰值的增大与冲击脉宽的减小;增大弹丸初速可提高冲击加速度峰值与脉宽。 展开更多
关键词 弹丸 闭孔泡沫铝 冲击波形 动态非线性有限元模型 峰值 脉宽 孔隙率 弹丸质量
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FEM modeling for 3D dynamic analysis of deep-ocean mining pipeline and its experimental verification 被引量:5
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作者 王刚 刘少军 李力 《Journal of Central South University of Technology》 EI 2007年第6期808-813,共6页
3D dynamic analysis models of 1000 m deep-ocean mining pipeline, including steel lift pipe, pump, buffer and flexible hose, were established by finite element method (FEM). The coupling effect of steel lift pipe and f... 3D dynamic analysis models of 1000 m deep-ocean mining pipeline, including steel lift pipe, pump, buffer and flexible hose, were established by finite element method (FEM). The coupling effect of steel lift pipe and flexible hose, and main external loads of pipeline were considered in the models, such as gravity, buoyancy, hydrodynamic forces, internal and external fluid pressures, concentrated suspension buoyancy on the flexible hose, torsional moment and axial force induced by pump working. Some relevant FEM models and solution techniques were developed, according to various 3D transient behaviors of integrated deep-ocean mining pipeline, including towing motions of track-keeping operation and launch process of pipeline. Meanwhile, an experimental verification system in towing water tank that had similar characteristics of designed mining pipeline was developed to verify the accuracy of the FEM models and dynamic simulation. The experiment results show that the experimental records and simulation results of stress of pipe are coincided. Based on the further simulations of 1 000 m deep-ocean mining pipeline, the simulation results show that, to form configuration of a saddle shape, the total concentrated suspension buoyancy of flexible hose should be 95%?105% of the gravity of flexible hose in water, the first suspension point occupies 1/3 of the total buoyancy, and the second suspension point occupies 2/3 of the total buoyancy. When towing velocity of mining system is less than 0.5 m/s, the towing track of buffer is coincided with the setting route of ship on the whole and the configuration of flexible hose is also kept well. 展开更多
关键词 deep-ocean mining pipeline modeling dynamic analysis finite element method
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Nonlinear finite element analysis of effect of seismic waves on dynamic response of Shiziping dam 被引量:7
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作者 DING Xuan-ming LIU Han-long +1 位作者 YU Tao KONG Gang-qiang 《Journal of Central South University》 SCIE EI CAS 2013年第8期2323-2332,共10页
Many high earth-rockfill dams are constructed in the west of China. The seismic intensity at the dam site is usually very high, thus it is of great importance to ensure the safety of the dam in meizoseismal area. A 3D... Many high earth-rockfill dams are constructed in the west of China. The seismic intensity at the dam site is usually very high, thus it is of great importance to ensure the safety of the dam in meizoseismal area. A 3D FEM model is established to analyze the seismic responses of Shiziping earth-rockfill dam. The nonlinear elastic Duncan-Chang constitutive model and the equivalent viscoelastic constitutive model are used to simulate the static and dynamic stress strain relationships of the dam materials, respectively. Four groups of seismic waves are inputted from the top of the bedrock to analyze the dynamic responses of the dam. The numerical results show that the calculated dynamic magnification factors display a good consistency with the specification values. The site spectrum results in larger acceleration response than the specification spectrum. The analysis of relative dynamic displacement indicates that the displacement at the downstream side of the dam is larger than that at the upstream side. The displacement response reduces from the center of river valley to two banks. The displacement responses corresponding to the specification spectrum are a little smaller than those corresponding to the site spectrum. The analysis of shear stress indicates that a large shear stress area appears in the upstream overburden layer, where the shear stress caused by site waves is larger than that caused by specification waves. The analysis of dynamic principal stress indicates that the minimum dynamic stresses in corridor caused by specification and site waves have little difference. The maximum and minimum dynamic stresses are relatively large at two sides. The largest tensile stress occurs at two sides of the floor of grouting corridor, which may result in the crack near the corridor side. The numerical results present good consistency with the observation data of the grouting corridor in Wenchuan earthquake. 展开更多
关键词 finite element method earth-rockfill dam dynamic response acceleration response seismic wave
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Investigation on the Cause of Excessive Vibration of an Offshore Platform
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作者 嵇春艳 《High Technology Letters》 EI CAS 2003年第2期37-43,共7页
An offshore platform of jacket type in Bohai Bay vibrated excessively under design environmental conditions, which had affected the normal operation of the platform. In order to mitigate the vibration of the platform,... An offshore platform of jacket type in Bohai Bay vibrated excessively under design environmental conditions, which had affected the normal operation of the platform. In order to mitigate the vibration of the platform, it is essentially important to explore the cause of the vibration. So the objective of this study is to investigate the cause of the excessive vibration. In this paper, dynamic characteristics of the offshore platform is analyzed by numerical simulation using finite element (FE) modeling. For further verifying the numerical results, model experiment is conducted. Numerical and experimental results demonstrate that there is relative movement and impact between the piles and the jacket, i.e. the piles and the jacket didnt connect well to an entity. It is this cause that the stiffness of the platform decreases and the impact between piles and the jacket legs induces excessive vibration. And also the grouting measure is advised to reduce the vibration of the offshore platform according to the analysis results. 展开更多
关键词 dynamic analysis offshore platform physical model wave loading FE modeling
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Ground-borne vibrations due to dynamic loadings from moving trains in subway tunnels 被引量:12
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作者 Xue-cheng BIAN Wan-feng JIN Hong-guang JIANG 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2012年第11期870-876,共7页
In this study,ground vibrations due to dynamic loadings from trains moving in subway tunnels were investigated using a 2.5D finite element model of an underground tunnel and surrounding soil interactions.In our model,... In this study,ground vibrations due to dynamic loadings from trains moving in subway tunnels were investigated using a 2.5D finite element model of an underground tunnel and surrounding soil interactions.In our model,wave propagation in the infinitely extended ground is dealt with using a simple,yet efficient gradually damped artificial boundary.Based on the assumption of invariant geometry and material distribution in the tunnel's direction,the Fourier transform of the spatial dimension in this direction is applied to represent the waves in terms of the wave-number.Finite element discretization is employed in the cross-section perpendicular to the tunnel direction and the governing equations are solved for every discrete wave-number.The 3D ground responses are calculated from the wave-number expansion by employing the inverse Fourier transform.The accuracy of the proposed analysis method is verified by a semi-analytical solution of a rectangular load moving inside a soil stratum.A case study of subway train induced ground vibration is presented and the dependency of wave attenuation at the ground surface on the vibration frequency of the moving load is discussed. 展开更多
关键词 Subway tunnel Moving train loadings Ground-borne vibration 2.5D finite element Gradually damped artificial boundary
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Experimental and Stowing/Deploying Dynamical Simulation of Lenticular Carbon Fiber Reinforced Polymer Thin-Walled Tubular Space Boom 被引量:2
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作者 李瑞雄 陈务军 付功义 《Journal of Shanghai Jiaotong university(Science)》 EI 2012年第1期58-64,共7页
The stowing and deploying experiment was conducted for three 700 mm long thin-walled tubes,and the structural behavior characteristics parameters were measured clearly,including strain,deformation and wrapping moment.... The stowing and deploying experiment was conducted for three 700 mm long thin-walled tubes,and the structural behavior characteristics parameters were measured clearly,including strain,deformation and wrapping moment.3D finite element models(FEM)were built subsequently and explicit dynamic method was used to simulate the stowing and deploying of the lenticular carbon fiber reinforced polymer(CFRP)thin-walled tubular space boom,which was designed as four-ply(45°/-45°/45°/-45°)lay-up.The stress and energy during the wrapping process were got and compared with different wrapping angular velocity,the reasonable wrapping angular velocity and effective method were conformed,and structural behavior characteristics were obtained.The results were compared and discussed as well,and the results show that the numerical results by 0.628 rad/s velocity agree well with the measured values.In this paper,the numerical procedure and experimental results are valuable to the optimization design of CFRP thin-walled tubular space boom and future research. 展开更多
关键词 lenticular carbon fiber reinforced polymer thin-walled tube space boom explicit method stowing and deploying wrapping moment
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Rigid-Flex Coupling Modeling and Simulation on Multistage Gear Transmission System
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作者 周杰 贾云献 +2 位作者 刘鑫 方彬 侠文强 《Journal of Shanghai Jiaotong university(Science)》 EI 2016年第4期457-461,共5页
As multistage gear transmission systems are complex and precise, the flexibility of shaft can influence the dynamic response of system. In order to study dynamic response of the system, we build the rigid model of gea... As multistage gear transmission systems are complex and precise, the flexibility of shaft can influence the dynamic response of system. In order to study dynamic response of the system, we build the rigid model of gear system and the finite element model of the gear shaft. virtual prototype technology, and a contrast between rigid The rigid-flex coupling model is established with the model and rigid-flex coupling model is constructed. With these methods, the dynamic responses with different rotation speeds and different loading magnitudes are examined. We also analyze the influence of shaft flexibility, rotation speeds and loading magnitudes on the vibration characteristics of gear transmission systems. 展开更多
关键词 gear transmission system virtual prototype flexible body
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