期刊文献+
共找到5篇文章
< 1 >
每页显示 20 50 100
A fibroma hindering the neck bending mechanism in a tortoise(class Reptilia,subclass Anapsida,order Testudines)(Chelonia)
1
作者 Mohamed Mostafa Shokry Ibrahim Mohamed Ibrahim 《Journal of Coastal Life Medicine》 2016年第3期251-252,共2页
A 7-year old tortoise was examined for the presence of a hard swelling,hindering the necessary neck bending mechanism.Surgical removal was the solution to regain the mechanism normality.
关键词 TORTOISE Carapace Neck bending mechanism
原文传递
Electronic band energy of a bent ZnO piezoelectric semiconductor nanowire 被引量:4
2
作者 Wanli YANG Yuantai HU E.N.PAN 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI CSCD 2020年第6期833-844,共12页
The electric band energy variation in a bent piezoelectric semiconductor(PSC) nanowire of circular cross-section induced by the mechanical force is analyzed based on a six-band k · p method. The electric-mechanic... The electric band energy variation in a bent piezoelectric semiconductor(PSC) nanowire of circular cross-section induced by the mechanical force is analyzed based on a six-band k · p method. The electric-mechanical fields are first obtained analytically in a cantilever bent PSC nanowire by solving the fully-coupled electro-mechanical equations. Then, the band energy is acquired numerically via the six-band Hamiltonian.By considering further the nonlinear coupling between the piezoelectric and semiconducting quantities, the contribution of the redistribution carriers to the electric field is analyzed from the Gauss’ s law. Numerical examples are carried out for an n-type Zn O nanowire in different locations induced by an applied concentrated end force. They include the electric potential, heavy hole(HH), light hole(LH), spin-orbit split-off(SO),and conduction band(CB) edges along the axial and thickness directions. Our results show that the applied force has a significant effect on the band energies. For instance, on the bottom surface along the axial direction, the bandgaps near the fixed end are greater than those near the loading end, and this trend is reversed on the top surface. Moreover,at a fixed axial location, the energy level of the lower side can be enhanced by applying a bending force at the end. The present results could be of significant guidance to the electronic devices and piezotronics. 展开更多
关键词 piezoelectric semiconductor(PSC) mechanical bending energy band ZNO
下载PDF
The Formula of Dependence of Mechanical Characteristics of Materials on Crystalline Phase Composition in the Matrix 被引量:1
3
作者 Z. Kovziridze 《Advances in Materials Physics and Chemistry》 2020年第8期178-188,共11页
<strong>Objective:</strong> For materials science and generally, for long-term operation of work-pieces in industry the significant role is attributed to dependence of macro-mechanical properties of consol... <strong>Objective:</strong> For materials science and generally, for long-term operation of work-pieces in industry the significant role is attributed to dependence of macro-mechanical properties of consolidated body on crystalline phase composition, its dimensions, form, distribution in matrix and the form factor. While working in responsible fields of technology of ceramics and ceramic composites the above referred properties are attributed extremely great role with the view of durability and endurance at the terms of heavy mechanical loads. For description of the resistance of any concrete type work-piece, the crystalline phase plays the greatest role in mechanical strength or deformation of any material. It plays the important role in correlative explanation of materials mechanics and matrix properties. In our case, in the process of destruction of ceramic materials and composites, which will give us exhaustive response to the role of macro- and micro-mechanical properties of materials, the role of a macro- and micro-structural component, that is, of crystalline phase in the process of transition of stable state of materials into meta-stable state is extremely big. Our study aims to develop a formula of dependence of macro-mechanical properties of ceramic and ceramic composites on crystalline phase, the most powerful component of their structure, which will enable theorists and practitioners to select and develop technologies and technological processes correctly. <strong>Method:</strong> On the basis of the study of micro- and macro-mechanical properties of ceramics and ceramic composites and the morphology of crystalline phase and the analysis of the study we determined and created parameters of the formula. <strong>Results:</strong> The formula covers macro-mechanical properties, that is when the work-piece is thoroughly destructed: mechanic at bending at three and four-point load, mechanic at contraction;among morphological characteristics: composition of crystalline phase and their spreading in matrix, their sizes, form factor;correlative dependence of the above listed properties. Absolutely new definition of a factor of spreading of crystalline phase in matrix is offered. <strong>Conclusion: </strong>The created formula is of consolidated nature and it can be used in technology of any ceramic material and ceramic composites. The formula will help practitioners to plan correctly and fulfill accurately all positions of technology of production of work-pieces, to carry out the most responsible thermal treatment process of technology of manufacture of work-pieces;to determine correlation between mechanical and matrix properties of materials. 展开更多
关键词 Crystalline Phase Macro-Mechanical Properties Mechanic at bending Mechanic at Compaction Factor of Spreading of Crystalline Phase in Matrix
下载PDF
Utility of TPP-manufactured biophysical restrictions to probe multiscale cellular dynamics
4
作者 Panyu Fei Haibo Ding +7 位作者 Yu Duan Xinyi Wang Wei Hu Peng Wu Mengxiao Wei Zhengchun Peng Zhongze Gu Wei Chen 《Bio-Design and Manufacturing》 SCIE EI CSCD 2021年第4期776-789,共14页
Biophysical restrictions regulate protein diffusion,nucleus deformation,and cell migration,which are all universal and important processes for cells to perform their biological functions.However,current technologies a... Biophysical restrictions regulate protein diffusion,nucleus deformation,and cell migration,which are all universal and important processes for cells to perform their biological functions.However,current technologies addressing these multiscale questions are extremely limited.Herein,through two-photon polymerization(TPP),we present the precise,low-cost,and multiscale microstructures(micro-fences)as a versatile investigating platform.With nanometer-scale printing resolution and multiscale scanning capacity,TPP is capable of generating micro-fences with sizes of 0.5-1000μm.These micro-fences are utilized as biophysical restrictions to determine the fluidity of supported lipid bilayers(SLB),to investigate the restricted diffusion of Src family kinase protein Lck on SLB,and also to reveal the mechanical bending of cell nucleus and T cell climbing ability.Taken together,the proposed versatile and low-cost micro-fences have great potential in probing the restricted dynamics of molecules,organelles,and cells to understand the basics of physical biology. 展开更多
关键词 Micro-fence Multiscale Protein diffusion Nucleus mechanical bending Cell-climbing ability
下载PDF
Soft curvature sensors for measuring the rotational angles of mechanical fingers
5
作者 Haixiao LIU Li LI +1 位作者 Zhikang OUYANG Wei SUN 《Frontiers of Mechanical Engineering》 SCIE CSCD 2020年第4期610-621,共12页
The design, fabrication, and testing of soft sensors that measure elastomer curvature and mechanical finger bending are described in this study. The base of the soft sensors is polydimethylsiloxane (PDMS), which is a ... The design, fabrication, and testing of soft sensors that measure elastomer curvature and mechanical finger bending are described in this study. The base of the soft sensors is polydimethylsiloxane (PDMS), which is a translucent elastomer. The main body of the soft sensors consists of three layers of silicone rubber plate, and the sensing element is a microchannel filled with gallium-indium-tin (Ga-In-Sn) alloy, which is embedded in the elastomer. First, the working principle of soft sensors is investigated, and their structure is designed. Second, the relationship between curvature and resistance is determined. Third, several sensors with different specifications are built in accordance with the structural design. Experiments show that the sensors exhibit high accuracy when the curvature changes within a certain range. Lastly, the soft sensors are applied to the measurement of mechanical finger bending. Experiments show that soft curvature sensors can effectively reflect mechanical finger bending and can be used to measure the bending of mechanical fingers with high sensitivity within a certain working range. 展开更多
关键词 soft sensor Ga-In-Sn alloy strain sensing curvature sensing mechanical finger bending
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部