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Molecular dynamics simulation on mechanical property of carbon nanotube torsional deformation 被引量:2
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作者 陈明君 梁迎春 +1 位作者 李洪珠 李旦 《Chinese Physics B》 SCIE EI CAS CSCD 2006年第11期2676-2681,共6页
In this paper torsional deformation of the carbon nanotubes is simulated by molecular dynamics method. The Brenner potential is used to set up the simulation system. Simulation results show that the carbon nanotubes c... In this paper torsional deformation of the carbon nanotubes is simulated by molecular dynamics method. The Brenner potential is used to set up the simulation system. Simulation results show that the carbon nanotubes can bear larger torsional deformation, for the armchair type (10,10) single wall carbon nanotubes, with a yielding phenomenon taking place when the torsional angle is up to 63°(1.1rad). The influence of carbon nanotube helicity in torsional deformation is very small. The shear modulus of single wall carbon nanotubes should be several hundred GPa, not 1 GPa as others reports. 展开更多
关键词 carbon nanotube molecular dynamics Brenner potential function torsional deformation
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Torsional deformation-induced gradient hierarchical structure in a 304 stainless steel
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作者 Jia-long Tian Guang Hu +2 位作者 Wei Wang Yi-yin Shan Zhou-hua Jiang 《Journal of Iron and Steel Research International》 SCIE EI CSCD 2021年第6期722-728,共7页
After applying torsion to cylindrical 304 stainless steel samples,a gradient structure along the radial direction was obtained.It was found that the volume fraction of a0-martensite increased gradually from the center... After applying torsion to cylindrical 304 stainless steel samples,a gradient structure along the radial direction was obtained.It was found that the volume fraction of a0-martensite increased gradually from the center to the surface of samples.The possibility of deformation-induced martensitic transformation was analyzed theoretically,whose conclusions were consistent with the experimental results.It was found that torsional deformation could produce abundant deformation twin and deformation-induced martensite,which could affect the tensile property of steel distinctly.The existence of deformation and martensite during torsion could increase the strength but deteriorate the ductility dramatically during the tensile test,which should be attributed to the weakening of work hardening ability.As a result of severe deformation,both strain-induced and stress-induced martensite have been observed.Also,two types of martensitic transformation mechanisms during torsional deformation were discussed. 展开更多
关键词 Gradient material torsional deformation Thermodynamic calculation 304 stainless steel Martensitic transformation
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Analytical and numerical analysis on the torsional performance of elliptically deformed tunnels in the longitudinal direction
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作者 Yingbin Liu Shaoming Liao +2 位作者 Mengbo Liu Lisheng Chen Zhiyi Li 《Underground Space》 SCIE EI CSCD 2023年第5期183-201,共19页
Segmental lining structures constructed by shields/tunnel boring machines are often subjected to uneven longitudinal cross-section torsion as a result of eccentric external loads,which is extremely adverse to tunnel s... Segmental lining structures constructed by shields/tunnel boring machines are often subjected to uneven longitudinal cross-section torsion as a result of eccentric external loads,which is extremely adverse to tunnel safety but has not received sufficient attention for a long time.To figure out the torsional performance of segmental tunnels,it is essential to assess the longitudinal torsional stiffness and active-torsion-rejection capability of a segmented tunnel.The aim of the paper is to derive an analytical solution to the longitudinal torsional stiffness of a segmental tunnel with existing elliptical deformation.The longitudinal torsional stiffness under different internal force combinations is deduced considering the longitudinal axial force and bending moment based on the equivalent continuous model and force balance equation.The validity of the analytical solution is verified by comparing it with finite element method results.Then,a parametric analysis,using the new analytical solution,is included to investigate the effect of the key parameters on torsional behaviors,including the segment size,the bolt size and the transverse bending stiffness,etc.It is found that:(1)the longitudinal torsional stiffness efficiency(LTSE)of the segmental tunnel decreases with the rise of segment thickness to diameter ratio but increases with the ring width to diameter ratio;(2)the LTSE reduces with the increase of the effective shear length but rises with the diameter of bolts;(3)the LTSE increases rapidly with the ratio of compression-torsion or bending-torsion.Furthermore,the envelope curve of the critical load(N0,M0)for a tunnel to actively resist a certain internal torque is given.The proposed solution can be easily utilized to determine the longitudinal torsional stiffness of segmental tunnels and is an effective tool for tunnel design and maintenance. 展开更多
关键词 Segmental tunnel torsional deformation Longitudinal equivalent continuous model Longitudinal torsional stiffness Transverse bending stiffness
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Nonlinear characteristics of torsional stiffness of a coilable mast with triangular section
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作者 Yu LIU Liang SUN +3 位作者 Hai HUANG Shenyan CHEN Weipeng LI Xurui ZHAO 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2024年第10期313-324,共12页
With numerous applications coilable masts in high-precision astronomical observations,such as X-ray source observations,it is important to investigate mast stiffness.To date,there have been many studies on the bending... With numerous applications coilable masts in high-precision astronomical observations,such as X-ray source observations,it is important to investigate mast stiffness.To date,there have been many studies on the bending stiffness of coilable masts,but few studies on their torsional stiffness,especially regarding the nonlinear characteristics of torsional stiffness of coilable masts under large torsional deformation.In this paper,a nonlinear analysis method is presented to examine the torsional stiffness of coilable masts with triangular sections.Based on the second-order bending buckling hypothesis of battens under large torsion deformation,the nonlinear relationship between torsional torque and torsional angle is obtained by analyzing torsional deformation and force of coilable masts.This method is used to analyze the torsional stiffness nonlinearity of a certain type of coilable mast which will be used in a practical application in the future and the results are verified by simulation and testing.The comparison results show that the error is within the acceptable range,which proves the effectiveness of the proposed method. 展开更多
关键词 Coilable mast Torsion testing torsional stiffness nonlinearity torsional deformation Torsion simulation
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Mathematical Characterization of Twisted Yarn
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作者 薛文良 魏孟媛 +2 位作者 陆维民 钱竞芳 程隆棣 《Journal of Donghua University(English Edition)》 EI CAS 2011年第3期275-277,共3页
Twist leads to yarn torsion, which influences the physical and mechanical properties of yarn or fabric directly. In this paper, according to the basic principle of space geometry, the space geometric model of yarn was... Twist leads to yarn torsion, which influences the physical and mechanical properties of yarn or fabric directly. In this paper, according to the basic principle of space geometry, the space geometric model of yarn was established, then the linking number,twisting number, and writhing number of elastic rod model were defined. The reason of yarn snarling was analyzed based on the energy, and the relation between yarn snarling and yarn torsion was studied according to White formula. The results show when tow ends of yarn are fixed, the linking number is constant, which means the sum of twisting number and writhing number for yarn torsion deformation and bend deformation is constant. 展开更多
关键词 yarn structure TWIST torsion deformation bend deformation snarling
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A new finite element of spatial thin-walled beams
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作者 王晓峰 张其林 杨庆山 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2010年第9期1141-1152,共12页
Based on the theories of Timoshenko's beams and Vlasov's thin-walled members, a new spatial thin-walled beam element with an interior node is developed. By independently interpolating bending angles and warp, factor... Based on the theories of Timoshenko's beams and Vlasov's thin-walled members, a new spatial thin-walled beam element with an interior node is developed. By independently interpolating bending angles and warp, factors such as transverse shear deformation, torsional shear deformation and their Coupling, coupling of flexure and torsion, and second shear stress are considered. According to the generalized variational theory of Hellinger-Reissner, the element stiffness matrix is derived. Examples show that the developed model is accurate and can be applied in the finite element analysis of thinwalled structures. 展开更多
关键词 spatial beams thin-walled section stiffness matrix shear deformation coupling of flexure and torsion second shear stress
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