Topology and mechanics of metal rubber via X-ray tomography
暂无分享,去创建一个
Fabrizio Scarpa | Jie Hong | Yanhong Ma | F. Scarpa | Yanhong Ma | Jie Hong | Yongfeng Wang | Qicheng Zhang | Yongfeng Wang | Qicheng Zhang
[1] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.
[2] Miss A.O. Penney. (b) , 1974, The New Yale Book of Quotations.
[3] H. Beer,et al. Heat transfer by evaporation in capillary porous wire mesh structures , 1980 .
[4] John M. Vance,et al. Experimental Evaluation of a Metal Mesh Bearing Damper , 2000 .
[5] J. M. Vance,et al. Cryogenic Temperature Effects on Metal Mesh Dampers and Liquid Hydrogen Turbopump Rotordynamics , 2002 .
[6] 장윤희,et al. Y. , 2003, Industrial and Labor Relations Terms.
[7] Cui Rong-fan. Theoretical Model of Metal-Rubber , 2004 .
[8] Li Yuyan,et al. A Theoretical Model and Experimental Investigation of a Nonlinear Constitutive Equation for Elastic Porous Metal Rubbers , 2005 .
[9] H. B. Bai,et al. The Compression Deformation Mechanism of a Metallic Rubber , 2005 .
[11] T. W. Clyne,et al. Analysis of Tomography Images of Bonded Fibre Networks to Measure Distributions of Fibre Segment Length and Fibre Orientation , 2006 .
[12] Huageng Luo,et al. Nonlinear Dynamic Characterization of Oil-Free Wire Mesh Dampers , 2007 .
[13] Huageng Luo,et al. Nonlinear Dynamic Characterization of Oil-Free Wire Mesh Dampers , 2008 .
[14] Hong Wang,et al. Study on Metal Rubber Material’s Characteristics of Damping and Sound Absorption , 2008 .
[15] Ping Liu,et al. Mechanical behaviors of quasi-ordered entangled aluminum alloy wire material , 2009 .
[16] Ping Liu,et al. Uniaxial tensile stress–strain behavior of entangled steel wire material , 2009 .
[17] Ping Liu,et al. Structure deformation and failure of sintered steel wire mesh under torsion loading , 2009 .
[18] Huageng Luo,et al. Dynamic Characteristics of Shape Memory Alloy Metal Mesh Dampers , 2009 .
[19] Ping Liu,et al. Compressive and pseudo-elastic hysteresis behavior of entangled titanium wire materials , 2010 .
[20] Lt,et al. Nonlinear Static and Dynamic Properties of Metal Rubber Dampers , 2010 .
[21] Chenxi Mao,et al. Mechanical properties and theoretical modeling of self-centering shape memory alloy pseudo-rubber , 2011 .
[22] B. Zhu,et al. Theoretical and Experimental Investigation on Nonlinear Characterization of Metal Rubber , 2011 .
[23] Ping Liu,et al. Porous titanium materials with entangled wire structure for load-bearing biomedical applications. , 2012, Journal of the mechanical behavior of biomedical materials.
[24] Ping Liu,et al. Flexural and compressive mechanical behaviors of the porous titanium materials with entangled wire structure at different sintering conditions for load-bearing biomedical applications. , 2013, Journal of the mechanical behavior of biomedical materials.
[25] Guo He,et al. Stretching behaviors of entangled materials with spiral wire structure , 2013 .
[26] Wei Zhou,et al. A simple fracture energy prediction method for fiber network based on its morphological features extracted by X-ray tomography , 2013 .
[27] L. Salvo,et al. Mechanical and structural characterization of nonsintered and sintered steel wools by x-ray tomography: Description of the techniques and validation on virtual materials , 2013 .
[28] Fabrizio Scarpa,et al. Compression mechanics of nickel-based superalloy metal rubber , 2013 .
[29] Wei Zhou,et al. Three-dimensional reconstruction and morphologic characteristics of porous metal fiber sintered sheet , 2013 .
[30] F. Scarpa,et al. Dynamic mechanical behavior of nickel-based superalloy metal rubber , 2014 .
[31] Fabrizio Scarpa,et al. A novel smart rotor support with shape memory alloy metal rubber for high temperatures and variable amplitude vibrations , 2014 .
[32] G. He,et al. A novel mechanism for auxetic behavior in entangled materials with a spiral wire structure , 2014 .
[33] D. Rodney,et al. Entangled single-wire NiTi material: A porous metal with tunable superelastic and shape memory properties , 2015, 1505.02522.
[34] 이화영. X , 1960, Chinese Plants Names Index 2000-2009.
[35] Fabrizio Scarpa,et al. The mechanics of shape memory alloy metal rubber , 2015 .
[36] Fabrizio Scarpa,et al. Tuning the vibration of a rotor with shape memory alloy metal rubber supports , 2015 .
[37] Fabrizio Scarpa,et al. Size-dependent mechanical behavior and boundary layer effects in entangled metallic wire material systems , 2017, Journal of Materials Science.
[38] Yanhong Ma,et al. Tunable mechanical characteristics of a novel soft magnetic entangled metallic wire material , 2016 .
[39] Laurent Orgéas,et al. Reversible dilatancy in entangled single-wire materials. , 2016, Nature materials.
[40] Yanhong Ma,et al. Experimental investigation on the dynamic mechanical properties of soft magnetic entangled metallic wire material , 2017 .
[41] Fernando Fraternali,et al. Meta-tensegrity: Design of a tensegrity prism with metal rubber , 2018, Composite Structures.
[42] Zhiying Ren,et al. Study on Damping Energy Dissipation Characteristics of Cylindrical Metal Rubber in Nonforming Direction , 2018, Advances in Materials Science and Engineering.
[43] Du Qiang,et al. Compressive mechanical behavior of multiple wire metal rubber , 2018 .
[44] Xin Xue,et al. Damping Characteristics of Metal Rubber in the Pipeline Coating System , 2018, Shock and Vibration.
[45] Fernando Fraternali,et al. Tensegrity cell mechanical metamaterial with metal rubber , 2018, Applied Physics Letters.
[46] Zhe-ming Zhu,et al. Study of Testing Method for Dynamic Initiation Toughness of Sandstone under Blasting Loading , 2018, Shock and Vibration.
[47] F. Scarpa,et al. Shear Stiffness and Energy Absorption of Auxetic Open Cell Foams as Sandwich Cores , 2018, physica status solidi (b).
[48] Danna Zhou,et al. d. , 1840, Microbial pathogenesis.
[49] P. Alam. ‘W’ , 2021, Composites Engineering.
[50] P. Alam. ‘T’ , 2021, Composites Engineering: An A–Z Guide.
[51] P. Alam. ‘G’ , 2021, Composites Engineering: An A–Z Guide.
[52] P. Alam,et al. H , 1887, High Explosives, Propellants, Pyrotechnics.
[53] P. Alam. ‘L’ , 2021, Composites Engineering: An A–Z Guide.