about
Topologically protected elastic waves in phononic metamaterialsHighly-stretchable 3D-architected Mechanical Metamaterials.Ultralight shape-recovering plate mechanical metamaterials.Tensional acoustomechanical soft metamaterialsPhononic Crystal with Adaptive ConnectivityInterferometric analysis of laser-driven cylindrically focusing shock waves in a thin liquid layer.3D Printed Reversible Shape Changing Components with Stimuli Responsive MaterialsControlled Unusual Stiffness of Mechanical Metamaterials.Hypothesis: bones toughness arises from the suppression of elastic wavesElastic metamaterials for tuning circular polarization of electromagnetic waves.Dendritic silica particles with center-radial pore channels: promising platforms for catalysis and biomedical applications.Design for Additive Bio-Manufacturing: From Patient-Specific Medical Devices to Rationally Designed Meta-Biomaterials.A compressible scaffold for minimally invasive delivery of large intact neuronal networks.From Flatland to Spaceland: Higher Dimensional Patterning with Two-Dimensional Materials.Topological and geometric measurements of force-chain structure.3D Printing by Multiphase Silicone/Water Capillary Inks.Harnessing out-of-plane deformation to design 3D architected lattice metamaterials with tunable Poisson's ratio.Nanolattices: An Emerging Class of Mechanical Metamaterials.3D Printed Auxetic Mechanical Metamaterial with Chiral Cells and Re-entrant Cores.Stiffness Percolation in Stochastically Fragmented Continua.Snapping mechanical metamaterials under tension.Applied origami. Using origami design principles to fold reprogrammable mechanical metamaterials.Programmable Kiri-Kirigami Metamaterials.Origami mechanical metamaterials based on the Miura-derivative fold patterns.Controlling elastic wave propagation in a soft bilayer system via wrinkling-induced stress patterns.Design of Hierarchically Cut Hinges for Highly Stretchable and Reconfigurable Metamaterials with Enhanced Strength.Integrated random-aligned carbon nanotube layers: deformation mechanism under compression.Smart Metamaterial Based on the Simplex Tensegrity Pattern.Local to extended transitions of resonant defect modes.Macromolecular Decoration of Nanoparticles for Guiding Self&;#x02010;Assembly in 2D and 3DOptically reconfigurable magnetic materialsMicro-texture design and optimization in hydrodynamic lubrication via two-scale analysisHomogenization-based design of surface textures in hydrodynamic lubricationSurface Patterning of Functional Ceramics: A Materials DesignTHz nanocrystal acoustic vibrations from ZrO2 3D supercrystals
P2860
Q27320113-43751293-37BC-4B4D-A3D1-93125E73390CQ27342527-1293C774-E76A-4A8F-9D6F-254FA1004B3BQ27343030-09C35833-50D0-4491-ADA5-9233994D0338Q27344833-8330DF39-A253-415B-95C5-BE19E42E3EE9Q29544989-9791A042-4773-40C1-942C-3B87F2FC4508Q30356155-C454A4B8-709B-4965-ACF0-3E8D33EBF0F0Q30384999-D31E93D3-0CE7-485E-B5E4-FF7D88E6DD2BQ30391485-8859169A-8CCE-45BE-8E17-471D0CDDFBA2Q30422334-325E392D-8A24-4C1D-8BE4-AABB3336F110Q37019401-72DDBE79-AFF6-475B-8451-DFE68D691954Q38264779-AEC7C7C4-29C5-47A4-BED6-EA209F926D30Q38649601-F380D927-7AA2-4816-8BC3-91A7EB33B526Q38960762-69EF3186-0849-4F08-883A-5BA80D63104CQ39154113-3DE77FAA-7E6D-448C-8C2B-F83EA16F3728Q39292407-8DACC6D8-CDCD-4F64-BBCB-5787BA167167Q39308039-73C878BD-5EE2-4C25-B74C-A9C012F00848Q41483545-5EC3388A-3F62-4580-A5A8-5A751A5DCA2EQ45066570-1CB56889-47F2-420B-A1C4-A6F18E5AFE2EQ49704734-F845FF97-8265-4271-B570-792EB4C0FB26Q49790281-3229371C-E4D0-4549-ADCC-4A6C26E08B0EQ50862188-00D6A32E-5214-47B0-81CA-FA11BCA01713Q51060290-B8223D95-F87B-44DF-9676-59FD2503AFF5Q51065880-9350772C-8267-49F1-A3F7-0D6B327C6DD5Q51214749-360CB80C-84E7-483F-AB22-E10AB6A4665DQ51373173-493C2B18-7B93-4C20-A56B-AA0CC2D9594BQ51688241-0137E289-D2C5-426A-8CD4-ABC845B4025BQ51765809-31E09BC5-1533-4343-B83D-8475CA84A03EQ52559235-F99AFEEC-928C-40F7-A10E-9B198BF72390Q53392384-833B7698-E807-43C9-8D53-564C5DDEC35EQ57341137-9DE1543B-5E29-442C-AB5B-847B44A1DB4BQ57386025-2481BFFF-5CFF-4D73-85F6-5CDFDEC6B0A7Q57707826-FF3FE959-CA7E-4002-A8D3-3B662A238590Q57707845-6CD8DA66-74D5-4875-86DE-072918165574Q57901451-30975156-05D7-490C-B1AA-D23C8D573355Q58208197-89B1FF4A-84A8-4AEC-BBE0-67445948D685
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Micro-/nanostructured mechanical metamaterials.
@en
type
label
Micro-/nanostructured mechanical metamaterials.
@en
prefLabel
Micro-/nanostructured mechanical metamaterials.
@en
P2860
P356
P1433
P1476
Micro-/nanostructured mechanical metamaterials
@en
P2093
Edwin L Thomas
Jae-Hwang Lee
P2860
P304
P356
10.1002/ADMA.201201644
P407
P577
2012-08-17T00:00:00Z