A novel biomimetic approach to the design of high-performance ceramic-metal composites
about
Enhanced Mechanical Performance of Bio-Inspired Hybrid Structures Utilising Topological Interlocking Geometry.Hierarchical adaptive nanostructured PVD coatings for extreme tribological applications: the quest for nonequilibrium states and emergent behaviorCloning Nacre's 3D Interlocking Skeleton in Engineering Composites to Achieve Exceptional Mechanical Properties.Large-scale parallel alignment of platelet-shaped particles through gravitational sedimentation.An inset CT specimen for evaluating fracture in small samples of material.Extreme strength observed in limpet teeth.The role of organic proteins on the crack growth resistance of human enamel.A Protocol for Bioinspired Design: A Ground Sampler Based on Sea Urchin Jaws.Hidden contributions of the enamel rods on the fracture resistance of human teeth.Revealing extraordinary tensile plasticity in layered Ti-Al metal composite.On flaw tolerance of nacre: a theoretical study.Nanostructured Biomaterials and Their Applications.Hierarchical assembly of micro-/nano-building blocks: bio-inspired rigid structural functional materials.Layered nanocomposites inspired by the structure and mechanical properties of nacre.25th anniversary article: Artificial carbonate nanocrystals and layered structural nanocomposites inspired by nacre: synthesis, fabrication and applications.Fracture mechanics by three-dimensional crack-tip synchrotron X-ray microscopy.Hierarchically Enhanced Impact Resistance of Bioinspired Composites.Autonomous self-healing structural composites with bio-inspired designBiomimetic nanocoatings with exceptional mechanical, barrier, and flame-retardant properties from large-scale one-step coassemblyToughening mechanisms in bioinspired multilayered materials.The use of carbon nanotubes to reinforce 45S5 bioglass-based scaffolds for tissue engineering applications.A Novel Approach to Developing Biomimetic ("Nacre-Like") Metal-Compliant-Phase (Nickel-Alumina) Ceramics through Coextrusion.Strong, tough and stiff bioinspired ceramics from brittle constituents.Porous Single Crystals of Calcite from Colloidal Crystal Templates: ACC Is Not Required for Nanoscale TemplatingBiotechnologies and bioinspired materials for the construction industry: an overview
P2860
Q27349755-2105A012-DBD1-41B6-918F-FD73017E2177Q28822388-5D8B76B8-9FAB-416B-B615-E2F6FFC06983Q30276883-EB46D35B-D4CE-434C-B6B7-6861B1FE96ECQ30410873-1C688D0B-CFEB-47EF-B892-E87BB8CCE8CAQ33761550-F6924C4B-FE59-4854-8B04-6F5D9660B16BQ34463569-3330AC93-6740-4E4E-827C-84379B57FC64Q35842303-43EAB027-1C93-4E7D-A04D-C73E79E4041EQ36014048-C90CBF8D-9F47-472F-B4B0-6E5EAB2AE65EQ37098890-5A68097E-1231-4FF7-9745-08DCDDE431D0Q37472079-BB212EF3-C247-4A97-B71E-E32A47AEC93CQ37507812-759F564A-32FF-4E5C-9E39-42E5CDAD02C6Q37669112-8637691A-966E-4B79-A9C5-6586C3A65DD5Q37856755-32EE8B36-6FB7-43AD-94D2-BA04C15EEA77Q37940859-0B9BC9F6-BB48-471E-8DA1-E9A57967E716Q38171414-D37597E7-508E-4CC7-A119-02FAF7F0F1DDQ38333811-3F471722-4D45-47F6-B965-20AF48C45CF2Q38677483-44EBB80A-A242-4EB5-AF67-DA51C4A282C5Q41015572-7EA19C55-28B0-4036-B9CF-0EC3E2CFACDEQ41059525-51208336-E0F6-4EEB-82AB-4DC92CBE7FDBQ41636895-0E9436B9-2ED9-4AD9-A173-0E1EA6A61DC2Q42124864-8C5E1FC7-562C-4425-B262-87F285D03562Q46579077-DF5A5A29-2DD1-474E-AE1C-EAC6B5711ADDQ53592252-DCA766C5-10CF-43EA-9408-DF9BE67CA1BEQ56828119-83AC82ED-BF24-46D5-B500-93DF2349BCE7Q58829141-BE247889-1E0F-4118-90CC-1AEF53D7271B
P2860
A novel biomimetic approach to the design of high-performance ceramic-metal composites
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
A novel biomimetic approach to the design of high-performance ceramic-metal composites
@ast
A novel biomimetic approach to the design of high-performance ceramic-metal composites
@en
type
label
A novel biomimetic approach to the design of high-performance ceramic-metal composites
@ast
A novel biomimetic approach to the design of high-performance ceramic-metal composites
@en
prefLabel
A novel biomimetic approach to the design of high-performance ceramic-metal composites
@ast
A novel biomimetic approach to the design of high-performance ceramic-metal composites
@en
P2093
P2860
P356
P1476
A novel biomimetic approach to the design of high-performance ceramic-metal composites
@en
P2093
Antoni P Tomsia
Daan Hein Alsem
Eduardo Saiz
Etienne Munch
Maximilien E Launey
Robert O Ritchie
P2860
P304
P356
10.1098/RSIF.2009.0331
P577
2009-10-14T00:00:00Z