about
Cloning Nacre's 3D Interlocking Skeleton in Engineering Composites to Achieve Exceptional Mechanical Properties.A biopolymer-like metal enabled hybrid material with exceptional mechanical prowess.Large-scale parallel alignment of platelet-shaped particles through gravitational sedimentation.Ubiquitylation functions in the calcium carbonate biomineralization in the extracellular matrix.Multifunctional, supramolecular, continuous artificial nacre fibres.Interface failure modes explain non-monotonic size-dependent mechanical properties in bioinspired nanolaminates.Liquid crystal self-templating approach to ultrastrong and tough biomimic composites.Using graphene networks to build bioinspired self-monitoring ceramics.Biomimetics--a review.Layered nanocomposites inspired by the structure and mechanical properties of nacre.Fracture mechanics by three-dimensional crack-tip synchrotron X-ray microscopy.Biomineralization: From Material Tactics to Biological Strategy.Tablet-level origin of toughening in abalone shells and translation to synthetic composite materials.Toughening Mechanisms in Nanolayered MAX Phase Ceramics-A Review.Autonomous self-healing structural composites with bio-inspired designMass production of bulk artificial nacre with excellent mechanical properties.3D Printing Bioinspired Ceramic Composites.The Flexural Strength and Fracture Toughness of TC4-Based Laminated Composites Reinforced with Ti Aluminide and Carbide.Growing a synthetic mollusk shell.Bioinspired Hydroxyapatite/Poly(methyl methacrylate) Composite with a Nacre-Mimetic Architecture by a Bidirectional Freezing Method.Highly flexible, nonflammable and free-standing SiC nanowire paper.Joining veneers to ceramic cores and dentition with adhesive interlayers.Unifying Design Strategies in Demosponge and Hexactinellid Skeletal SystemsEffects of Laminate Architecture on Fracture Resistance of Sponge Biosilica: Lessons from NatureStrong, tough and stiff bioinspired ceramics from brittle constituents.Strength measurement of a brittle coating with a trilayer structure using instrumented indentation andin situobservation techniquesZrB2-Based Laminates Produced by Tape CastingEnergy-Dissipative Matrices Enable Synergistic Toughening in Fiber Reinforced Soft CompositesEnhanced fracture toughness by ceramic laminate designPressureless sintering of ZrB2–SiC composite laminates using boron and carbon as sintering aidsInfluence of sintering process on microstructure and fracture behavior of CF/Si3N4 laminated ceramic compositesMultilayered ceramic composites – a reviewAqueous tape casting of B4C ceramics
P2860
Q30276883-6B7CAD65-86B4-46DF-A3A4-7D537EE23BD0Q30300833-9E52512B-B6E1-4FBC-8391-52ACB164421EQ30410873-9A7DA978-6914-46D5-ABBD-FF6DB922159BQ34256675-A41D48BA-DB77-4B1A-97FE-64C808A80ECFQ36342411-92D67829-14D4-41F1-ADE4-3FCD7E4882BBQ36748122-00AC9A03-4A0C-4B1F-8F08-7D9EB8504885Q37072680-012E8B3B-7506-4E8B-8DE6-9338BB425DBEQ37642764-901BFBD6-17C0-414F-8005-2ED8143F6C7CQ37679147-28360108-05B5-49F3-A888-5295AE7F7AA8Q37940859-EF7A8B88-98C1-40C6-8A67-70051787344BQ38333811-F3D1CC58-427B-4879-A0CE-3324C46DA1E9Q39147553-96C1A5C6-CD5F-4D32-81A6-1F2C3E5BB6FAQ39969084-3E70E2A6-65EE-4869-8C30-64689C628EFBQ40991921-6BD1B83F-EEF5-4784-A275-36B9C923C8FFQ41015572-42265C40-4366-4EF3-A99D-A3F830A3C963Q41459129-C71EAA44-04FD-471B-A659-E62AC656C2FBQ43226863-84EA6721-25B5-41C0-BBC3-276F282D37F9Q43428378-A1B8DD4A-BC67-4C64-A1CB-46F022A61219Q46276300-255D09BD-5627-4966-97A5-89B77A40B090Q46768052-3D5B290C-716F-4EF9-BA94-FA8F3721D2CFQ47733354-F763AEA3-BCBA-43F1-98F5-749F0D3B42E4Q50951569-6012F821-AB4E-4807-BE4B-80C696C15389Q53528773-CCB01975-4786-4865-AE04-1E8454623629Q53528803-11FA8F8B-E172-4925-8B72-233C50CFC94FQ53592252-FE5370B2-4E9B-4970-A996-25D7F7925B56Q57611293-4D721F66-C68B-49F2-9126-5D1B25908484Q57641874-0A060EF2-BFE9-4BE0-8B91-82876585B199Q57649592-1C4FEBD2-9E0C-4B8D-8E26-6C0C054CD39CQ58092776-9C03B14A-4AAE-4C0A-A89A-C6FF614C78C9Q58092927-2B3DE8A6-0294-42C9-B725-FE84972D9629Q58190545-FB1251FC-A44D-4F00-8696-2EAFE401EC00Q58295455-6BC244FD-2C1E-4223-8CEC-44FE82ABB154Q58302532-99BA934C-6120-4627-B8FF-ADA3E3CBBDA5
P2860
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в жовтні 1990
@uk
name
A simple way to make tough ceramics
@en
A simple way to make tough ceramics
@nl
type
label
A simple way to make tough ceramics
@en
A simple way to make tough ceramics
@nl
prefLabel
A simple way to make tough ceramics
@en
A simple way to make tough ceramics
@nl
P2093
P356
P1433
P1476
A simple way to make tough ceramics
@en
P2093
J. D. Birchall
K. Kendall
N. McN. Alford
T. W. Button
W. J. Clegg
P2888
P304
P356
10.1038/347455A0
P407
P577
1990-10-01T00:00:00Z
P6179
1025317453