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Bouligand Structure
Microstructure and Mechanical Properties of the Dactylopodites of the Chinese Mitten Crab (Eriocheir Sinensis)
The Role of Collagen in the Dermal Armor of the Boxfish
A Sinusoidally-Architected Helicoidal Biocomposite
2019 Shengyin Bouligand JM
Shear Wave Filtering in Naturally-Occurring Bouligand Structures Nicolás Guarín-Zapata1, Juan Gomez2, Nick Yaraghi3, David Kisailus3, 4, Pablo D
Lawrence Berkeley National Laboratory Recent Work
Structure and Mechanical Properties of Selected Protective Systems in Marine Organisms
Hyperelastic Phase-Field Fracture Mechanics Modeling of the Toughening Induced by Bouligand Structures in Natural Materials”, J
Towards in Situ Determination of 3D Strain and Reorientation in the Interpenetrating Nanofibre Cite This: Nanoscale, 2017, 9, 11249 Networks of Cuticle†
Hardness and Elastic Properties of Dehydrated Cuticle from the Lobster Homarus Americanus Obtained by Nanoindentation
Biological Materials: Structure and Mechanical Properties
Nanostructure and Nanomechanics of Stomatopod Cuticle
Mechanical Adaptability of the Bouligand-Type Structure in Natural Dermal Armour
Discontinuous Fibrous Bouligand Architecture Enabling Formidable Fracture Resistance with Crack Orientation Insensitivity
Host Susceptibility Hypothesis for Shell Disease in American Lobsters
Image Analyses of Two Crustacean Exoskeletons and Implications of the Exoskeletal Microstructure on the Mechanical Behavior
Strong Fatigue-Resistant Nanofibrous Hydrogels Inspired by Lobster Underbelly
The Role of Collagen in the Dermal Armor of the Boxfish
Top View
Spatial Programming of Defect Distributions to Enhance Material Failure Characteristics ∗ Chengyang Mo, Jordan R
University of California San Diego
Carapace Ultrastructure of the Spider Crabs Schizophrys Dahlak (Majidae) and Hyastenus Hilgendorfi (Epialtidae) from the Suez Canal, Egypt
Structure and Mechanical Properties of Crab Exoskeletons
Additive Manufacturing and Performance of Architectured Cement-Based Materials Mohamadreza Moini Purdue University,
[email protected]
Discovery of a Honeycomb Structure in the Twisted Plywood Patterns Of
Arapaima Fish Scale: One of the Toughest Flexible Biological Materials
Realising Bio-Inspired Impact Damage-Tolerant Thin-Ply CFRP Bouligand Structures Via Promoting Diffused Sub-Critical Helicoidal Damage
Structural and Mechanical Properties of Fish Scales for the Bio-Inspired
Uncovering Three-Dimensional Gradients in Fibrillar Orientation in An
Zopherus Nodulosus Haldemani)
Is the Bouligand Architecture Tougher Than Regular Cross-Ply Laminates? a Discrete Element Method Study ∗ J
Structure and Mechanical Properties of Selected Biological Materials
The Crustacean Exoskeleton As an Example of a Structurally and Mechanically Graded Biological Nanocomposite Material
Nested Helicoids in Biological Microstructures
Bioinspired Tungsten-Copper Composites with Bouligand-Type Architectures Mimicking fish Scales
Processing of Dense Bio-Inspired Ceramics with Deliberate Microtexture