Multiscale toughening mechanisms in biological materials and bioinspired designs
Biological materials found in Nature such as nacre and bone are well recognized as light‐
weight, strong, and tough structural materials. The remarkable toughness and damage …
weight, strong, and tough structural materials. The remarkable toughness and damage …
Structural design elements in biological materials: application to bioinspiration
SE Naleway, MM Porter, J McKittrick… - Advanced …, 2015 - Wiley Online Library
Eight structural elements in biological materials are identified as the most common amongst
a variety of animal taxa. These are proposed as a new paradigm in the field of biological …
a variety of animal taxa. These are proposed as a new paradigm in the field of biological …
A natural impact-resistant bicontinuous composite nanoparticle coating
Nature utilizes the available resources to construct lightweight, strong and tough materials
under constrained environmental conditions. The impact surface of the fast-striking dactyl …
under constrained environmental conditions. The impact surface of the fast-striking dactyl …
[HTML][HTML] A review of impact resistant biological and bioinspired materials and structures
BS Lazarus, A Velasco-Hogan, T Gómez-del Río… - Journal of Materials …, 2020 - Elsevier
Biological systems must have the capability to withstand impacts generated during collisions
due to combat and defense. Thus, evolution has created complex materials' architectures at …
due to combat and defense. Thus, evolution has created complex materials' architectures at …
Rotational 3D printing of damage-tolerant composites with programmable mechanics
Natural composites exhibit exceptional mechanical performance that often arises from
complex fiber arrangements within continuous matrices. Inspired by these natural systems …
complex fiber arrangements within continuous matrices. Inspired by these natural systems …
Structural biological materials: critical mechanics-materials connections
Spider silk is extraordinarily strong, mollusk shells and bone are tough, and porcupine quills
and feathers resist buckling. How are these notable properties achieved? The building …
and feathers resist buckling. How are these notable properties achieved? The building …
Biological materials: functional adaptations and bioinspired designs
Biological materials are typically multifunctional but many have evolved to optimize a chief
mechanical function. These functions include impact or fracture resistance, armor and …
mechanical function. These functions include impact or fracture resistance, armor and …
The materials science of collagen
Collagen is the principal biopolymer in the extracellular matrix of both vertebrates and
invertebrates. It is produced in specialized cells (fibroblasts) and extracted into the body by a …
invertebrates. It is produced in specialized cells (fibroblasts) and extracted into the body by a …
Twisting cracks in Bouligand structures
N Suksangpanya, NA Yaraghi, D Kisailus… - Journal of the mechanical …, 2017 - Elsevier
The Bouligand structure, which is found in many biological materials, is a hierarchical
architecture that features uniaxial fiber layers assembled periodically into a helicoidal …
architecture that features uniaxial fiber layers assembled periodically into a helicoidal …
The critical role of corrugated lamellae morphology on the tough mechanical performance of natural Syncerus caffer horn sheath
K Yang, H Yu, X Cao, J Guan, S Cai, Z Yang… - Cell Reports Physical …, 2023 - cell.com
Horns from the Bovidae family represent extremely tough natural composites that resist
flexural and impact damage during combat. However, the microstructure characteristics of …
flexural and impact damage during combat. However, the microstructure characteristics of …