Adaptations for Wear Resistance and Damage Resilience: Micromechanics of Spider Cuticular “Tools”

to related objects

Abstract: In the absence of minerals as stiffening agents, insects and spiders often use metal‐ion cross‐linking of protein matrices in their fully organic load‐bearing “tools.” In this comparative study, the hierarchical fiber architecture, elemental distribution, and the micromechanical properties of the manganese‐ and calcium‐rich cuticle of the claws of the spider Cupiennius salei, and the Zn‐rich cuticle of the cheliceral fangs of the same animal are analyzed. By correlating experimental results to finite element analysis, functional microstructural and compositional adaptations are inferred leading to remarkable damage resilience and abrasion tolerance, respectively. The results further reveal that the incorporation of both zinc and manganese/calcium correlates well with increased biomaterial's stiffness and hardness. However, the abrasion‐resistance of the claw material cross‐linked by incorporation of Mn/Ca‐ions surpasses that of many other non‐mineralized biological counterparts and is comparable to that of the fang with more than triple Zn content. These biomaterial‐adaptation paradigms for enhanced wear‐resistance may serve as novel design principles for advanced, high‐performance, functional surfaces, and graded materials.

Location
Deutsche Nationalbibliothek Frankfurt am Main
Extent
Online-Ressource
Language
Englisch

Bibliographic citation
Adaptations for Wear Resistance and Damage Resilience: Micromechanics of Spider Cuticular “Tools” ; volume:30 ; number:32 ; year:2020 ; extent:13
Advanced functional materials ; 30, Heft 32 (2020) (gesamt 13)

Creator
Tadayon, Maryam
Younes‐Metzler, Osnat
Shelef, Yaniv
Zaslansky, Paul
Rechels, Alon
Berner, Alex
Zolotoyabko, Emil
Barth, Friedrich G.
Fratzl, Peter
Bar‐On, Benny
Politi, Yael

DOI
10.1002/adfm.202000400
URN
urn:nbn:de:101:1-2022060909152553891187
Rights
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Last update
15.08.2025, 7:34 AM CEST

Data provider

This object is provided by:
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Show original at data provider

Associated

  • Tadayon, Maryam
  • Younes‐Metzler, Osnat
  • Shelef, Yaniv
  • Zaslansky, Paul
  • Rechels, Alon
  • Berner, Alex
  • Zolotoyabko, Emil
  • Barth, Friedrich G.
  • Fratzl, Peter
  • Bar‐On, Benny
  • Politi, Yael

Other Objects (12)

Ecophysiological adaptations of the cuticular water permeability within the Solanaceae family

Ecophysiological adaptations of the cuticular water permeability within the Solanaceae family

Identification of Cuticular and Web Lipids of the Spider Argiope bruennichi

Identification of Cuticular and Web Lipids of the Spider Argiope bruennichi

Ecophysiological adaptations of cuticular water permeability of plants to hot arid biomes

Ecophysiological adaptations of cuticular water permeability of plants to hot arid biomes

Small behavioral adaptations enable more effective prey capture by producing 3D-structured spider threads

Small behavioral adaptations enable more effective prey capture by producing 3D-structured spider threads

Postural adaptations to unilateral knee joint hypomobility induced by orthosis wear during gait initiation

Postural adaptations to unilateral knee joint hypomobility induced by orthosis wear during gait initiation

Spider-Man - Spider-Verse

Comic

Spider-Man - Spider-Verse

Spider-Verse: Spider-Man

Comic

Spider-Verse: Spider-Man

Spider-Verse: Spider-Men

Comic

Spider-Verse: Spider-Men

Spider-Man - Spider-Verse

Comic

Spider-Man - Spider-Verse

Spider-Verse: Spider-Ham

Comic

Spider-Verse: Spider-Ham

Spider-Verse: Spider-Women

Comic

Spider-Verse: Spider-Women

Spider-Verse: Spider-Gwen

Comic

Spider-Verse: Spider-Gwen

Related objects