Fraser I. Bell scite author profile

Unrestrained spider dragline 'super-contracts' when it is wetted, causing its length to shrink by about half and its diameter to almost double. Here we measure the supercontraction stresses generated upon initial exposure of spider dragline to moisture and find that they are transient, as well as being greater than previously estimated. Our findings cast doubt on suggestions that supercontraction may help to maintain tension in wet webs and could limit the potential load-bearing applications of silk and its analogues.

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Nanostructural features of a spider dragline silk as revealed by electron and X-ray diffraction studies

Trancik

Czernuszka

Bell

et al. 2006

Polymer

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Three-dimensional architecture of macrofibrils in the human scalp hair cortex

Harland

Walls

Vernon

et al. 2014

Journal of Structural Biology

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Redox proteomic evaluation of bleaching and alkali damage in human hair

Dyer

Bell

Koehn

et al. 2013

Intern J of Cosmetic Sci

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Investigating the origins of nanostructural variations in differential ethnic hair types using X‐ray scattering techniques

Wade

Tucker

Cunningham

et al. 2013

Intern J of Cosmetic Sci

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Fraser I. Bell

Supercontraction stress in wet spider dragline

Nanostructural features of a spider dragline silk as revealed by electron and X-ray diffraction studies

Three-dimensional architecture of macrofibrils in the human scalp hair cortex

Redox proteomic evaluation of bleaching and alkali damage in human hair

Investigating the origins of nanostructural variations in differential ethnic hair types using X‐ray scattering techniques

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