Paul Roschger scite author profile

Toughness is crucial to the structural function of bone. Usually, the toughness of a material is not just determined by its composition, but by the ability of its microstructure to dissipate deformation energy without propagation of the crack. Polymers are often able to dissipate energy by viscoplastic flow or the formation of non-connected microcracks. In ceramics, well-known toughening mechanisms are based on crack ligament bridging and crack deflection. Interestingly, all these phenomena were identified in bone, which is a composite of a fibrous polymer (collagen) and ceramic nanoparticles (carbonated hydroxyapatite). Here, we use controlled crack-extension experiments to explain the influence of fibre orientation on steering the various toughening mechanisms. We find that the fracture energy changes by two orders of magnitude depending on the collagen orientation, and the angle between collagen and crack propagation direction is decisive in switching between different toughening mechanisms.

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Constant mineralization density distribution in cancellous human bone

Roschger

Gupta

Berzlanovich

et al. 2003

Bone

242

257

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Alendronate increases degree and uniformity of mineralization in cancellous bone and decreases the porosity in cortical bone of osteoporotic women

Roschger

Rinnerthaler

Yates

et al. 2001

Bone

359

179

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The bone mineralization density distribution as a fingerprint of the mineralization process

Ruffoni¹,

Fratzl²,

Roschger³

et al. 2007

Bone

200

194

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The organization of the osteocyte network mirrors the extracellular matrix orientation in bone

Kerschnitzki

Wagermaier

Roschger

et al. 2011

Journal of Structural Biology

196

190

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Paul Roschger

Structure and mechanical quality of the collagen–mineral nano-composite in bone

Bone mineralization density distribution in health and disease

Validation of quantitative backscattered electron imaging for the measurement of mineral density distribution in human bone biopsies

From brittle to ductile fracture of bone

Constant mineralization density distribution in cancellous human bone

Alendronate increases degree and uniformity of mineralization in cancellous bone and decreases the porosity in cortical bone of osteoporotic women

The bone mineralization density distribution as a fingerprint of the mineralization process

The organization of the osteocyte network mirrors the extracellular matrix orientation in bone

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