In this paper, we review analytical and computational models of bone fracture and strength.
Bone fracture is a complex phenomenon due to the composite, inhomogeneous and …

Materials chemistry is at the forefront of the global “Fourth Industrial Revolution”, in part by
establishing a “Materials 4.0” paradigm. A key aspect of this paradigm is develo** …

We propose two fractional-order models for uniaxial large strains and visco-elasto-plastic
behavior of materials in structural analysis. Fractional modeling seamlessly interpolates …

The shear strength of human trabecular bone may influence overall bone strength under fall
loading conditions and failure at bone-implant interfaces. Here, we sought to compare shear …

Denosumab reduced the incidence of new fractures in postmenopausal women with
osteoporosis by 68% at the spine and 40% at the hip over 36 months compared with …

Bone regeneration in critical-sized defects is a clinical challenge, with biomaterials under
constant development aiming at enhancing the natural bone healing process. The delivery …

Trabecular bone is a porous mineralized tissue playing a major load bearing role in the
human body. Prediction of age‐related and disease‐related fractures and the behavior of …

Abstract Background and Objective Detailed finite element models based on medical
images (μ-CT) are commonly used to analyze the mechanical behavior of bone at …

The increasing incidence of osteoporotic bone fractures makes fracture risk prediction an
important clinical challenge. Computational models can be utilised to facilitate such …

The polyurethane foam (PUF) is one of the most widely used composite materials in
industrial and biomedical fields. It is frequently adopted in a wide range of environmental …