Add to ORKGAbstract In this paper the simplest mathematical model to design nano-bio-inspired hier-archical materials is proposed. Simple formulas describing the dependence of strength, tough-ness and stiffness on the considered size-scale are derived, taking into account the toughening biomechanisms
We present a theoretical and numerical analysis of the mechanical behavior of self-healing materials...
Biological materials, such as musculoskeletal and exoskeletal tissues, have developed amazingly comp...
Typical load-bearing biological materials like bone, mineralized tendon and shell, are biocomposites...
In this Chapter two mathematical models, force-or energy-based, are proposed to design nano-bio-insp...
Abstract. Many biological materials exhibit a hierarchical structure over more than one length scale...
This chapter investigates the concept of hierarchy widely found in biological materials. First, natu...
Structural hierarchy coupled with material heterogeneity is often identifi ed in natural materials, ...
Materials found in nature present, in some cases, unique properties from their constituents that are...
Many biological materials are hierarchically structured which means that they are designed from the ...
Abstract Natural materials such as bone, tooth, and nacre are nano-composites of proteins and minera...
Throughout biology, geometric hierarchy is a recurrent theme in structures where strength is achieve...
ABSTRACT: We present a theoretical and numerical analysis of the mechanical behavior of self-healing...
Abstract-Natural materials such as bone, shell, tendon and the attachment system of gecko exhibit mu...
The world of natural materials and structures provides an abundance of applications in which mechani...
It is well known that hierarchical structure is an important feature in biological materials to opti...
We present a theoretical and numerical analysis of the mechanical behavior of self-healing materials...
Biological materials, such as musculoskeletal and exoskeletal tissues, have developed amazingly comp...
Typical load-bearing biological materials like bone, mineralized tendon and shell, are biocomposites...
In this Chapter two mathematical models, force-or energy-based, are proposed to design nano-bio-insp...
Abstract. Many biological materials exhibit a hierarchical structure over more than one length scale...
This chapter investigates the concept of hierarchy widely found in biological materials. First, natu...
Structural hierarchy coupled with material heterogeneity is often identifi ed in natural materials, ...
Materials found in nature present, in some cases, unique properties from their constituents that are...
Many biological materials are hierarchically structured which means that they are designed from the ...
Abstract Natural materials such as bone, tooth, and nacre are nano-composites of proteins and minera...
Throughout biology, geometric hierarchy is a recurrent theme in structures where strength is achieve...
ABSTRACT: We present a theoretical and numerical analysis of the mechanical behavior of self-healing...
Abstract-Natural materials such as bone, shell, tendon and the attachment system of gecko exhibit mu...
The world of natural materials and structures provides an abundance of applications in which mechani...
It is well known that hierarchical structure is an important feature in biological materials to opti...
We present a theoretical and numerical analysis of the mechanical behavior of self-healing materials...
Biological materials, such as musculoskeletal and exoskeletal tissues, have developed amazingly comp...
Typical load-bearing biological materials like bone, mineralized tendon and shell, are biocomposites...