AbstractThis work shows the advantages of using meshless methods to study the bone tissue remodelling phenomenon. The meshless method used in this work is the Natural Neighbour Radial Point Interpolation Method, a truly and organic meshless method. The inclusion of the NNRPIM in the process is an asset, since, when compared with other numerical approaches, it permits to produce smoother and more accurate variable fields, such as the displacement field and the stress/strain fields.Regarding the remodelling algorithm, in this work, it is considered a phenomenological bone tissue mathematical law capable to correlate the bone tissue mechanical properties (Young's modulus and ultimate compression stress) with the bone tissue apparent density. T...
The paper presents the analysis of mechanical properties of human hip joint bone behaviour basing on...
This paper presents a formulation for the three-dimensional numerical simulation of mechanically reg...
Topology optimization is presently used in most diverse scientific, technologic and industrial areas...
AbstractThis work shows the advantages of using meshless methods to study the bone tissue remodellin...
This book presents the complete formulation of a new advanced discretization meshless technique: the...
AbstractIn this work, the elasto-plastic behaviour of the bone tissue, in the presence of dental imp...
Bone remodeling is a highly complex biological process allowing bone tissue to evolve throughout lif...
The Finite Element Method is at present the method of choice for strain prediction in bones from Com...
This paper presents a speculative application of adaptive bone-remodelling to generate porous struct...
Bone tissue is a porous, heterogeneous and anisotropic material and can grow, modify shape (external...
This book offers a timely snapshot of computational methods applied to the study of bone tissue. The...
© Published under licence by IOP Publishing Ltd. The paper considers the problem of restructuring tr...
In the presented work, we study a model of bone deformation caused by action of external forces. Aft...
Abstract. Combined with the finite element method, an optimization algorithm based on strain-energy ...
The process of adaptive bone remodeling can be described mathematically and simulated in a computer ...
The paper presents the analysis of mechanical properties of human hip joint bone behaviour basing on...
This paper presents a formulation for the three-dimensional numerical simulation of mechanically reg...
Topology optimization is presently used in most diverse scientific, technologic and industrial areas...
AbstractThis work shows the advantages of using meshless methods to study the bone tissue remodellin...
This book presents the complete formulation of a new advanced discretization meshless technique: the...
AbstractIn this work, the elasto-plastic behaviour of the bone tissue, in the presence of dental imp...
Bone remodeling is a highly complex biological process allowing bone tissue to evolve throughout lif...
The Finite Element Method is at present the method of choice for strain prediction in bones from Com...
This paper presents a speculative application of adaptive bone-remodelling to generate porous struct...
Bone tissue is a porous, heterogeneous and anisotropic material and can grow, modify shape (external...
This book offers a timely snapshot of computational methods applied to the study of bone tissue. The...
© Published under licence by IOP Publishing Ltd. The paper considers the problem of restructuring tr...
In the presented work, we study a model of bone deformation caused by action of external forces. Aft...
Abstract. Combined with the finite element method, an optimization algorithm based on strain-energy ...
The process of adaptive bone remodeling can be described mathematically and simulated in a computer ...
The paper presents the analysis of mechanical properties of human hip joint bone behaviour basing on...
This paper presents a formulation for the three-dimensional numerical simulation of mechanically reg...
Topology optimization is presently used in most diverse scientific, technologic and industrial areas...