Add to ORKGElectrospun scaffolds mimic the microstructure of structural collagenous tissues and have been widely used in tissue engineering applications. Both brittle cracking and ductile failure have been observed in scaffolds with similarly random fibrous morphology. Finite element analysis can be used to qualitatively examine the mechanics of these differing failure mechanisms. The finite element modeling demonstrates that the noncontinuum deformation of the network structure results in fiber bundle formation and material toughening. Such toughening is accommodated by varying fiber properties, including allowing large failure strains and progressive damage of the fibers
Electrospun materials, due to their unique properties, have found many applications in the biomedica...
Cardiac valve and myocardium tissue regeneration has consistently raised interest for cell-seeded/mi...
Cardiac valve and myocardium tissue regeneration has consistently raised interest for cell-seeded/mi...
Electrospun scaffolds mimic the microstructure of structural collagenous tissues and have been widel...
Electrospun scaffolds mimic the microstructure of structural collagenous tissues and have been widel...
Polymeric fibrous scaffolds have been considered as replacements for load-bearing soft tissues, beca...
Polymeric fibrous scaffolds have been considered as replacements for load-bearing soft tissues, beca...
Tissue engineering involves three-dimensional scaffolds to support cell culture activities and provi...
Polymeric fibrous scaffolds have been considered as replacements for load-bearing soft tissues, beca...
Polymeric fibrous scaffolds have been considered as replacements for load-bearing soft tissues, beca...
Fibrous materials is one of the potential scaffolds used for tissue engineered constructs. One of pr...
Fibrous materials is one of the potential scaffolds used for tissue engineered constructs. One of pr...
Tissue engineering involves three-dimensional scaffolds to support cell culture activities and provi...
Fibrous materials is one of the potential scaffolds used for tissue engineered constructs. One of pr...
Electrospun nonwovens, due to their intrinsic beneficial properties, have found many applications in...
Electrospun materials, due to their unique properties, have found many applications in the biomedica...
Cardiac valve and myocardium tissue regeneration has consistently raised interest for cell-seeded/mi...
Cardiac valve and myocardium tissue regeneration has consistently raised interest for cell-seeded/mi...
Electrospun scaffolds mimic the microstructure of structural collagenous tissues and have been widel...
Electrospun scaffolds mimic the microstructure of structural collagenous tissues and have been widel...
Polymeric fibrous scaffolds have been considered as replacements for load-bearing soft tissues, beca...
Polymeric fibrous scaffolds have been considered as replacements for load-bearing soft tissues, beca...
Tissue engineering involves three-dimensional scaffolds to support cell culture activities and provi...
Polymeric fibrous scaffolds have been considered as replacements for load-bearing soft tissues, beca...
Polymeric fibrous scaffolds have been considered as replacements for load-bearing soft tissues, beca...
Fibrous materials is one of the potential scaffolds used for tissue engineered constructs. One of pr...
Fibrous materials is one of the potential scaffolds used for tissue engineered constructs. One of pr...
Tissue engineering involves three-dimensional scaffolds to support cell culture activities and provi...
Fibrous materials is one of the potential scaffolds used for tissue engineered constructs. One of pr...
Electrospun nonwovens, due to their intrinsic beneficial properties, have found many applications in...
Electrospun materials, due to their unique properties, have found many applications in the biomedica...
Cardiac valve and myocardium tissue regeneration has consistently raised interest for cell-seeded/mi...
Cardiac valve and myocardium tissue regeneration has consistently raised interest for cell-seeded/mi...