Add to ORKGCellular thermoplastic structures with hierarchical multi-scale porosity (preferably 1-300 µm micro-porosity to 0.3-10 mm macro-porosity) are produced from an integrated approach of 3D printing, preferably by Fused Deposition Modeling (FDM), and of supercritical gas foaming (SCF). Porous filaments or strands and related hierarchical structures are processed in one continuous step. The influence of printing parameters (e.g. deposition temperature and speed) on foam morphology and pores distribution is described for a thermoplastic based polymer. The process may be applied to other thermoplastic filaments, or strands, with different properties. Such strands are combined in 3D configurations to create hierarchical structures. The process accor...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
3D printed scaffolds can be used, for example, in medical applications for simulating body tissues o...
The present study illustrates the manufacturing method of hierarchically porous 3D scaffolds based o...
Cellular thermoplastic structures with multiscale porosity (1–300 µm microporosity to 0.3–10 mm macr...
Biomedical scaffolds with a high degree of porosity are known to facilitate the growth of healthy fu...
This work provides a novel approach to manufacture hierarchical porous parts via an in-situ foaming ...
The asymmetrical arrangement of cellular structure allows for an accurate functional adaptation at a...
The biological hierarchical porous structures have excellent properties that are unmatched by artifi...
Motivated by the hierarchical micro and nanoscale features in terms of porosity of diatomite, the pr...
Multiscale structured polymers have been considered as a promising category of functional materials ...
Future advances and usage of all-organic polymeric materials with permanent void spaces and high sur...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
This paper presents a novel manufacturing method for cellular materials with a graded porosity distr...
The potential of structuring thermoplastic polymers by convection only, using a combination of stati...
3D printed scaffolds can be used, for example, in medical applications for simulating body tissues o...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
3D printed scaffolds can be used, for example, in medical applications for simulating body tissues o...
The present study illustrates the manufacturing method of hierarchically porous 3D scaffolds based o...
Cellular thermoplastic structures with multiscale porosity (1–300 µm microporosity to 0.3–10 mm macr...
Biomedical scaffolds with a high degree of porosity are known to facilitate the growth of healthy fu...
This work provides a novel approach to manufacture hierarchical porous parts via an in-situ foaming ...
The asymmetrical arrangement of cellular structure allows for an accurate functional adaptation at a...
The biological hierarchical porous structures have excellent properties that are unmatched by artifi...
Motivated by the hierarchical micro and nanoscale features in terms of porosity of diatomite, the pr...
Multiscale structured polymers have been considered as a promising category of functional materials ...
Future advances and usage of all-organic polymeric materials with permanent void spaces and high sur...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
This paper presents a novel manufacturing method for cellular materials with a graded porosity distr...
The potential of structuring thermoplastic polymers by convection only, using a combination of stati...
3D printed scaffolds can be used, for example, in medical applications for simulating body tissues o...
The design of multifunctional materials offers great potential for numerous applications in areas ra...
3D printed scaffolds can be used, for example, in medical applications for simulating body tissues o...
The present study illustrates the manufacturing method of hierarchically porous 3D scaffolds based o...