Multilayer 3D bioprinting and complex mechanical properties of alginate-gelatin mesostructures
In the biomedical field, extrusion-based 3D bioprinting has emerged as a promising
technique to fabricate tissue replacements. However, a main challenge is to find suitable …
technique to fabricate tissue replacements. However, a main challenge is to find suitable …
Phase-field fracture coupled elasto-plastic constitutive model for 3D printed thermoplastics and composites
Understanding the mechanical behavior and failure of 3D printed components is vital for
their application. Recently, many experimental studies have demonstrated that the fracture …
their application. Recently, many experimental studies have demonstrated that the fracture …
4D printing of shape memory polylactic acid beams: an experimental investigation into FDM additive manufacturing process parameters, mathematical modeling, and …
Abstract 4D printing is a novel process, which is referred to as the future of additive
manufacturing. The main goal of 4D printing is to control the final shape in terms of quality …
manufacturing. The main goal of 4D printing is to control the final shape in terms of quality …
Predicting the hyperelastic properties of alginate-gelatin hydrogels and 3D bioprinted mesostructures
Additive manufacturing has been widely used in tissue engineering, as 3D bioprinting
enables fabricating geometrically complicated replacements for different tissues and organs …
enables fabricating geometrically complicated replacements for different tissues and organs …
[HTML][HTML] 3D Bioprinting for Drug Development and Screening: Recent Trends Towards Personalized Medicine
Personalized medicine, leveraging patient-specific genomic data, is revolutionizing
treatment paradigms by enabling tailored therapies to individual needs, thus mitigating …
treatment paradigms by enabling tailored therapies to individual needs, thus mitigating …
[HTML][HTML] Towards optimization of polymer filament tensile test for material extrusion additive manufacturing process
S Rodrigues, S Miri, RG Cole, AA Postigo… - Journal of Materials …, 2023 - Elsevier
Material extrusion (MEX) is a popular additive manufacturing (AM) method that can process
a wide range of feedstock materials, most commonly in filament form. Currently, there is no …
a wide range of feedstock materials, most commonly in filament form. Currently, there is no …
[HTML][HTML] Investigating the effect of process parameters on the degree of fusion of two adjacent tracks produced through fused deposition modelling of acrylonitrile …
This study was conducted to investigate the effects of different process parameters on the
degree of fusion of two adjacent tracks produced by fused deposition modelling of …
degree of fusion of two adjacent tracks produced by fused deposition modelling of …
The impact of sterilization, body environment condition and raster orientation on tensile-shear cracking of sub-sized 3D printed specimens
Use of 3D printed parts in biomedical applications has received attention recently. The
applied loads, manufacturing pre-processing factors or in vivo conditions may affect the …
applied loads, manufacturing pre-processing factors or in vivo conditions may affect the …
Continuous fiber-reinforced 2.5 D hybrid lattice structures with superior compression performance via self-supporting suspension printing
This paper proposes an innovative class of two-and-a-half dimensional (2.5 D) hybrid
continuous fiber reinforced lattice structures (CFRLSs) that rationally combine distinct lattice …
continuous fiber reinforced lattice structures (CFRLSs) that rationally combine distinct lattice …
Mechanical and microstructural characterization of titanium gr. 5 parts produced by different manufacturing routes
Since a few decades, the aircraft industry has shifted its preference for metal parts to titanium
and its alloys, such as the high-strength titanium grade 5 alloy. Because of titanium grade 5 …
and its alloys, such as the high-strength titanium grade 5 alloy. Because of titanium grade 5 …