Purpose: This study/paper aims to develop fundamental understanding of mechanical properties for multiple fibre-reinforced materials by using a single-filament-wide tensile-testing approach. Design/methodology/approach: In this study, recently validated single-filament-wide tensile-testing specimens were used for four polymers with and without short-fibre reinforcement. Critically, this specimen construct facilitates filament orientation control, for representative longitudinal and transverse composite directions, and enables measurement of interlayer bonded area, which is impossible with “slicing” software but essential in effective property measurement. Tensile properties were studied along the direction of extruded filaments (F) and nor...
An experimental study was conducted to investigate anisotropy effects on tensile properties of two s...
This paper presents a discussion and interpretation of the findings in the review paper “Fused filam...
© the authors, CC-BY 4.0 Supplementary files for article 3D short fibre orientation for universal st...
Purpose: This study/paper aims to develop fundamental understanding of mechanical properties for mul...
This study demonstrates that the interface between layers in 3D-printed polylactide has strength of ...
The interlayer interface was widely considered as the reason for anisotropic mechanical properties i...
Is mechanical anisotropy in extrusion-based 3D-printed parts caused by weak inter-filament bonding, ...
Material extrusion additive manufacturing (MEAM) is a versatile and valuable manufacturing process, ...
Fused Filament Fabrication (FFF) is a rapidly improving 3D printing technology that can be used for ...
Additive manufacturing (AM, also commonly termed 3D printing) is progressing from being a rapid prot...
ctures in the scale of multiple meters owing to enhanced stiffness and lower coefficient of thermal ...
This study develops new understanding of fibre orientation distribution in material extrusion additi...
International audienceThis work aims to develop an advanced structured material [1] that enhances th...
The open source introduction of fused filament fabrication (FFF) enables distributed manufacturing o...
Additive manufacturing by material extrusion such as the widespread fused filament fabrication is ab...
An experimental study was conducted to investigate anisotropy effects on tensile properties of two s...
This paper presents a discussion and interpretation of the findings in the review paper “Fused filam...
© the authors, CC-BY 4.0 Supplementary files for article 3D short fibre orientation for universal st...
Purpose: This study/paper aims to develop fundamental understanding of mechanical properties for mul...
This study demonstrates that the interface between layers in 3D-printed polylactide has strength of ...
The interlayer interface was widely considered as the reason for anisotropic mechanical properties i...
Is mechanical anisotropy in extrusion-based 3D-printed parts caused by weak inter-filament bonding, ...
Material extrusion additive manufacturing (MEAM) is a versatile and valuable manufacturing process, ...
Fused Filament Fabrication (FFF) is a rapidly improving 3D printing technology that can be used for ...
Additive manufacturing (AM, also commonly termed 3D printing) is progressing from being a rapid prot...
ctures in the scale of multiple meters owing to enhanced stiffness and lower coefficient of thermal ...
This study develops new understanding of fibre orientation distribution in material extrusion additi...
International audienceThis work aims to develop an advanced structured material [1] that enhances th...
The open source introduction of fused filament fabrication (FFF) enables distributed manufacturing o...
Additive manufacturing by material extrusion such as the widespread fused filament fabrication is ab...
An experimental study was conducted to investigate anisotropy effects on tensile properties of two s...
This paper presents a discussion and interpretation of the findings in the review paper “Fused filam...
© the authors, CC-BY 4.0 Supplementary files for article 3D short fibre orientation for universal st...