Alhazmi et al., 2020
ViewPDF| Publication | Publication Date | Title |
|---|---|---|
| Alhazmi et al. | Influence of infill density and orientation on the mechanical response of PLA+ specimens produced using FDM 3D printing | |
| Alafaghani et al. | Investigating the effect of fused deposition modeling processing parameters using Taguchi design of experiment method | |
| Yadav et al. | Fused filament fabrication: A state-of-the-art review of the technology, materials, properties and defects | |
| Hikmat et al. | Investigation of tensile property-based Taguchi method of PLA parts fabricated by FDM 3D printing technology | |
| Rane et al. | A comprehensive review of extrusion-based additive manufacturing processes for rapid production of metallic and ceramic parts | |
| Lalegani Dezaki et al. | An overview of fused deposition modelling (FDM): Research, development and process optimisation | |
| Alafaghani et al. | Experimental optimization of fused deposition modelling processing parameters: a design-for-manufacturing approach | |
| Alsoufi et al. | How surface roughness performance of printed parts manufactured by desktop FDM 3D printer with PLA+ is influenced by measuring direction | |
| Mohamed et al. | Characterization and dynamic mechanical analysis of PC-ABS material processed by fused deposition modelling: An investigation through I-optimal response surface methodology | |
| Singh et al. | Effect of filling percentage and raster style on tensile behavior of FDM produced PLA parts at different build orientation | |
| Alzyod et al. | The Influence of the Layer Orientation on Ultimate Tensile Strength of 3D Printed Poly-lactic Acid. | |
| Murali et al. | Investigating the effect of processing parameters on mechanical behavior of 3D fused deposition modeling printed polylactic acid | |
| Naik et al. | An insight into the effect of printing orientation on tensile strength of multi-infill pattern 3D printed specimen: Experimental study | |
| Maurya et al. | Investigation of different parameters of cube printed using PLA by FDM 3D printer | |
| Ecker et al. | 3D-material extrusion-printing with biopolymers: a review | |
| Azhikannickal et al. | Dimensional stability of 3D printed parts: effects of process parameters | |
| Mwema et al. | Visual assessment of 3D printed elements: A practical quality assessment for home-made FDM products | |
| Novakova-Marcincinova et al. | Experimental testing of materials used in fused deposition modeling rapid prototyping technology | |
| Strano et al. | Determination of process induced dimensional variations of ceramic parts, 3d printed by extrusion of a powder-binder feedstock | |
| Irfan et al. | Thermal and morphological analysis of various 3D printed composite honeycomb cores | |
| Montero et al. | Indirect Additive Manufacturing of resin components using polyvinyl alcohol sacrificial moulds | |
| Son et al. | Effect of 3D printing parameters on the tensile strength of products | |
| Maidin et al. | Vacuum fused deposition modelling system to improve tensile strength of 3D printed parts | |
| Yılan et al. | The effects of different process parameters of PLA+ on tensile strengths in 3D printer produced by fused deposition modeling | |
| Kim et al. | Effect of changing printing parameters on mechanical properties of printed PLA and Nylon 645 |