Add to ORKGAn additive technology can produce complex geometries which might not have been possible to produce using traditional manufacturing techniques. One such geometry is a lattice structure that can lighten the core of a component. The article deals with the investigation of tensile properties of the samples made from ABS (Acrylonitrile Butadiene Styrene) material. Two types of cylindrical lightened samples (with a simple lattice structure and in the form of a tube) were analyzed experimentally. FDM (Fused Deposition modelling) technique and filament of a 1.7 mm diameter were selected for the samples production. The results showed that at almost the same cross-section area of the samples, the lattice structure can carry a higher tensile yield st...
Funding Information: AM wishes to thank the School of Engineering of Aalto University for their fina...
Lattice structures, whose manufacturing has been enabled by additive technologies, are gaining growi...
In this study, the effect of raster orientation (0’/90’, 30’ /120’ and 45’ /135’) and printing tempe...
With Industry 4.0, additive-manufacturing methods will be widely used to produce small batches of cu...
The article deals with the experimental investigation of the influence of material volume of a latti...
Lattice structure is a lightweight material that can be produced using the cutting edge additive lay...
In recent years, the advancement in additive manufacturing have enable the fabrication of complex la...
This research focuses on the compression and tensile behavior of three-dimensional printed polymer l...
Additive manufacturing (AM) technology has undergone an evolutionary process from fabricating test p...
The process of research and refinement of Fused Deposition Modeling 3D Printer, surely contains many...
Mechanical characteristics of 3D printed lattice structures primarily depend on the properties of ma...
Tensile and compression test specimens comprising lattice structures with simple cubic, crossing-rod...
This study investigates the potential of functionally graded lattice structures (FGLs) fabricated by...
Additive manufacturing (AM) empowers the creation of novel open-celled architectures that can achiev...
Sandwich structures with lattice cores exhibit high specific bending strength and stiffness when com...
Funding Information: AM wishes to thank the School of Engineering of Aalto University for their fina...
Lattice structures, whose manufacturing has been enabled by additive technologies, are gaining growi...
In this study, the effect of raster orientation (0’/90’, 30’ /120’ and 45’ /135’) and printing tempe...
With Industry 4.0, additive-manufacturing methods will be widely used to produce small batches of cu...
The article deals with the experimental investigation of the influence of material volume of a latti...
Lattice structure is a lightweight material that can be produced using the cutting edge additive lay...
In recent years, the advancement in additive manufacturing have enable the fabrication of complex la...
This research focuses on the compression and tensile behavior of three-dimensional printed polymer l...
Additive manufacturing (AM) technology has undergone an evolutionary process from fabricating test p...
The process of research and refinement of Fused Deposition Modeling 3D Printer, surely contains many...
Mechanical characteristics of 3D printed lattice structures primarily depend on the properties of ma...
Tensile and compression test specimens comprising lattice structures with simple cubic, crossing-rod...
This study investigates the potential of functionally graded lattice structures (FGLs) fabricated by...
Additive manufacturing (AM) empowers the creation of novel open-celled architectures that can achiev...
Sandwich structures with lattice cores exhibit high specific bending strength and stiffness when com...
Funding Information: AM wishes to thank the School of Engineering of Aalto University for their fina...
Lattice structures, whose manufacturing has been enabled by additive technologies, are gaining growi...
In this study, the effect of raster orientation (0’/90’, 30’ /120’ and 45’ /135’) and printing tempe...