This study proposes an innovative design solution based on the design for additive manufacturing (DfAM) and post-process for manufacturing industrial-grade products by reducing additive manufacturing (AM) time and improving production agility. The design of the supportless open cell Sea Urchin lattice structure is analyzed using DfAM for material extrusion (MEX) process to print support free in any direction. The open cell is converted into a global closed cell to entrap secondary foam material. The lattice structure is 3D printed with Polyethylene terephthalate glycol (PETG) material and is filled with foam using the Hybrid MEX process. Foam-filling improves the lattice structure’s energy absorption and crash force efficiency when tested a...
Energy resulting from an impact is manifested through unwanted damage to objects or persons. New mat...
With Additive Manufacturing (AM) being heavily utilized in many industries and applications, several...
Lattice structures with triply periodic minimal surfaces (TPMS) built using flexible materials are s...
Abstract In nature, mesoscopic or microscopic cellular structures like trabecular bone, wood, shell,...
In this paper, we study the capabilities of two additive manufacturing technologies for the producti...
Porous and cellular materials are frequently found in nature as well as applications in biomedical, ...
Cellular materials, such as foams, can be used as load bearing members in civil construction and as ...
Cellular materials, often called lattice materials, are increasingly receiving attention for their u...
A full mechanical characterisation of three types of 3-D printed lattice cores was performed to eval...
Additive Manufacturing (AM) technologies offer the ability to construct complex geometrical structur...
Purpose: This paper aims to investigate the feasibility of supportless printing of lattice structure...
This work evaluates the potential for foamable polymer filaments to be used to make lightweight, ene...
This study analyses the energy absorption and stiffness behaviour of 3D-printed supportless, closed...
Anisotropy of mechanical properties and support material removal are the two main problems when fabr...
Sandwich panel structures are widely used in aerospace, marine, and automotive applications because ...
Energy resulting from an impact is manifested through unwanted damage to objects or persons. New mat...
With Additive Manufacturing (AM) being heavily utilized in many industries and applications, several...
Lattice structures with triply periodic minimal surfaces (TPMS) built using flexible materials are s...
Abstract In nature, mesoscopic or microscopic cellular structures like trabecular bone, wood, shell,...
In this paper, we study the capabilities of two additive manufacturing technologies for the producti...
Porous and cellular materials are frequently found in nature as well as applications in biomedical, ...
Cellular materials, such as foams, can be used as load bearing members in civil construction and as ...
Cellular materials, often called lattice materials, are increasingly receiving attention for their u...
A full mechanical characterisation of three types of 3-D printed lattice cores was performed to eval...
Additive Manufacturing (AM) technologies offer the ability to construct complex geometrical structur...
Purpose: This paper aims to investigate the feasibility of supportless printing of lattice structure...
This work evaluates the potential for foamable polymer filaments to be used to make lightweight, ene...
This study analyses the energy absorption and stiffness behaviour of 3D-printed supportless, closed...
Anisotropy of mechanical properties and support material removal are the two main problems when fabr...
Sandwich panel structures are widely used in aerospace, marine, and automotive applications because ...
Energy resulting from an impact is manifested through unwanted damage to objects or persons. New mat...
With Additive Manufacturing (AM) being heavily utilized in many industries and applications, several...
Lattice structures with triply periodic minimal surfaces (TPMS) built using flexible materials are s...