Production of highly aligned porous alumina ceramics by extruding frozen alumina/camphene body

“…(d)] to the direction of co‐extrusion, respectively. This suggests that the aligned pores were created successfully as a replica of the camphene dendrites, which had been elongated extensively by co‐extrusion . However, the alumina wall showed a number of pores [Fig.…”

“…However, a longer heat‐treatment time caused a decrease in the compressive strength, which might be due to a slight deterioration of a highly aligned porous structure. It should be noted that porous alumina tubes with aligned pores can provide superior mechanical properties to conventional ones with random pores …”

“…We herein demonstrate the utility of ceramic/camphene‐based co‐extrusion, which was newly and particularly developed in this study, for the production of alumina tubes with highly aligned pores. In this technique, camphene is used not only as the binder for preparing an alumina paste for co‐extrusion but as a pore‐forming agent for creating aligned pores . An initial feed rod, comprised of a pure camphene core and a frozen alumina/camphene shell, was first co‐extruded through an orifice with a diameter of 5 mm [Fig.…”

Novel Ceramic/Camphene‐Based Co‐Extrusion for Highly Aligned Porous Alumina Ceramic Tubes

“…(d)] to the direction of co‐extrusion, respectively. This suggests that the aligned pores were created successfully as a replica of the camphene dendrites, which had been elongated extensively by co‐extrusion . However, the alumina wall showed a number of pores [Fig.…”

“…However, a longer heat‐treatment time caused a decrease in the compressive strength, which might be due to a slight deterioration of a highly aligned porous structure. It should be noted that porous alumina tubes with aligned pores can provide superior mechanical properties to conventional ones with random pores …”

“…We herein demonstrate the utility of ceramic/camphene‐based co‐extrusion, which was newly and particularly developed in this study, for the production of alumina tubes with highly aligned pores. In this technique, camphene is used not only as the binder for preparing an alumina paste for co‐extrusion but as a pore‐forming agent for creating aligned pores . An initial feed rod, comprised of a pure camphene core and a frozen alumina/camphene shell, was first co‐extruded through an orifice with a diameter of 5 mm [Fig.…”

Novel Ceramic/Camphene‐Based Co‐Extrusion for Highly Aligned Porous Alumina Ceramic Tubes

“…The green bodies, comprised of 3-dimensionally interconnected alumina/camphene frameworks, were then heat-treated in an oven at 43 1C for 12 h to induce continual growth of the camphene dendrites formed in the alumina/camphene filaments [24]. To enhance bonding between the alumina/camphene frameworks, a load of $ 2 kPa was applied during the heattreatment.…”

“…As a model ceramic, alumina was used owing to its high mechanical properties and reasonable biocompatibility [23]. Fundamentally, the 3D-Ex technique can produce ceramic filaments consisting of highly elongated camphene dendrites surrounded by ceramic walls through the extrusion of a frozen ceramic/camphene body [24,25] (Fig. 1(A)).…”

Porous alumina ceramic scaffolds with biomimetic macro/micro-porous structure using three-dimensional (3-D) ceramic/camphene-based extrusion

Pyroelectric Energy Harvesting: Materials and Applications