Design and implementation of three‐dimensional electrospinning machine

Abstract: In this study, a three-dimensional (3D) electrospinning machine is designed and implemented as a new type of delta 3D printer that incorporates the fabrication of textiles directly into the 3D printing process. The newly designed 3D machine enables custom-shaped electrospun nanofibre sheets to be fabricated in a single process. The implemented prototype allows controllable nozzle movements in 3D space. Four design patterns are successfully fabricated using a polyvinylidene fluoride (PVDF) solution at an 18% we… Show more

“…[ 144 ] Methods to fabricate 2D meshes can also be used to manufacture 3D structures, for example, by combining electrospinning with 3D printing [ 145 ] or by placing the syringe on a freely moveable platform. [ 146 ] 3D scaffolds produced with electrospinning are used to increase cell growth and viability for tissue engineering applications. [ 131 ] Nain and colleagues advanced the electrospinning method to enable a precise manufacturing of micro‐ or nanofiber thickness and position with the spinneret‐based tunable engineered parameters (STEP) technique, see Figure 3c,c’.…”

Cell Shape and Forces in Elastic and Structured Environments: From Single Cells to Organoids

“…[ 144 ] Methods to fabricate 2D meshes can also be used to manufacture 3D structures, for example, by combining electrospinning with 3D printing [ 145 ] or by placing the syringe on a freely moveable platform. [ 146 ] 3D scaffolds produced with electrospinning are used to increase cell growth and viability for tissue engineering applications. [ 131 ] Nain and colleagues advanced the electrospinning method to enable a precise manufacturing of micro‐ or nanofiber thickness and position with the spinneret‐based tunable engineered parameters (STEP) technique, see Figure 3c,c’.…”

Cell Shape and Forces in Elastic and Structured Environments: From Single Cells to Organoids