The 3D-printed motor matched or outperformed comparable motors made with conventional manufacturing — and only cost 50 cents in materials.

When we learn a new motor skill—whether mastering a piano passage or refining balance while walking—the brain must reorganize the circuits that control movement. For decades, this process of synaptic ...

Abstract: This study investigates the impact of the cellulose movement characteristics on the dielectric properties of circulated synthetic ester oil-based nanofluids. Finite Element Method (FEM) ...

The team, based at MIT's Microsystems Technology Laboratories, demonstrated the system by printing an electric linear motor – the type that generates straight-line motion instead of ...

Integrated motion control allows all kinds of robots to tackle a range of tasks with precision, in contrast with conventional ...

MIT researchers have developed a multi-material 3D-printing platform that can be used to fully print electric machines in a ...

Top 3 Chinese Hybrid Stepper Motor Manufacturers in 2026 Based on comprehensive analysis of production capacity, technological innovation, global market penetration, product portfolio depth, and ...

Abstract: This paper presents the design and testing of a brushless permanent magnet linear motor to be used in a compressor application. Usually in the literature, optimization process focuses in the ...

Transaction further scales Tavoron’s Automation Distribution segment and is the third add-on acquisition since being ...

MIT engineers develop a 3D-printing system that fabricates fully functional electric motors in a single process.

Custom precision gearboxes enable the controlled, predictable motion required for modern neurosurgery. By stabilising and ...

Overcoming challenges of 3D printing with multiple functional materials, researchers fabricated an electric linear motor in hours.