Explore the future of 3D printing: smarter, faster, and more precise technology solving challenges like material waste and quality issues.

Researchers created stretchable, conductive CNT composites with 3D printing, powering smart insoles and wearable sensors for ...

Additive manufacturing, also known as 3D printing, has proven transformative for fabricating electrically conductive polymer ...

Polymer-based conductive nanocomposites, particularly those incorporating carbon nanotubes, are highly promising for the ...

Discover the top 5 lessons learned from 3D printing smart home enclosures, including material selection, tolerances, test ...

I wanted to see if I could build my own filament dryer using a simple 4l food container, a heater, and some electronics powered by a NodeMCU that I programmed myself. In this video I walk you through ...

Veteran-led Kupros has figured out a way to dramatically speed up the prototyping process for 3D-printed electronics.

Polymer-based conductive nanocomposites, particularly those incorporating carbon nanotubes, are highly promising for the development of flexible electronics, soft robotics and wearable devices.

The 3D printing filament market is entering a period of sustained growth, fueled by rising adoption of additive manufacturing technologies across industrial and consumer sectors. As manufacturers ...

With the ability to print metal structures with complex shapes and unique mechanical properties, metal additive manufacturing ...

Color gradient filament is fun stuff to play with. It lets you make 3D prints that slowly fade from one color to another along the Z-axis. [David Gozzard] wanted to do some printing with this effect, ...

What makes a 3D printer truly stand out? Is it innovative features, reliability under pressure, or the ability to deliver professional-grade results without breaking the bank? The Bambu Lab H2S claims ...