Loading video...

Video Failed to Load

Go Home

The robotic craftsman from Machina Labs are redefining metal forming! 🤖⚡️ Using AI-driven robots, they shape sheet metal without molds or dies—faster, cheaper, and more flexible than traditional methods. A game-changer for manufacturing!

32,866 views • 1 year ago •via X (Twitter)

6 Comments

Mark Scheer's profile picture
Mark Scheer1 year ago

@MachinaLabs_ So how much did it cost again? I missed that

Rainmaker's profile picture
Rainmaker2 years ago

Can we make Gold shine even more? Dive into my free Substack post where I compare Machine Learning models head-to-head. Learn how these models can outperform Buy-and-Hold strategy, providing higher returns with lower drawdowns

Reb Ploiny's profile picture
Reb Ploiny1 year ago

@MachinaLabs_ Did he say how much they sell it for?

Springblade 🇺🇸's profile picture
Springblade 🇺🇸1 year ago

@MachinaLabs_ Sandy's Tone and Delivery are always 🎯🤌

Ethan vs Machines's profile picture
Ethan vs Machines1 year ago

@MachinaLabs_ MachinaLabs’ AI-driven metal forming is brilliant! Meanwhile, Canada’s manufacturing sector will probably ‘innovate’ by… still using fax machines. 🤖📠

The Augmented & Virtual Reality Wizard's profile picture
The Augmented & Virtual Reality Wizard1 year ago

@MachinaLabs_ Mind blown by @MachinaLabs_! AI-driven robots shaping metal without molds? Future of manufacturing is here!" #AR #VR #Innovation

Related Videos

Shane Wighton, from the YouTube channel Stuff Made Here, used 3D-printed tooling to form a sheet metal component as part of a concept validation process. Metal manufacturing is essential for all areas of the economy. Because of their strength, stiffness, and long-term durability, metal components are used in applications from appliances to construction parts and car body panels. Traditional metal manufacturing techniques include forming, casting, molding, joining, and machining. Sheet metal forming involves various processes where force is applied to a piece of sheet metal to plastically deform the material into the desired shape, modifying its geometry rather than removing any material. Sheet metals can be bent or stretched into a variety of complex shapes, permitting the creation of complex structures with great strength and a minimum amount of material. Sheet metal forming is the most cost-effective forming procedure today for manufacturing parts in large quantities. It can be highly automated in factories or, at the other end of the spectrum, manually operated in metal workshops for small series parts. It is a versatile, consistent, and high-quality procedure to create accurate metal parts with limited material waste. From metal cans to protective housing for hardware, parts created by sheet metal forming are found everywhere in our daily lives. In this article, learn the basics of sheet metals, the various sheet metal forming processes, and how to reduce the cost of sheet metal forming with rapid tooling and 3D printed dies. For a detailed overview and the step-by-step method, watch our webinar or download our white paper: Research conducted by Shane Wighton. Check out the fantastic 15-minute video on his YouTube channel 'Stuff Made Here'! its top-notch engineering content.:

Formlabs

39,948 views • 1 year ago