3D Printing in Oil and
Additive production techniques like 3D Printing facilitate prototyping, tooling, manufacturing, which lowers costs and time to market and helps robotics engineers accomplish their targets & goals. 3D Printing can help you customize designs for robotic applications according to your requirements and optimize the design. Throughout a swarm of markets, additive processing has unique benefits.
The combination of 3D printing processes alongside industrial robots is being looked to provide a solution to the growing need manufacturers have to create large objects on mass and with precision, while also automating the production process. As new 3D printing methods have developed, their integration with industrial robots has become simpler, leading to the theory of smart manufacturing.
In discussing smart factories’ future, the innovation of 3D printers the utilize robotic arms was touched on. This in itself is a significant new application of 3D Printing in industrial robotics. Several industry players are developing diverse kinds of robotic arms with the capability of performing 3D Printing. There’s a time benefit too: Since additive manufacturing doesn’t require setup or tooling, 3D-printed parts can often be produced with lead times in days versus weeks or months for traditional manufacturing.
Ergonomics aims to make the design of the packaging with human limitations. It is a hands-down winner. 3D Printing allows you to apply ergonomic principles to packaging design.
Highly detailed, accurate to micro levels, and smooth scale models printed by 3D printing technology is often used to showcase design ideas. These models also help in situations where CAD models are not sufficient for identifying design issues.
The production of tools and injection molds can also benefit from 3D Printing. As per EY, thirty-nine percent of consumer products companies sees the value of 3D-printed tools in enhancing traditional manufacturing.