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Archive for the ‘3D printing’ category: Page 5

Jul 22, 2024

Free 3D-printing datasets enable analysis, confidence in printed parts

Posted by in categories: 3D printing, materials

The Department of Energy’s Oak Ridge National Laboratory has publicly released a new set of additive manufacturing data that industry and researchers can use to evaluate and improve the quality of 3D-printed components. The breadth of the datasets can significantly boost efforts to verify the quality of additively manufactured parts using only information gathered during printing, without requiring expensive and time-consuming post-production analysis.

Data has been routinely captured over a decade at DOE’s Manufacturing Demonstration Facility, or MDF, at ORNL, where early-stage research in coupled with comprehensive analysis of the resulting components has created a vast trove of information about how 3D printers perform. Years of experience pushing the boundaries of 3D printing with novel materials, machines and controls have provided ORNL with the unique ability to develop and share comprehensive datasets. The newest dataset is now available for free through an .

The conventional manufacturing industry benefits from centuries of quality-control experience. However, additive manufacturing is a newer, non-traditional approach that typically relies on expensive evaluation techniques for monitoring the quality of parts. These techniques might include destructive mechanical testing or non-destructive X-ray computed tomography, which creates detailed cross-sectional images of objects without damaging them.

Jul 15, 2024

Scientists 3D Print LEGO Bricks Made From Meteorite Dust To Test Building on the Moon

Posted by in categories: 3D printing, space, sustainability

Scientists at the European Space Agency have designed and 3D printed bricks that are similar to LEGO pieces and are made out of 4.5-billion-year-old meteorite dust. The pieces, called ESA Space Bricks, are part of an initiative to develop clean and sustainable buildings on the Moon that lunar settlers could live and work in. In theory, astronauts could use materials readily available on the lunar surface to build structures, launch pads, and other vital pieces of infrastructure without having to solely rely on Earth-made supplies.

But why did the scientists end up going with the LEGO-inspired design for their ESA Space Bricks? While the bricks are not currently intended to be used to construct anything on the Moon, their existence does prove to researchers that it is possible to 3D print durable interlocking building bricks out of lunar materials.

“Nobody has built a structure on the Moon, so it was great to have the flexibility to try out all kinds of designs and building techniques with our space bricks,” says ESA Science Officer Aidan Cowley. “It was both fun and useful in scientifically understanding the boundaries of these techniques.”

Jul 8, 2024

Texas company 3D printing houses on Earth, partnering with NASA to 3D print infrastructure on the moon

Posted by in categories: 3D printing, habitats, space

There was a time when futurists were predicting that the advent of 3D printing was going to change our lives…


A Texas company — driven by a mission to create faster, better and more affordable housing — is 3D printing homes. It’s also working with NASA to 3D print on the Moon. Lesley Stahl reports.

Jul 8, 2024

Programmed multimaterial assembly by synergized 3D printing and freeform laser induction

Posted by in categories: 3D printing, electronics

A freeform multimaterial assembly process (FMAP) is demonstrated, synchronizing laser induction with 3D printing for seamlessly integrating multimaterials into 3D objects, enabling streamlined, flexible, and precise electronic device fabrication.

Jul 3, 2024

Dual-laser approach could lower cost of high-resolution 3D printing

Posted by in categories: 3D printing, energy

Researchers have developed a new two-photon polymerization technique that uses two lasers to 3D print complex high-resolution structures. The advance could make this 3D printing process less expensive, helping it find wider use in a variety of applications.

Two-photon polymerization is an advanced additive manufacturing technique that traditionally uses femtosecond lasers to polymerize materials in a precise, 3D manner. Although this process works well for making high-resolution microstructures, it isn’t widely used in manufacturing because femtosecond lasers are expensive and increase the cost of printing parts.

“We combined a relatively low-cost laser emitting with a emitting infrared pulses to reduce the power requirement of the femtosecond laser,” said research team leader Xianfan Xu from Purdue University. “In this way, with a given femtosecond laser power, the printing throughput can be increased, leading to a lower cost for printing individual parts.”

Jul 3, 2024

The Impact of Implementing 3D Printing at the Point-of-Care

Posted by in categories: 3D printing, biotech/medical, economics, education

Patient and clinician education has improved tremendously with the help of 3D printing — learn how in our whitepaper.


This whitepaper explores the impact of implementing 3D printing at the point-of-care, its economic benefits, advantages for surgical planning and research grant possibilities.

Jul 3, 2024

Green printing revolution with microalgae for biocompatible 3D structures

Posted by in categories: 3D printing, biotech/medical

Researchers develop sustainable, biocompatible materials from microalgae for high-resolution 3D printing, advancing eco-friendly manufacturing and biomedical applications.

Jul 1, 2024

Updated software improves slicing for large-format 3D printing

Posted by in categories: 3D printing, computing, space

Researchers at the Department of Energy’s Oak Ridge National Laboratory have developed the first additive manufacturing slicing computer application to simultaneously speed and simplify digital conversion of accurate, large-format three-dimensional parts in a factory production setting.

The technology, known as Slicer 2, can help widen the use of 3D printing for larger objects made from metallic and composite materials. Objects the size of a house and beyond are possible, such as land and aquatic vehicles and aerospace applications that include parts for reusable space vehicles.

Slicing software converts a computer-aided design, or CAD, digital model into a series of two-dimensional layers called slices. It calculates print parameters for each slice, such as printhead path and speed, and saves the information in numerically controlled computer language. The computer file contains instructions for a 3D printer to create a precise 3D version of the image.

Jun 27, 2024

Tiny Titan: MIT’s Revolutionary Coin-Sized 3D Printer Fits in Your Pocket

Posted by in categories: 3D printing, biotech/medical, computing, engineering

Researchers from MIT and the University of Texas have developed a prototype for a handheld, chip-based 3D printer using a photonic chip that emits beams of light to cure resin into solid objects. This innovative technology could revolutionize the production of customized, low-cost objects on-the-go and has potential applications in medical and engineering fields.

Portable 3D Printing Technology

Imagine a portable 3D printer you could hold in the palm of your hand. The tiny device could enable a user to rapidly create customized, low-cost objects on the go, like a fastener to repair a wobbly bicycle wheel or a component for a critical medical operation.

Jun 24, 2024

No assembly required: Innovative 3D printing method streamlines multi-materials manufacturing

Posted by in categories: 3D printing, materials

University of Missouri researchers have developed a way to create complex devices with multiple materials—including plastics, metals and semiconductors—all with a single machine.

The research, which was recently published in Nature Communications, outlines a novel 3D printing and laser process to manufacture multi-material, multi-layered sensors, circuit boards and even textiles with electronic components.

It’s called the Freeform Multi-material Assembly Process, and it promises to revolutionize the fabrication of new products.

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