Jarett Gross explains rheology of construction 3D printing materials Construction 3D Printing

Jarett Gross explains rheology of construction 3D printing materials Construction 3D Printing

by Architecture

Construction 3D printing is booming, with hundreds of new applications emerging all over the world. The variety of solutions sometimes makes it challenging to understand exactly how materials need to behave to enable large structures to be 3D printed. In a recent video published on his channel, Jarett Gross, a Youtuber specializing specifically in this area, explains in a very clear and highly documented manner the rheology of construction 3D printing involved. If you have a direct interest in construction AM, as many of our readers do, or if you are just curious, it’s definitely worth watching.

ICON raises million for construction 3D printing tech Construction 3D Printing

ICON raises $35 million for construction 3D printing tech Construction 3D Printing

by Architecture

ICON, a construction 3D printing specialist based in Austin, Texas, has raised $35 million through a Series A funding round led by Moderne Ventures. The infusion of capital brings the promising young company’s total investments to $44 million (it raised $9 million in a seed funding round in 2018). The funding will support the company as it continues to develop its 3D printing technology, design and build innovative 3D printed homes and advance its mission to provide cost-efficient and eco-friendly housing.

Grotto Façade reimagines built environments with 3D printing Construction 3D Printing

Grotto Façade reimagines built environments with 3D printing Construction 3D Printing

by Architecture

Part of the magic of 3D printing is that it has, in its own manner, helped us to see our relationship to the natural world in new and interesting ways. That is, while many technologies might obstruct our relationship to nature, 3D printing – in the hands of the right designer or researcher – can bring us closer to it. Such is the case in Sanhelden’s most recent project: Grotto Façade.

Aeditive presents Concrete Aeditor 3D printer for construction 3D Printing Processes

Aeditive presents Concrete Aeditor 3D printer for construction 3D Printing Processes

by Architecture

Founded in 2019, Aeditive is a high-tech startup located in Norderstedt, next to Hamburg, targeting the booming construction 3D printing sector. The young company providing turnkey integrated robotic 3D printing solutions – based on the Concrete Aeditor system – to digitalize the construction industry, enabling all users of concrete to benefit from digitalization — regardless of their current technological competencies.

Vertico opens new concrete 3D printing facility in Eindhoven Construction 3D Printing

Vertico opens new concrete 3D printing facility in Eindhoven Construction 3D Printing

by Architecture

The Netherlands has proven to be a fertile environment for construction 3D printing, with established construction companies like Bruil and BAM embracing concrete 3D printing as a building method, and technology developers like CyBe and Vertico paving the way to new applications and more adoption. Vertico, a young Dutch company specializing in robotic concrete 3D printing, is now expanding its footprint, with the opening of a new 3D printing facility in the city of Eindhoven.

Sandstone 3D printed urban microclimate proposed for Abu Dhabi Construction 3D Printing

Sandstone 3D printed urban microclimate proposed for Abu Dhabi Construction 3D Printing

by Architecture

Barberio Colella Architetti and Dr. Angelo Figliola proposed a design to ameliorate temperature perception in Abu Dhabi’s urban microclimates using 3D printed sandstone. The design focuses on a city whose average temperature for 2019 was 28.9 degrees Celsius. The United Arab Emirates’ annual average in 2019 was 29.1 degrees Celsius. The city’s warmest month is August; the architects and Dr. Figliola’s design projects temperatures of 26 degrees Celsius in August. This substantial cooling effect helps make targeted areas more comfortable.

Martian biolith: a “sweet” bioinspired composite for closed-loop extraterrestrial manufacturing Aerospace

Martian biolith: a “sweet” bioinspired composite for closed-loop extraterrestrial manufacturing Aerospace

by Architecture

Given plans to revisit the lunar surface by the late 2020s and to take a crewed mission to Mars by the late 2030s, critical technologies must mature. In missions of extended duration, in situ resource utilization is necessary to both maximize scientific returns and minimize costs. While this presents a significantly more complex challenge in the resource-starved environment of Mars, it is similar to the increasing need to develop resource-efficient and zero-waste ecosystems on Earth. In a recent paper published on PLOS One, scientists at Singapore University of Technology and Design used recent advances in the field of bioinspired chitinous manufacturing to develop a Martian biolith to be used with additive manufacturing technology within the context of a minimal, artificial ecosystem that supports humans in a Martian environment.