Open catch-all thread for DARPA projects/programs of interest and boldly go where unreal horrors out of sic-fi novels and super-brain polymaths could only think up, the Imagineers of War, to include silly amusement R&D and for the love of DARPA acronyms. Defense Advanced Research Projects Agency (formerly ARPA; created in 1957 after the the Sputnik revelation -co-founded by Jeff Bezos' paternal grand daddy) as some of you may know spans an extremely broad spectrum of advanced technology endeavors from all facets of exoteric & esoteric science, aviation, Bio-metrics, vaccines for Muslims, surveillance, computers, nanotechnology, satellites, weather manipulation, space, weapons & war machines, Virtual, electro-magnetics, brain tech, special meta materials manufacturing, maritime, cyber & social media influence/meme warfare to elaborate ARGs, everything & anything concerning National Security, you name it they have a stake in it, often clandestine like a double-edge sword and sometimes covertly funded via their many front companies & Orgs...and sometimes their tech advances are knowingly & unknowingly unleashed onto the sheeple consumer; for better or worse.
I mean what's not to like, LOL.
Starting off with their most recent R&D is The DARPA BRACE program aims to prolong the serviceability of DoD structures & airfield pavements by integrating a self-repair capability into existing concrete.
DARPA is "thinking" of copying ~2000 year old techniques...Roman engineers are laughing somewhere.
DARPA should look into Roman alchemy...
In case you might be wondering...on the "Q" Bond side of the pond it is "QinetiQ" the British version of US DARPA and they are traded on the London Stock Exchange as "QQ." Over the years they have acquired numerous American Defense technology companies.
They are a trusted supplier to the US government who operates under a Special Security Arrangement which allows it to work independently and separately on some of the most sensitive US defense programs despite its foreign ownership. George Tenet, former CIA Director, was an independent non-executive director between October 2006 and January 2008.
QinetiQ Group plc is an invented name where "Qi" is supposed to reflect the company's energy, "net" its networking ability, and "iQ" its intellectual resources. The name was adopted in early 2001 as a marker of Defence Evaluation and Research Agency (DERA) privatisation; the rebranding reportedly came at a cost of £400,000.
If you can think it up, dream it, will it; DARPA will manifest it. Please be sure to wear your tinfoil nightcap before retiring to your astral dream world.
Thanks for reading.
I mean what's not to like, LOL.
Starting off with their most recent R&D is The DARPA BRACE program aims to prolong the serviceability of DoD structures & airfield pavements by integrating a self-repair capability into existing concrete.
Quote:Concrete in Disrepair? DARPA May Help You BRACE It
BRACE program teams aim to introduce self-repair capabilities to defense concrete installations
Recent years have seen an emergence of so-called living materials, or materials that have the properties of living things. The DARPA Bio-inspired Restoration of Aged Concrete Edifices (BRACE) program aims to prolong the serviceability of Department of Defense structures and airfield pavements by integrating a self-repair capability into existing concrete. The central hypothesis of BRACE is that concrete can be infused with self-repair capabilities typically found in living organisms, drawing inspiration from vascular systems found in humans and vast networks of filamentous fungi that can span acres of land similar in scale to concrete buildings. Such systems could provide a network of transportation for healing within the depths of the material to repair cracks before they reach the surface and before they cause failure.
DARPA has selected program performers at Lawrence Livermore National Laboratory, the University of Colorado Boulder, and Battelle Memorial Institute to meet program goals. Each performer has proposed unique approaches to provide concrete with a network of “vasculature” integrated within the depths of the material, which can be used not only for crack repair but also for diagnosing the root causes of deterioration before they result in catastrophic damage. All teams will work toward operationalizing the vasculature, which requires applying and maintaining its function, developing novel testbeds, and predicting long-term performance through modeling.
“More than ever, we are seeing how our ability to understand and engineer biology can be leveraged for applications far beyond human health and disease, especially in the field of materials science,” noted Dr. Matthew J. Pava, BRACE program manager. “BRACE will attempt to push the limits of what is possible for engineering biological technologies to safely function and preserve our legacy concrete, and in doing so, we likely will learn about new possibilities for engineering biology and materials that we have not yet conceived.”
The 4.5-year research effort includes a Strategic Track for long-term solutions geared towards big, heavy structures such as missile silos and naval piers, and a Tactical Track for improving rapid airfield damage repair in expeditionary settings.
“Although BRACE is initially focused on military use-cases, if successful, technologies developed on BRACE eventually could have general utility for the massive amount of concrete that exists in civil infrastructure such as roads, highways, bridges, and buildings,” added Pava.
BRACE performers will engage with U.S. government and defense stakeholders, as well as appropriate regulatory authorities. Safety is paramount, and all research will be subject to regular review by both an independent laboratory and regulatory agencies to ensure BRACE technologies do not pose a threat to human or structural health. In addition, teams are required to collaborate with ethical, legal, and societal implications experts and ensure the research addresses any related concerns. Performers will be required to conform to regulatory requirements from the Environmental Protection Agency (EPA) before any of their technologies are used outside of the controlled laboratory environment, such as on test structures in the field during the final phase of the program.
DARPA is "thinking" of copying ~2000 year old techniques...Roman engineers are laughing somewhere.
DARPA should look into Roman alchemy...
Quote:Riddle solved: Why was Roman concrete so durable?
An unexpected ancient manufacturing strategy may hold the key to designing concrete that lasts for millennia.
David L. Chandler | MIT News Office
Publication Date: January 6, 2023
The ancient Romans were masters of engineering, constructing vast networks of roads, aqueducts, ports, and massive buildings, whose remains have survived for two millennia. Many of these structures were built with concrete: Rome’s famed Pantheon, which has the world’s largest unreinforced concrete dome and was dedicated in 128 C.E., is still intact, and some ancient Roman aqueducts still deliver water to Rome today. Meanwhile, many modern concrete structures have crumbled after a few decades.
Researchers have spent decades trying to figure out the secret of this ultradurable ancient construction material, particularly in structures that endured especially harsh conditions, such as docks, sewers, and seawalls, or those constructed in seismically active locations.
Now, a team of investigators from MIT, Harvard University, and laboratories in Italy and Switzerland, has made progress in this field, discovering ancient concrete-manufacturing strategies that incorporated several key self-healing functionalities. The findings are published today in the journal Science Advances, in a paper by MIT professor of civil and environmental engineering Admir Masic, former doctoral student Linda Seymour ’14, PhD ’21, and four others.
For many years, researchers have assumed that the key to the ancient concrete’s durability was based on one ingredient: pozzolanic material such as volcanic ash from the area of Pozzuoli, on the Bay of Naples. This specific kind of ash was even shipped all across the vast Roman empire to be used in construction, and was described as a key ingredient for concrete in accounts by architects and historians at the time.
Under closer examination, these ancient samples also contain small, distinctive, millimeter-scale bright white mineral features, which have been long recognized as a ubiquitous component of Roman concretes. These white chunks, often referred to as “lime clasts,” originate from lime, another key component of the ancient concrete mix. “Ever since I first began working with ancient Roman concrete, I’ve always been fascinated by these features,” says Masic. “These are not found in modern concrete formulations, so why are they present in these ancient materials?”
Previously disregarded as merely evidence of sloppy mixing practices, or poor-quality raw materials, the new study suggests that these tiny lime clasts gave the concrete a previously unrecognized self-healing capability. “The idea that the presence of these lime clasts was simply attributed to low quality control always bothered me,” says Masic. “If the Romans put so much effort into making an outstanding construction material, following all of the detailed recipes that had been optimized over the course of many centuries, why would they put so little effort into ensuring the production of a well-mixed final product? There has to be more to this story.”
Upon further characterization of these lime clasts, using high-resolution multiscale imaging and chemical mapping techniques pioneered in Masic’s research lab, the researchers gained new insights into the potential functionality of these lime clasts.
Historically, it had been assumed that when lime was incorporated into Roman concrete, it was first combined with water to form a highly reactive paste-like material, in a process known as slaking. But this process alone could not account for the presence of the lime clasts. Masic wondered: “Was it possible that the Romans might have actually directly used lime in its more reactive form, known as quicklime?”
Studying samples of this ancient concrete, he and his team determined that the white inclusions were, indeed, made out of various forms of calcium carbonate. And spectroscopic examination provided clues that these had been formed at extreme temperatures, as would be expected from the exothermic reaction produced by using quicklime instead of, or in addition to, the slaked lime in the mixture. Hot mixing, the team has now concluded, was actually the key to the super-durable nature.
“The benefits of hot mixing are twofold,” Masic says. “First, when the overall concrete is heated to high temperatures, it allows chemistries that are not possible if you only used slaked lime, producing high-temperature-associated compounds that would not otherwise form. Second, this increased temperature significantly reduces curing and setting times since all the reactions are accelerated, allowing for much faster construction.”
During the hot mixing process, the lime clasts develop a characteristically brittle nanoparticulate architecture, creating an easily fractured and reactive calcium source, which, as the team proposed, could provide a critical self-healing functionality. As soon as tiny cracks start to form within the concrete, they can preferentially travel through the high-surface-area lime clasts. This material can then react with water, creating a calcium-saturated solution, which can recrystallize as calcium carbonate and quickly fill the crack, or react with pozzolanic materials to further strengthen the composite material. These reactions take place spontaneously and therefore automatically heal the cracks before they spread. Previous support for this hypothesis was found through the examination of other Roman concrete samples that exhibited calcite-filled cracks.
To prove that this was indeed the mechanism responsible for the durability of the Roman concrete, the team produced samples of hot-mixed concrete that incorporated both ancient and modern formulations, deliberately cracked them, and then ran water through the cracks. Sure enough: Within two weeks the cracks had completely healed and the water could no longer flow. An identical chunk of concrete made without quicklime never healed, and the water just kept flowing through the sample. As a result of these successful tests, the team is working to commercialize this modified cement material.
“It’s exciting to think about how these more durable concrete formulations could expand not only the service life of these materials, but also how it could improve the durability of 3D-printed concrete formulations,” says Masic.
Through the extended functional lifespan and the development of lighter-weight concrete forms, he hopes that these efforts could help reduce the environmental impact of cement production, which currently accounts for about 8 percent of global greenhouse gas emissions. Along with other new formulations, such as concrete that can actually absorb carbon dioxide from the air, another current research focus of the Masic lab, these improvements could help to reduce concrete’s global climate impact.
The research team included Janille Maragh at MIT, Paolo Sabatini at DMAT in Italy, Michel Di Tommaso at the Instituto Meccanica dei Materiali in Switzerland, and James Weaver at the Wyss Institute for Biologically Inspired Engineering at Harvard University. The work was carried out with the assistance of the Archeological Museum of Priverno in Italy.
In case you might be wondering...on the "Q" Bond side of the pond it is "QinetiQ" the British version of US DARPA and they are traded on the London Stock Exchange as "QQ." Over the years they have acquired numerous American Defense technology companies.
They are a trusted supplier to the US government who operates under a Special Security Arrangement which allows it to work independently and separately on some of the most sensitive US defense programs despite its foreign ownership. George Tenet, former CIA Director, was an independent non-executive director between October 2006 and January 2008.
QinetiQ Group plc is an invented name where "Qi" is supposed to reflect the company's energy, "net" its networking ability, and "iQ" its intellectual resources. The name was adopted in early 2001 as a marker of Defence Evaluation and Research Agency (DERA) privatisation; the rebranding reportedly came at a cost of £400,000.
Quote:REDSTONE ARSENAL, Ala., Sept. 10, 2019 /PRNewswire/ -- The Javelin™ Joint Venture team, a partnership of Raytheon Company (NYSE: RTN) and Lockheed Martin (NYSE: LMT), successfully fired Javelin missiles from a Kongsberg remote launcher mounted on a Titan unmanned ground vehicle built by QinetiQ North America and Milrem Robotics. The demonstrations, conducted at the U.S. Army Redstone Test Center, Alabama, validated the integration of the weapon station, missile and vehicle.
Raytheon
If you can think it up, dream it, will it; DARPA will manifest it. Please be sure to wear your tinfoil nightcap before retiring to your astral dream world.
Thanks for reading.
"It is hard to imagine a more stupid or more dangerous way of making decisions than by putting those decisions in the hands of people who pay no price for being wrong." – Thomas Sowell