Metal Injection has teamed up with In Flames for the brand new, super limited edition Jesterheads t-shirt. The shirt features all of the different jester logos from throughout In Flames' […]

Give us the Heavywork, please.

Pollstar, ведущее отраслевое издание индустрии живых развлечений, с радостью объявляет номинантов на 36-ю ежегодную премию Pollstar Awards. Эти награды - главное событие трехдневной конференции Pollstar Live!, крупнейшей в мире встречи профессионалов индустрии, эти награды признают и отмечают самых инновационных и успешных артистов, туры, компании, площадки и руководителей.

Победители будут объявлены на церемонии награждения в отеле Beverly Hilton в Лос-Анджелесе 19 февраля 2025 года. Среди знаменитостей, которые в прошлом были ведущими церемонии и участвовали в ней, - Dave Chappelle, Dave Grohl, Sir Elton John, Don Henley, Sebastian Maniscalco, Lars Ulrich и другие.

В номинации "Rock Tour Of The Year" на награду претендуют:

Blink-182’s “The More Time Tour”
Bruce Springsteen And The E Street Band’s “2024 World Tour”
Coldplay’s “Music Of The Spheres World Tour”
Foo Fighters’ “Everything Or Nothing At All Tour”
Green Day’s “The Saviors Tour”
Metallica’s “M72 World Tour”

В категории "Residency Of The Year" на награду претендуют:

Adele at The Colosseum at Caesars Palace/Neue Messe München
Billy Joel at Madison Square Garden
Dead & Company at The Sphere
Eagles at The Sphere
Jason Isbell And The 400 Unit at Ryman Auditorium
U2 at The Sphere
#Metallica #ModernRock #Modern_Rock #AvantgardeRock #Avantgarde_Rock #HeavyMetal #Heavy_Metal #ProgressiveMetal #Progressive_Metal #SymphonicMetal #Symphonic_Metal #ThrashMetal #Thrash_Metal #AvantgardeMetal #Avantgarde_Metal

Last week, I briefly mentioned the shaded metallic thread sets from Au Ver a Soie that I’m so happy to …

This substack is brought to you by McAlvany Precious Metals

Minerals and Metals for a Low-Carbon Future: Implications for Developing Countries 30 October 2017 — 5:00PM TO 8:00PM Anonymous (not verified) 13 October 2017 Chatham House, London

This roundtable will explore two sides of minerals and metals for a low-carbon future - the growing demand for metals required for low-carbon technology and the technological and policy innovations that will be required to manage the carbon footprint of the mining sector and its wider energy and industrial linkages. Based around a presentation and scenarios developed by the World Bank, this roundtable discussion will assess which strategic metals will likely rise in demand in order to deliver a low-carbon future, before exploring the possible implications for resource-rich developing countries. In particular, what does a growing demand of minerals for a clean energy future mean for governments and industry, and how might developing countries benefit from this trend? What impact might growth of the mining sector have on a sustainable and climate-smart development? Can renewable energy and other clean tech innovations in the mining industry help reduce the carbon footprint of the sector and related industries, and under what circumstances? And how fit-for-purpose are current donor approaches to the mining sector in an increasingly carbon-constrained world?

Attendance at this event is by invitation only.

Mining and the Circular Economy: Implications for the Minerals and Metals Industries 6 November 2017 — 4:00PM TO 5:30PM Anonymous (not verified) 31 October 2017 Chatham House, London

Visualizing the Data: The Evolution of Trade Tensions in Metals and Minerals Markets 18 January 2018 — 4:30PM TO 6:00PM Anonymous (not verified) 19 December 2017 Chatham House, London

Over the past decade, producer countries such as South Africa, Zambia, Indonesia, the DRC and, most recently, Tanzania have restricted exports of unprocessed precious metals, copper, nickel, cobalt and other minerals in an attempt to support, or create, downstream processing industries and jobs or increase revenues. These moves have invariably created tensions with trading partners. Research suggests that export restrictions are not the best way to achieve such policy objectives and can instead harm the producer country’s economy and undermine the functioning of international metals and minerals.

Drawing on OECD and Chatham House research on resource trade, the speaker will present analysis and data visualizations exploring the drivers of past export restrictions and their political and economic impacts. They will also consider how the drivers of ‘resource nationalist measures’ are changing, whether and where export restrictions might present strategic and economic risks in the current context, and the extent to which producer and consumer governments and international governance mechanisms are prepared to address them.

Attendance at this event is by invitation only.

A New Era for China: Implications for the Global Mining and Metals Industries 18 June 2018 — 9:00AM TO 10:30AM Anonymous (not verified) 8 June 2018 Chatham House, London

Since the turn of the century, China’s demand for resources has dominated global headlines. It’s rapid demand growth through the early 2000s sparked the beginning of the commodities ‘super cycle’, and encouraged a growing Chinese presence in international mining, and in global metals and minerals markets. More recently, its transition toward the ‘new normal’ of slower but higher quality growth has underpinned the sudden slowdown in global commodities demand.

Drawing on China’s domestic ambitions, as set out in the 19th party congress, and on its wider strategic ambitions through the Belt and Road Initiative, the speaker will set out his thoughts on China’s next era of growth, and its likely implications for international mining investment and global metals and minerals markets.

Mining, Minerals and Metals Expert Roundtable: Forest-Smart Mining Report Launch 10 May 2019 — 5:30PM TO 6:30PM Anonymous (not verified) 12 April 2019 Chatham House | 10 St James's Square | London | SW1Y 4LE

firehouse.ie posted a photo:

firehouse.ie posted a photo:

firehouse.ie posted a photo:

firehouse.ie posted a photo:

firehouse.ie posted a photo:

Cation diffusion facilitator (CDF) proteins are a conserved family of divalent transition metal cation transporters. CDF proteins are usually composed of two domains: the transmembrane domain, in which the metal cations are transported through, and a regulatory cytoplasmic C-terminal domain (CTD). Each CDF protein transports either one specific metal or multiple metals from the cytoplasm, and it is not known whether the CTD takes an active regulatory role in metal recognition and discrimination during cation transport. Here, the model CDF protein MamM, an iron transporter from magnetotactic bacteria, was used to probe the role of the CTD in metal recognition and selectivity. Using a combination of biophysical and structural approaches, the binding of different metals to MamM CTD was characterized. Results reveal that different metals bind distinctively to MamM CTD in terms of their binding sites, thermodynamics, and binding-dependent conformations, both in crystal form and in solution, which suggests a varying level of functional discrimination between CDF domains. Furthermore, these results provide the first direct evidence that CDF CTDs play a role in metal selectivity. We demonstrate that MamM's CTD can discriminate against Mn2+, supporting its postulated role in preventing magnetite formation poisoning in magnetotactic bacteria via Mn2+ incorporation.

March 26, 2024 — Scientists at the Department of Energy’s Oak Ridge National Laboratory have determined how to avoid costly and potentially irreparable damage to large metallic parts fabricated through […]

The post ORNL Develops Solution to Residual Stress Challenges in 3D-Printed Metal Structures appeared first on HPCwire.

Unexplored iron-rich magma could help power current and future technologies

Experts say that the trove of silver currency is official treasure and includes coins from England and Ireland

Sławomir and Szymon Milewski were searching for a Roman road when they stumbled upon the cache of coins, which is worth more than $120,000

Bob Iaccino, Path Trading Partners

3D mechanical design and design analysis software speed time to market, grow revenues; 3D PartStream.NET boosts company's online catalog sales

Find out the latest news and updates on the CME Group Metals market, including the continued growth we are seeing with our Precious Metals products.

Get all the latest updates on COMEX Copper options including a new all-time high trading record and the strong growth of RFQs.

Larry Shover, Efficient Advisors

Todd Colvin, Ambrosino Brothers

Bob Iaccino, Path Trading Partners

Dan Deming, KKM Financial

Bob Iaccino, Path Trading Partners

Larry Shover, Efficient Advisors

Todd Colvin, Ambrosino Brothers

A newly discovered protein naturally houses an unusual binding site that can differentiate between rare earth elements, and researchers at Penn State have made it even better. Rare earth elements are key components used in everything from modern tech to gasoline production. The protein, called LanD, enriches neodymium and praseodymium over other similar rare earth elements and has the potential to revolutionize industrial mining, researchers said.

OnePlus seems to be preparing to launch the OnePlus Ace 5 and Ace 5 Pro in China. The Chinese tech brand is yet to make an official announcement, but rumours about the duo continue to surface on the Web. As per a new leak, the OnePlus Ace 5 will run on the Snapdragon 8 Gen 3 chipset. The upcoming Ace 5 smartphones are also said to feature a metal middle frame.

Attorney General Jennings announced Tuesday that the Delaware Department of Justice’s Investor Protection Unit is participating in a consolidated nationwide enforcement action to disrupt a fraudulent precious metals scheme that has solicited more than $180 million from seniors and other investors. The Delaware Department of Justice, the U.S. Commodity Futures Trading Commission, and 29 other […]

The Investor Protection Unit of the Delaware Department of Justice is encouraging anyone who invested with precious metals dealers Metals.com, Tower Equity, Chase Metals, or Barrick Capital to learn more about whether they may have been defrauded and the process for potentially recovering some of their losses. In September, the Investor Protection Unit joined the […]

Hi,

Is there any way to instruct the tool to reduce the low metals effort and route more on top layers? 

Hello All:

I am looking for help on the following, as I am new to Cadence tools [I have to use Cadence Innovus for Physical Design after Logic Synthesis using Synopsys Design Compiler, using Nangate 45 nm Open Cell Library]: while using Cadence Innovus, I would need to select a few specific nets to be routed through a specific metal layer. How can I do this on Innovus [are there any command(s)]? Also, would writing and sourcing a .tcl script [containing the command(s)] on the Innovus terminal after the Placement Stage of Physical Design be fine for this?

Secondly, is there a way in Innovus to manipulate layout components, such as changing some pin placements, wire directions (say for example, wire direction changed to facing east from west, etc.) or moving specific closely placed cells around (without violating timing constraints of course) using any command(s)/.tcl script? If so, would pin placement changes and constraining some closely placed cells to be moved apart be done after Floorplanning/Powerplanning (that is, prior to Placement) and the wire direction changes be done after Routing? 

While making the necessary changes, could I use the usual Innovus commands to perform Physical Design of the remaining nets/wires/pins/cells, etc., or would anything need modification for the remaining components as well?

I would finally need to dump the entire design containing all of this in a .def file.

I tried looking up but could only find matter on Virtuoso and SKILL scripting, but I'd be using Innovus GUI/terminal with Nangate 45 nm Open Cell Library. I know this is a lot, but I would greatly appreciate your help. Thanks in advance.

Riya

Hello,

I'm reading the Design specification for IP6514E.

We will use the DAC mode.

It would seem to be very simple but I don't see any code sequence, i.e.

  1.Write 03(Basic Read) to this register

  2, Write start adress to this register

  3. Write "execute" to this register

  4. Read the data from this register

Thanks,

Stefan

How can I place stacked vias with the size exact same cut width without metals around?
As the red part only in the image below?

The stratosphere seems to be full of aluminium particles and other metals that come from spacecraft burning up in the atmosphere, and those particles could mess up polar clouds

Title: Even at Low Levels, Toxic Metals Put Heart at Serious Risk: Study
Category: Health News
Created: 8/30/2018 12:00:00 AM
Last Editorial Review: 8/30/2018 12:00:00 AM

I would never have predicted there'd be an isometric tactics game based on run-and-gun series Metal Slug, yet here Metal Slug Tactics is, and I am here for it. We've been following its development for a while but it's out now on Steam, and seemingly as strong as its demo suggested.

Read more

Putting aside my natural annoyance at Metal Gear Solid Delta: Snake Eater for almost beating out the Twarhammer series in the headline real estate wars, I am more than a little excited to play. Some days, you simply must feast on a tree frog, and while we still don’t have a solid release date, that day doesn’t feel too far away. Good news for stealth fans, and perhaps gooder news for a dozen strapline writers sweating profusely, soiling themselves in anticipation of using “kept you waiting, huh?”.

Until then, I at least have a steady drip feed of new information to keep me sated, the latest of which is the substantial hint that there'll be some new dialogue in the game, as per the video below. Alongside that, the previously pseudonymous Suzetta Miñet - who was credited with voicing EVA in MGS3 and Peace Walker - has revealed herself to be Jodi Benson, the voice of Ariel in Disney’s The Little Mermaid. Cheers for the spot, Automaton West.

Read more

After a star explodes, the resulting supernova remnant collapses in on itself and could begin the cycle again, creating generations of stars enriched with heavy elements

In the 1960s and 1970s, NASA spent a lot of time thinking about whether toroidal (donut-shaped) fuel tanks were the way to go with its spacecraft. Toroidal tanks have a bunch of potential advantages over conventional spherical fuel tanks. For example, you can fit nearly 40% more volume within a toroidal tank than if you were using multiple spherical tanks within the same space. And perhaps most interestingly, you can shove stuff (like the back of an engine) through the middle of a toroidal tank, which could lead to some substantial efficiency gains if the tanks could also handle structural loads.

Because of their relatively complex shape, toroidal tanks are much more difficult to make than spherical tanks. Even though these tanks can perform better, NASA simply doesn’t have the expertise to manufacture them anymore, since each one has to be hand-built by highly skilled humans. But a company called Machina Labs thinks that they can do this with robots instead. And their vision is to completely change how we make things out of metal.

The fundamental problem that Machina Labs is trying to solve is that if you want to build parts out of metal efficiently at scale, it’s a slow process. Large metal parts need their own custom dies, which are very expensive one-offs that are about as inflexible as it’s possible to get, and then entire factories are built around these parts. It’s a huge investment, which means that it doesn’t matter if you find some new geometry or technique or material or market, because you have to justify that enormous up-front cost by making as much of the original thing as you possibly can, stifling the potential for rapid and flexible innovation.

On the other end of the spectrum you have the also very slow and expensive process of making metal parts one at a time by hand. A few hundred years ago, this was the only way of making metal parts: skilled metalworkers using hand tools for months to make things like armor and weapons. The nice thing about an expert metalworker is that they can use their skills and experience to make anything at all, which is where Machina Labs’ vision comes from, explains CEO Edward Mehr who co-founded Machina Labs after spending time at SpaceX followed by leading the 3D printing team at Relativity Space.

“Craftsmen can pick up different tools and apply them creatively to metal to do all kinds of different things. One day they can pick up a hammer and form a shield out of a sheet of metal,” says Mehr. “Next, they pick up the same hammer, and create a sword out of a metal rod. They’re very flexible.”

The technique that a human metalworker uses to shape metal is called forging, which preserves the grain flow of the metal as it’s worked. Casting, stamping, or milling metal (which are all ways of automating metal part production) are simply not as strong or as durable as parts that are forged, which can be an important differentiator for (say) things that have to go into space. But more on that in a bit.

The problem with human metalworkers is that the throughput is bad—humans are slow, and highly skilled humans in particular don’t scale well. For Mehr and Machina Labs, this is where the robots come in.

“We want to automate and scale using a platform called the ‘robotic craftsman.’ Our core enablers are robots that give us the kinematics of a human craftsman, and artificial intelligence that gives us control over the process,” Mehr says. “The concept is that we can do any process that a human craftsman can do, and actually some that humans can’t do because we can apply more force with better accuracy.”

This flexibility that robot metalworkers offer also enables the crafting of bespoke parts that would be impractical to make in any other way. These include toroidal (donut-shaped) fuel tanks that NASA has had its eye on for the last half century or so.

Machina Labs’ CEO Edward Mehr (on right) stands behind a 15 foot toroidal fuel tank.Machina Labs

“The main challenge of these tanks is that the geometry is complex,” Mehr says. “Sixty years ago, NASA was bump-forming them with very skilled craftspeople, but a lot of them aren’t around anymore.” Mehr explains that the only other way to get that geometry is with dies, but for NASA, getting a die made for a fuel tank that’s necessarily been customized for one single spacecraft would be pretty much impossible to justify. “So one of the main reasons we’re not using toroidal tanks is because it’s just hard to make them.”

Machina Labs is now making toroidal tanks for NASA. For the moment, the robots are just doing the shaping, which is the tough part. Humans then weld the pieces together. But there’s no reason why the robots couldn’t do the entire process end-to-end and even more efficiently. Currently, they’re doing it the “human” way based on existing plans from NASA. “In the future,” Mehr tells us, “we can actually form these tanks in one or two pieces. That’s the next area that we’re exploring with NASA—how can we do things differently now that we don’t need to design around human ergonomics?”

Machina Labs’ ‘robotic craftsmen’ work in pairs to shape sheet metal, with one robot on each side of the sheet. The robots align their tools slightly offset from each other with the metal between them such that as the robots move across the sheet, it bends between the tools. Machina Labs

The video above shows Machina’s robots working on a tank that’s 4.572 m (15 feet) in diameter, likely destined for the Moon. “The main application is for lunar landers,” says Mehr. “The toroidal tanks bring the center of gravity of the vehicle lower than what you would have with spherical or pill-shaped tanks.”

Training these robots to work metal like this is done primarily through physics-based simulations that Machina developed in house (existing software being too slow), followed by human-guided iterations based on the resulting real-world data. The way that metal moves under pressure can be simulated pretty well, and although there’s certainly still a sim-to-real gap (simulating how the robot’s tool adheres to the surface of the material is particularly tricky), the robots are collecting so much empirical data that Machina is making substantial progress towards full autonomy, and even finding ways to improve the process.

An example of the kind of complex metal parts that Machina’s robots are able to make.Machina Labs

Ultimately, Machina wants to use robots to produce all kinds of metal parts. On the commercial side, they’re exploring things like car body panels, offering the option to change how your car looks in geometry rather than just color. The requirement for a couple of beefy robots to make this work means that roboforming is unlikely to become as pervasive as 3D printing, but the broader concept is the same: making physical objects a software problem rather than a hardware problem to enable customization at scale.

Wonder Brands Inc. is recalling various brands of bread and buns because of pieces of metal in the products. According to the Canadian Food Inspection Agency (CFIA), the recalled products were distributed in Newfoundland and Labrador, Ontario and Quebec, Canada. The brands listed in the recall include Country Harvest, D’Italiano,... Continue Reading

The Food and Drug Administration uses import alerts to enforce U.S. food safety regulations for food from foreign countries. The agency updates and modifies the alerts as needed. Recent modifications to FDA’s import alerts, as posted by the agency, are listed below. Use the chart below to view import alerts.... Continue Reading

It's a little rogue-lite, it's a bit '90s arcade, and it's surprisingly deep.