Latest news with #TiberiusAerospace
Yahoo
5 days ago
- Business
- Yahoo
This tech CEO quit to redesign the 155mm shell — and upend how the West buys its weapons
Tiberius Aerospace unveiled Sceptre, a 155mm artillery shell with an extended range. The startup's open-platform model licenses the design to governments for local production. It's an approach that challenges traditional defense procurement, aiming at agility and innovation. A few weeks ago, a new defense tech startup stepped out of the shadows with a bold claim: it had built a radically advanced 155mm artillery shell called Sceptre. The ammo quickly grabbed attention for its promised combination of unprecedented range and precision. But its creator, tech entrepreneur Chad Steelberg, believes the real innovation isn't necessarily what Sceptre does — it's how it's made and sold. Speaking to Business Insider, Steelberg described Sceptre as an open weapons platform: licensed to governments, built locally, and updated like software. This frees up Tiberius Aerospace — his startup — to focus on R&D rather than managing huge manufacturing contracts. It's a model born not in a defense industry boardroom, but in the logic of Silicon Valley and the battlefields of Ukraine — one built for speed, iteration, and scale. The proposal is a radical step away from the highly centralized, slow-moving defense industrial base and contracting and acquisition processes that the Pentagon and other Western countries are wedded to, and it's sparked a mixture of curiosity and skepticism. In late 2024, sickened by the Russian onslaught in Ukraine, Steelberg made a decision. He stepped down as CEO of the AI firm he had cofounded, Veritone, and handed the keys to his No.2. "I gave them four months' notice" before founding Tiberius Aerospace, he told BI. He knew nothing about aerospace back then, he said. But he knew people who did, bringing in a Navy SEAL commander, a former Apple hardware lead, and a top engineer from Raytheon. "You get the best people in the world," Steelberg said. "You put 'em in a room, lock the box, and say: let's solve this problem." That led to Sceptre, a rocket-propelled 155mm artillery shell that Steelberg says can hit targets up to 95 miles away— nearly triple the range of standard rounds — with precision, even in GPS-denied environments. The munition itself has undergone test firing on a M777 in the US. Given its differences from standard rounds (those without rocket assist) — which have a range of about 15 miles and require add-ons for rocket propulsion and precision guidance — it's a category-defying munition more comparable to an extended-range GMLRS. But, like the original 155mm round, it's fired from a howitzer. In artillery battles, range is critical; after all, that's part of the reason the HIMARS, a rocket artillery system, was so effective when it initially arrived in Ukraine: it gave Kyiv's forces much-needed reach in combat. Steelberg says it will "change the balance of power" on the Ukrainian battlefield and beyond, though it would need to be widely fielded first. Tiberius won't actually be manufacturing Sceptre, offering an unusual "defense-as-a-service" model. The company plans to license the design to governments, which will pay $5 million upfront to gain manufacturing rights, and then $2.5 million a year to stay on board and get continual updates. They can then produce the munition in-country, using their own supply chains and industrial base. What makes this possible is Tiberius opening up its specifications for individual components — like batteries, guidance units, and fuel systems — to outside suppliers. Steelberg said suppliers will be encouraged to propose improvements, as long as the component fits within Sceptre's volumetric space. "We will certify it, test it, fire it on the range, qualify it as a version if it passes safety and efficacy," he said. This creates competition and choice for the governments buying it, he argued. It's a model inspired by the early days of Intel, leaning on an open architecture, Steelberg said. While major companies like Boeing regularly bring in subcontractors to provide parts, Tiberius' platform is built around encouraging an ongoing ecosystem around this logic — almost like an app store for defence tech, with Sceptre at its core. He suggested this would give governments the freedom to choose small, nimble manufacturers, support their own defense ecosystems, and reduce reliance on a handful of major contractors. Governments place an order — keeping the intellectual property — for the version of Sceptre they end up making. The bulk of Sceptre's main parts can be manufactured on simple, widely available CNC machines. This, Steelberg argues, cuts out the need for much of the heavy-duty facilities typically involved in munitions production and opens it up to much smaller players. "So now they're actually allocating dollars to support not just the end weapon they're looking for, but actually the industries and the providers that manufactured it," he said. The result, in his view, is a system that's more agile, more resilient, and better suited to modern warfare, where needs change faster than traditional procurement can keep up with. As NATO countries scramble to rebuild their arsenals, the limits of the traditional procurement system are becoming harder to ignore. "In terms of ammunition, Russia produces in three months what the whole of NATO produces in a year," NATO secretary-general, Mark Rutte, warned recently. Autocratic regimes like Russia's can command industry at will. Democracies can't — and procurement systems built for peacetime tend to move at a glacial pace. In broad-brush terms: a government commissions a giant contractor, a timeline and price are agreed, and five, ten, twenty years later, a product rolls off the line. That model shuts out smaller players almost entirely. "The big, big problem honestly is that there's been a co-evolution of ministries of defense and big prime manufacturers," Steelberg said, describing it as "an intellectual and contractual moat that prevents anyone else from getting in." It's known as the "valley of death," where few new players can easily navigate Pentagon bureaucracy, or can bank on being around long enough to secure a contract. DOD is experimenting with newer and nimbler models — such as open platforms and schemes to partner with smaller companies — but nothing quite to the scale that Tiberius envisions. Paul Hough, a UK-based expert in defense procurement, shares Steelberg's calls for a shake-up of the system. "Before we start pushing tsunamis of money through the old procurement model and the old industrial base structure, we should stop, take a breath," he told BI. The yawning gap between promising prototypes from small companies and actual military adoption is further complicated by the fact that innovation increasingly comes from the private sector. In the 1960s, governments funded around 60% of global R&D, according to Casey Purley, director of the Pentagon's Army Applications Laboratory. Today, she says it's about 20%, with commercial firms — often tech companies — picking up the slack. "From AI to robotics, we need to work with companies we historically haven't," she told a recent conference in London. Cynthia Cook, director of the Defense-Industrial Initiatives Group at the Center for Strategic and International Studies, said that Steelberg's model "does have the potential for production where some parts are made by primarily commercial suppliers. "This could be a way of engaging the full industrial base beyond the more narrow slice of companies that are understood to be defense contractors," she told BI. Capt. Bradley Martin, a RAND researcher who specializes in supply chain security, added that "much of the barrier-to-entry problem is solved because a company is only providing a small part of a larger system." But other issues deserve scrutiny, they said. Although Tiberius plans to take charge of certifying components, quality assurance could prove cumbersome, Martin said. Another major issue will be tracking the provenance of materials used by the companies supplying components, he added. "If a company's normal supply chain is heavily China-based, we would be creating a vulnerability," he told BI. The US's standard-issue 155mm shells are manufactured by government-owned facilities, so production can lay dormant but be surged relatively easily. That's not really the case for non-standard shells. If companies in the US are not dedicated to producing parts for Sceptre and move out of the business due to a lack of contracts, they'll "need to be attracted back — and they may have other business," Cook said. Hough said that Sceptre may be cheaper and faster to produce in small batches, but he argued that it misses the broader context. Artillery is still primarily an area-effect weapon, he said. The heavy weapons are indirect fire capabilities used for wide destruction and suppression, so while there is a place for the exquisite, precision-guided munitions, unless doctrine changes, precision rounds "are unlikely to supplant area (dumb) rounds," he said. Hough said that, after Ukraine, militaries are prioritizing large stockpiles over just-in-time flexibility — a trend that doesn't appear to align with Tiberius' more agile model. He added that some stages of shell production, including when explosives are inserted into the casing, are also "not a trivial exercise" and favor longer, centralized production runs. For Hough, Tiberius' licensing model may be best used by the military in the same field from which Steelberg took his inspiration — software. "I hope that the Tiberius model works," he said. "But at this point it appears to be a novel potential addition rather than a fundamental change to the established supply chain." Whatever happens, though, he added, "we do need people that challenge this." For Steelberg, his mission is one inspired by Winston Churchill's famous "blood, toil, tears and sweat" speech. But for him, enough blood and tears have been spilled already. "I absolutely am willing to give you my toil and my sweat," he said. But if the West doesn't resolve its procurement issues, "we will be spilling our blood and our tears." Read the original article on Business Insider
Business Insider
5 days ago
- Business
- Business Insider
This tech CEO quit to redesign the 155mm shell — and upend how the West buys its weapons
Tiberius Aerospace unveiled Sceptre, a 155mm artillery shell with an extended range. The startup's open-platform model licenses the design to governments for local production. It's an approach that challenges traditional defense procurement, aiming at agility and innovation. A few weeks ago, a new defense tech startup stepped out of the shadows with a bold claim: it had built a radically advanced 155mm artillery shell called Sceptre. The ammo quickly grabbed attention for its promised combination of unprecedented range and precision. But its creator, tech entrepreneur Chad Steelberg, believes the real innovation isn't necessarily what Sceptre does — it's how it's made and sold. Speaking to Business Insider, Steelberg described Sceptre as an open weapons platform: licensed to governments, built locally, and updated like software. This frees up Tiberius Aerospace — his startup — to focus on R&D rather than managing huge manufacturing contracts. It's a model born not in a defense industry boardroom, but in the logic of Silicon Valley and the battlefields of Ukraine — one built for speed, iteration, and scale. The proposal is a radical step away from the highly centralized, slow-moving defense industrial base and contracting and acquisition processes that the Pentagon and other Western countries are wedded to, and it's sparked a mixture of curiosity and skepticism. A founder with a mission In late 2024, sickened by the Russian onslaught in Ukraine, Steelberg made a decision. He stepped down as CEO of the AI firm he had cofounded, Veritone, and handed the keys to his No.2. "I gave them four months' notice" before founding Tiberius Aerospace, he told BI. He knew nothing about aerospace back then, he said. But he knew people who did, bringing in a Navy SEAL commander, a former Apple hardware lead, and a top engineer from Raytheon. "You get the best people in the world," Steelberg said. "You put 'em in a room, lock the box, and say: let's solve this problem." That led to Sceptre, a rocket-propelled 155mm artillery shell that Steelberg says can hit targets up to 95 miles away— nearly triple the range of standard rounds — with precision, even in GPS-denied environments. The munition itself has undergone test firing on a M777 in the US. Given its differences from standard rounds (those without rocket assist) — which have a range of about 15 miles and require add-ons for rocket propulsion and precision guidance — it's a category-defying munition more comparable to an extended-range GMLRS. But, like the original 155mm round, it's fired from a howitzer. In artillery battles, range is critical; after all, that's part of the reason the HIMARS, a rocket artillery system, was so effective when it initially arrived in Ukraine: it gave Kyiv's forces much-needed reach in combat. Steelberg says it will "change the balance of power" on the Ukrainian battlefield and beyond, though it would need to be widely fielded first. Supplanting old-school procurement Tiberius won't actually be manufacturing Sceptre, offering an unusual "defense-as-a-service" model. The company plans to license the design to governments, which will pay $5 million upfront to gain manufacturing rights, and then $2.5 million a year to stay on board and get continual updates. They can then produce the munition in-country, using their own supply chains and industrial base. What makes this possible is Tiberius opening up its specifications for individual components — like batteries, guidance units, and fuel systems — to outside suppliers. Steelberg said suppliers will be encouraged to propose improvements, as long as the component fits within Sceptre's volumetric space. "We will certify it, test it, fire it on the range, qualify it as a version if it passes safety and efficacy," he said. This creates competition and choice for the governments buying it, he argued. It's a model inspired by the early days of Intel, leaning on an open architecture, Steelberg said. While major companies like Boeing regularly bring in subcontractors to provide parts, Tiberius' platform is built around encouraging an ongoing ecosystem around this logic — almost like an app store for defence tech, with Sceptre at its core. He suggested this would give governments the freedom to choose small, nimble manufacturers, support their own defense ecosystems, and reduce reliance on a handful of major contractors. Governments place an order — keeping the intellectual property — for the version of Sceptre they end up making. The bulk of Sceptre's main parts can be manufactured on simple, widely available CNC machines. This, Steelberg argues, cuts out the need for much of the heavy-duty facilities typically involved in munitions production and opens it up to much smaller players. "So now they're actually allocating dollars to support not just the end weapon they're looking for, but actually the industries and the providers that manufactured it," he said. The result, in his view, is a system that's more agile, more resilient, and better suited to modern warfare, where needs change faster than traditional procurement can keep up with. A global procurement quagmire As NATO countries scramble to rebuild their arsenals, the limits of the traditional procurement system are becoming harder to ignore. "In terms of ammunition, Russia produces in three months what the whole of NATO produces in a year," NATO secretary-general, Mark Rutte, warned recently. Autocratic regimes like Russia's can command industry at will. Democracies can't — and procurement systems built for peacetime tend to move at a glacial pace. In broad-brush terms: a government commissions a giant contractor, a timeline and price are agreed, and five, ten, twenty years later, a product rolls off the line. That model shuts out smaller players almost entirely. "The big, big problem honestly is that there's been a co-evolution of ministries of defense and big prime manufacturers," Steelberg said, describing it as "an intellectual and contractual moat that prevents anyone else from getting in." It's known as the "valley of death," where few new players can easily navigate Pentagon bureaucracy, or can bank on being around long enough to secure a contract. DOD is experimenting with newer and nimbler models — such as open platforms and schemes to partner with smaller companies — but nothing quite to the scale that Tiberius envisions. Paul Hough, a UK-based expert in defense procurement, shares Steelberg's calls for a shake-up of the system. "Before we start pushing tsunamis of money through the old procurement model and the old industrial base structure, we should stop, take a breath," he told BI. The yawning gap between promising prototypes from small companies and actual military adoption is further complicated by the fact that innovation increasingly comes from the private sector. In the 1960s, governments funded around 60% of global R&D, according to Casey Purley, director of the Pentagon's Army Applications Laboratory. Today, she says it's about 20%, with commercial firms — often tech companies — picking up the slack. "From AI to robotics, we need to work with companies we historically haven't," she told a recent conference in London. Quality control Cynthia Cook, director of the Defense-Industrial Initiatives Group at the Center for Strategic and International Studies, said that Steelberg's model "does have the potential for production where some parts are made by primarily commercial suppliers. "This could be a way of engaging the full industrial base beyond the more narrow slice of companies that are understood to be defense contractors," she told BI. Capt. Bradley Martin, a RAND researcher who specializes in supply chain security, added that "much of the barrier-to-entry problem is solved because a company is only providing a small part of a larger system." But other issues deserve scrutiny, they said. Although Tiberius plans to take charge of certifying components, quality assurance could prove cumbersome, Martin said. Another major issue will be tracking the provenance of materials used by the companies supplying components, he added. "If a company's normal supply chain is heavily China-based, we would be creating a vulnerability," he told BI. Surge production vs just-in-time The US's standard-issue 155mm shells are manufactured by government-owned facilities, so production can lay dormant but be surged relatively easily. That's not really the case for non-standard shells. If companies in the US are not dedicated to producing parts for Sceptre and move out of the business due to a lack of contracts, they'll "need to be attracted back — and they may have other business," Cook said. Hough said that Sceptre may be cheaper and faster to produce in small batches, but he argued that it misses the broader context. Artillery is still primarily an area-effect weapon, he said. The heavy weapons are indirect fire capabilities used for wide destruction and suppression, so while there is a place for the exquisite, precision-guided munitions, unless doctrine changes, precision rounds "are unlikely to supplant area (dumb) rounds," he said. Hough said that, after Ukraine, militaries are prioritizing large stockpiles over just-in-time flexibility — a trend that doesn't appear to align with Tiberius' more agile model. He added that some stages of shell production, including when explosives are inserted into the casing, are also "not a trivial exercise" and favor longer, centralized production runs. For Hough, Tiberius' licensing model may be best used by the military in the same field from which Steelberg took his inspiration — software. "I hope that the Tiberius model works," he said. "But at this point it appears to be a novel potential addition rather than a fundamental change to the established supply chain." Whatever happens, though, he added, "we do need people that challenge this." For Steelberg, his mission is one inspired by Winston Churchill's famous "blood, toil, tears and sweat" speech. But for him, enough blood and tears have been spilled already. "I absolutely am willing to give you my toil and my sweat," he said. But if the West doesn't resolve its procurement issues, "we will be spilling our blood and our tears."
Scottish Sun
24-05-2025
- Business
- Scottish Sun
US unveils world's first supersonic artillery shell that can hit targets 100 miles away at a blistering 2,700mph speeds
The missile is equipped with AI technology SHELL SHOCK US unveils world's first supersonic artillery shell that can hit targets 100 miles away at a blistering 2,700mph speeds Click to share on X/Twitter (Opens in new window) Click to share on Facebook (Opens in new window) THE US has revealed the world's first supersonic artillery shell, capable of striking targets 100 miles away at speeds of a blistering 2,700mph. Tiberius Aerospace, a UK-US defence firm, unveiled the Sceptre TrBM 155HG supersonic missile at the Future Artillery Conference in London. 6 THE US has unveiled the world's first supersonic artillery shell Credit: Tiberius 6 The supersonic shell's fueling design boosts shelf life to over 20 years Credit: Tiberius 6 The missile is equipped with AI technology, GPS, and a sensor system Credit: Tiberius The technological milestone can reach speeds of Mach 3.5 and soars to an altitude of 65,000 feet. This makes it impervious to countermeasures and GPS jamming systems. It uses a ramjet engine, enabling supersonic speeds and a range of up to 150km. The missile is equipped with AI technology, GPS, and a sensor system that corrects errors in real-time. An important feature is that the Sceptre TrBM 155HG can be powered by diesel, JP-4, or JP-8 fuel. Unlike typical solid-fuel missiles, the supersonic shell's fueling design boosts shelf life to over 20 years and cuts storage risks. The Sceptre's propulsion system also reduces reliance on niche energetics, letting the defence firm source fuel from established logistics networks and strengthening the supply chain. Chad Steelberg, CEO and founder of Tiberius Aerospace, described the state-of-the-art missile as a "10X solution" in range precision, cost-effectiveness, survivability and operational adaptability. He added: "This is a weapon designed for the future battlefield: fast, precise, and resilient in a denied environment." It comes after Britain hit a major milestone in the race for hypersonic supremacy – with a powerful new missile engine tested 233 times and hailed as a game changer for UK defence. Putin develops yet another secret new hypersonic missile - this time mini-sized - in bid to outdo West, as 6,100 mph Zircon to be tested next month The new air-breathing propulsion system, designed to fire cruise missiles at speeds of over five times the speed of sound, is part of a £1billion push to build a British hypersonic weapon by 2030. The breakthrough comes as military experts warn a British version of Israel's famed Iron Dome missile shield would be "too prohibitively expensive" to protect the entire UK – leaving cities exposed to attacks from Putin's rockets. Defence Secretary John Healey said: 'We are living in a more dangerous world and it has never been more important for us to innovate and stay ahead of our adversaries, equipping our forces with the technologies of the future. 'This milestone moment on hypersonics research, supported by British scientists and British small businesses, demonstrates another crucial area where we are working in lockstep with the United States to bolster our Armed Forces and strengthen our deterrence.' The engine, developed through a joint effort between the Defence Science and Technology Laboratory (Dstl), the US Air Force Research Laboratory, and UK industry players like Gas Dynamics Ltd, was successfully trialled at NASA's Langley Research Centre in Virginia. Over six weeks, scientists carried out 233 static tests across a range of supersonic and hypersonic speeds, analysing real-time data to tweak designs and boost performance. Paul Hollinshead, Chief Executive of Dstl, said: 'This milestone represents a critical advancement in the UK's defence capabilities and reinforces our standing in the AUKUS hypersonic weapon development collaboration. "The success of these tests highlights the UK's commitment to technological leadership and innovation in this crucial area.' What is the Iron Dome – and is it really effective? ISRAEL'S Iron Dome is a high-tech, all-weather mobile air defence system designed to intercept and destroy short-range threats like rockets, missiles, mortars and drones. The system is made up of at least 10 batteries placed strategically around the country. Each battery includes a radar detection system, a control centre to assess threats, and truck-towed launchers that fire radar-guided Tamir interceptor missiles. How does it work? The radar detects incoming projectiles and sends data to a central command that decides if the threat will hit a populated or strategic area. If it will, the system fires interceptors to destroy it mid-air – ignoring rockets headed for open spaces. Range & reach: The Iron Dome can take out targets launched from up to 43 miles away. Each launcher holds up to 20 interceptors, and the batteries together can protect nearly 60 square miles of land. Israel has worked on increasing the range to up to 155 miles and enabling the system to handle multiple threats from different directions. How effective is it? Very. Iron Dome has a reported success rate of around 90 per cent, according to its developer Rafael Advanced Defence Systems. It has intercepted thousands of rockets since its first combat use in 2011. During the 2021 conflict with Gaza, it stopped roughly 90 per cent of over 4,000 rockets fired into populated areas. In the October 2024 Iranian missile barrage, the system again proved its mettle, downing most of the 180 missiles fired. Limits under pressure: The system isn't invincible. On October 7, 2023, when Hamas fired thousands of rockets at once, it overwhelmed the system. Experts say there's a limit to how many incoming projectiles the Iron Dome can handle at once – and anything above that threshold can get through. Part of a trio: The Iron Dome is just one part of Israel's multi-layered defence network, alongside David's Sling (for medium-range missiles) and Arrow 2/3 (for long-range ballistic missiles), creating overlapping protection against a variety of aerial threats. Bottom line: Iron Dome is a battlefield game changer – incredibly effective against limited rocket fire, but not a silver bullet against massed missile barrages. 6 The Sceptre TrBM 155HG can be powered by diesel, JP-4, or JP-8 fuel Credit: Tiberius 6 It uses a ramjet engine, enabling supersonic speeds Credit: Tiberius
The Irish Sun
24-05-2025
- Business
- The Irish Sun
US unveils world's first supersonic artillery shell that can hit targets 100 miles away at a blistering 2,700mph speeds
THE US has revealed the world's first supersonic artillery shell, capable of striking targets 100 miles away at speeds of a blistering 2,700mph. Tiberius Aerospace, a UK-US defence firm, unveiled the Sceptre TrBM 155HG supersonic missile at the Future Artillery Conference in London. 6 THE US has unveiled the world's first supersonic artillery shell Credit: Tiberius 6 The supersonic shell's fueling design boosts shelf life to over 20 years Credit: Tiberius 6 The missile is equipped with AI technology, GPS, and a sensor system Credit: Tiberius The technological milestone can reach speeds of Mach 3.5 and soars to an altitude of 65,000 feet. This makes it impervious to countermeasures and GPS jamming systems. It uses a ramjet engine, enabling supersonic speeds and a range of up to 150km. The missile is equipped with AI technology, GPS, and a sensor system that corrects errors in real-time. read more on tech An important feature is that the Sceptre TrBM 155HG can be powered by diesel, JP-4, or JP-8 fuel. Unlike typical solid-fuel missiles, the supersonic shell's fueling design boosts shelf life to over 20 years and cuts storage risks. The Sceptre's propulsion system also reduces reliance on niche energetics, letting the defence firm source fuel from established logistics networks and strengthening the supply chain. Chad Steelberg, CEO and founder of Tiberius Aerospace, described the state-of-the-art missile as a "10X solution" in range precision, cost-effectiveness, survivability and operational adaptability. Most read in Tech He added: "This is a weapon designed for the future battlefield: fast, precise, and resilient in a denied environment." It comes after Britain hit a major milestone in the race for hypersonic supremacy – with a powerful new missile engine tested 233 times and hailed as a game changer for UK defence. Putin develops yet another secret new hypersonic missile - this time mini-sized - in bid to outdo West, as 6,100 mph Zircon to be tested next month The new air-breathing propulsion system, designed to fire cruise missiles at speeds of over five times the speed of sound, is part of a £1billion push to build a British hypersonic weapon by 2030. The breakthrough comes as military experts warn a British version of Defence Secretary 'This milestone moment on hypersonics research, supported by British scientists and British small businesses, demonstrates another crucial area where we are working in lockstep with the United States to bolster our Armed Forces and strengthen our deterrence.' The engine, developed through a joint effort between the Defence Science and Technology Laboratory (Dstl), the US Air Force Research Laboratory, and UK industry players like Gas Dynamics Ltd, was successfully trialled at NASA's Langley Research Centre in Virginia. Over six weeks, scientists carried out 233 static tests across a range of supersonic and hypersonic speeds, analysing real-time data to tweak designs and boost performance. Paul Hollinshead, Chief Executive of Dstl, said: 'This milestone represents a critical advancement in the UK's defence capabilities and reinforces our standing in the AUKUS hypersonic weapon development collaboration. "The success of these tests highlights the UK's commitment to technological leadership and innovation in this crucial area.' What is the Iron Dome – and is it really effective? ISRAEL'S Iron Dome is a high-tech, all-weather mobile air defence system designed to intercept and destroy short-range threats like rockets, missiles, mortars and drones. The system is made up of at least 10 batteries placed strategically around the country. Each battery includes a radar detection system, a control centre to assess threats, and truck-towed launchers that fire radar-guided Tamir interceptor missiles. How does it work? The radar detects incoming projectiles and sends data to a central command that decides if the threat will hit a populated or strategic area. If it will, the system fires interceptors to destroy it mid-air – ignoring rockets headed for open spaces. Range & reach: The Iron Dome can take out targets launched from up to 43 miles away . Each launcher holds up to 20 interceptors , and the batteries together can protect nearly 60 square miles of land. Israel has worked on increasing the range to up to 155 miles and enabling the system to handle multiple threats from different directions. How effective is it? Very. Iron Dome has a reported success rate of around 90 per cent, according to its developer Rafael Advanced Defence Systems. It has intercepted thousands of rockets since its first combat use in 2011. During the 2021 conflict with Gaza, it stopped roughly 90 per cent of over 4,000 rockets fired into populated areas. In the October 2024 Iranian missile barrage, the system again proved its mettle, downing most of the 180 missiles fired. Limits under pressure: The system isn't invincible. On October 7, 2023, when Hamas fired thousands of rockets at once, it overwhelmed the system. Experts say there's a limit to how many incoming projectiles the Iron Dome can handle at once – and anything above that threshold can get through. Part of a trio: The Iron Dome is just one part of Israel's multi-layered defence network, alongside David's Sling (for medium-range missiles) and Arrow 2/3 (for long-range ballistic missiles), creating overlapping protection against a variety of aerial threats. Bottom line: Iron Dome is a battlefield game changer – incredibly effective against limited rocket fire, but not a silver bullet against massed missile barrages. 6 The Sceptre TrBM 155HG can be powered by diesel, JP-4, or JP-8 fuel Credit: Tiberius 6 It uses a ramjet engine, enabling supersonic speeds Credit: Tiberius 6 Chad Steelberg, CEO and founder of Tiberius Aerospace, described the state-of-the-art missile as a '10X solution' Credit: Tiberius
The Sun
24-05-2025
- Business
- The Sun
US unveils world's first supersonic artillery shell that can hit targets 100 miles away at a blistering 2,700mph speeds
THE US has revealed the world's first supersonic artillery shell, capable of striking targets 100 miles away at speeds of a blistering 2,700mph. Tiberius Aerospace, a UK - US defence firm, unveiled the Sceptre TrBM 155HG supersonic missile at the Future Artillery Conference in London. 6 6 The technological milestone can reach speeds of Mach 3.5 and soars to an altitude of 65,000 feet. This makes it impervious to countermeasures and GPS jamming systems. It uses a ramjet engine, enabling supersonic speeds and a range of up to 150km. The missile is equipped with AI technology, GPS, and a sensor system that corrects errors in real-time. An important feature is that the Sceptre TrBM 155HG can be powered by diesel, JP-4, or JP-8 fuel. Unlike typical solid- fuel missiles, the supersonic shell's fueling design boosts shelf life to over 20 years and cuts storage risks. The Sceptre's propulsion system also reduces reliance on niche energetics, letting the defence firm source fuel from established logistics networks and strengthening the supply chain. Chad Steelberg, CEO and founder of Tiberius Aerospace, described the state-of-the-art missile as a "10X solution" in range precision, cost-effectiveness, survivability and operational adaptability. He added: "This is a weapon designed for the future battlefield: fast, precise, and resilient in a denied environment." It comes after Britain hit a major milestone in the race for hypersonic supremacy – with a powerful new missile engine tested 233 times and hailed as a game changer for UK defence. Putin develops yet another secret new hypersonic missile - this time mini-sized - in bid to outdo West, as 6,100 mph Zircon to be tested next month The new air-breathing propulsion system, designed to fire cruise missiles at speeds of over five times the speed of sound, is part of a £1billion push to build a British hypersonic weapon by 2030. The breakthrough comes as military experts warn a British version of Israel's famed Iron Dome missile shield would be "too prohibitively expensive" to protect the entire UK – leaving cities exposed to attacks from Putin's rockets. Defence Secretary John Healey said: 'We are living in a more dangerous world and it has never been more important for us to innovate and stay ahead of our adversaries, equipping our forces with the technologies of the future. 'This milestone moment on hypersonics research, supported by British scientists and British small businesses, demonstrates another crucial area where we are working in lockstep with the United States to bolster our Armed Forces and strengthen our deterrence.' The engine, developed through a joint effort between the Defence Science and Technology Laboratory (Dstl), the US Air Force Research Laboratory, and UK industry players like Gas Dynamics Ltd, was successfully trialled at NASA's Langley Research Centre in Virginia. Over six weeks, scientists carried out 233 static tests across a range of supersonic and hypersonic speeds, analysing real-time data to tweak designs and boost performance. Paul Hollinshead, Chief Executive of Dstl, said: 'This milestone represents a critical advancement in the UK's defence capabilities and reinforces our standing in the AUKUS hypersonic weapon development collaboration. "The success of these tests highlights the UK's commitment to technological leadership and innovation in this crucial area.' What is the Iron Dome – and is it really effective? ISRAEL'S Iron Dome is a high-tech, all-weather mobile air defence system designed to intercept and destroy short-range threats like rockets, missiles, mortars and drones. The system is made up of at least 10 batteries placed strategically around the country. Each battery includes a radar detection system, a control centre to assess threats, and truck-towed launchers that fire radar-guided Tamir interceptor missiles. How does it work? The radar detects incoming projectiles and sends data to a central command that decides if the threat will hit a populated or strategic area. If it will, the system fires interceptors to destroy it mid-air – ignoring rockets headed for open spaces. Range & reach: The Iron Dome can take out targets launched from up to 43 miles away. Each launcher holds up to 20 interceptors, and the batteries together can protect nearly 60 square miles of land. Israel has worked on increasing the range to up to 155 miles and enabling the system to handle multiple threats from different directions. How effective is it? Very. Iron Dome has a reported success rate of around 90 per cent, according to its developer Rafael Advanced Defence Systems. It has intercepted thousands of rockets since its first combat use in 2011. During the 2021 conflict with Gaza, it stopped roughly 90 per cent of over 4,000 rockets fired into populated areas. In the October 2024 Iranian missile barrage, the system again proved its mettle, downing most of the 180 missiles fired. Limits under pressure: The system isn't invincible. On October 7, 2023, when Hamas fired thousands of rockets at once, it overwhelmed the system. Experts say there's a limit to how many incoming projectiles the Iron Dome can handle at once – and anything above that threshold can get through. Part of a trio: The Iron Dome is just one part of Israel's multi-layered defence network, alongside David's Sling (for medium-range missiles) and Arrow 2/3 (for long-range ballistic missiles), creating overlapping protection against a variety of aerial threats. Bottom line: Iron Dome is a battlefield game changer – incredibly effective against limited rocket fire, but not a silver bullet against massed missile barrages. 6 6 6
