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Repeatability in performance is what differentiates a working prototype from a working subsystem. Humbled to share a video of the repeatability test performed on our single piece, fully 3d printed, semicryogenic, 1 meter long Agnite engine. Seeing the pressure and temperature plots from the previous test match the same...

12,087 次观看 • 3 个月前 •via X (Twitter)

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Humbled to announce the successful firing of our single piece Agnite engine. Agnite engines power Agnibaan’s booster stage. These engine chambers are a full meter long, fully 3d printed as a single piece of hardware and made of Inconel. Agnite engines are driven by pumps that are controlled and operated by electric motors. Thanks to ISRO & IN-SPACe for their constant support and to IIT Madras for being our home turf from which this kind of technology is built. This Agnite engine was printed, depowdered and post processed in the same machines that we inaugurated as a part of our Large Format Additive Metal Manufacturing facility (LFAMM) towards the end of last year. This milestone is also significant for us because it completes one end-to-end cycle of design, manufacturing, assembly and testing of our larger engines, in-house. Amazing work by the team in pulling off a few world firsts here. - world’s first single piece engine of this size being fired - world’s largest inconel only engine - world’s only electric motor fed, semi cryo engine of this size and the list continues. However, this is not a race to be the world's first, it is a race to be the world's best & to be the world's most useful technology for launching small satellites to orbit. This comes right after firing a cluster of 3 semi cryogenic engines that happened last month. Honoured to be working with a team that truly believes in building world class, original space technology for the world, from India. Srinath Ravichandran MOIN SPM Satyanarayanan Chakravarthy IIT Madras IITMRP IIT Madras Incubation Cell Technology Development Board DSTIndia Anusandhan National Research Foundation TIDCO Startup India StartupTN Guidance Tamil Nadu Kerala Startup Mission ISRO IN-SPACe #agnibaan #agnite #singlepiecerocketEngine #3dprintedrocketengines #madeinIndiafortheworld #designedInIndiaFortheWorld #Agnikul

AgniKul Cosmos

63,265 次观看 • 3 个月前

Humbled to share that we successfully test fired 4 semi-cryogenic rocket engines simultaneously, as a cluster. All the 4 engines are 3d printed as single pieces of hardware - designed and manufactured in-house at AgniKul Cosmos Rocket Factory - 1. As with all our propulsion systems, these 4 engines are also powered by electric motor driven pumps. This test involved calibrating 8 pumps, 8 motors and tuning 8 speed control algorithms to work together in perfect sync to achieve uniform startup, steady state and shutdown performance across the entire system. As with the last cluster test, to the best of our knowledge, this is the first time such a test has been performed in India with semi cryogenic engines. We are extremely grateful to have the opportunity to be building world class, original space technology from India, for the world with the support of IIT Madras ISRO and IN-SPACe From here on, the addition of engines to our clusters will likely increase non-linearly. #Agnibaan #RocketEngineCluster #ElectricPumpFedEngines #Agnilet #SinglePieceEngine #3dprinting #RocketEngineTest #AdditiveManufacturing #Agnikul #AgnikulCosmos #StartupIndia #MakeinIndia #madeinIndiaForTheWorld Srinath Ravichandran MOIN SPM Satyanarayanan Chakravarthy IIT Madras IITMRP IIT Madras Incubation Cell Technology Development Board DSTIndia Anusandhan National Research Foundation TIDCO Startup India StartupTN Guidance Tamil Nadu Kerala Startup Mission SIPCOT

AgniKul Cosmos

115,706 次观看 • 1 个月前

After years of development, testing and refinement, we are printing one of our last Hadfield-10 rocket engines, a bittersweet moment 🫡 More of our team is transitioning toward getting our much larger orbital-class Hadfield-100 engine ready for the test stand, and getting Canada to orbit for the first time with our Tundra rocket. The pressure-fed Hadfield-10 series has been the backbone of NordSpace's propulsion program since our earliest days. It's the engine that proved we could design, manufacture, test and fly liquid rocket engines from scratch, entirely in-house, at the pace necessary to reach orbit. It powered our first successful hot-fire tests, survived our most demanding qualification campaigns, and gave our team the hard-won knowledge that no textbook or simulation could provide. It also powers our Taiga sub-orbital vehicle, which is taking flight in a few weeks. Every experimental lesson learned in its development from combustion stability, regenerative cooling, additive manufacturing, and test operations lives on in what comes next. That knowledge now flows directly into our turbopump fed Hadfield-100 engine, the most powerful rocket engine in Canadian history. Designed to power our orbital Tundra rocket to deliver 500+ kg to LEO and scaling further to 1,100 kg LEO in the Tundra+ configuration. Architected from day one to grow to the thrust levels required for our reusable Titan medium-lift vehicle targeting 5,000+ kg to LEO while striking the right balance between performance, scalability, heritage, and speed of development to meet the Government of Canada's targets. The Hadfield-10's design will also form the foundation of our SHARP Sabre hypersonic rocket's M2S-HyRock engine. The full shift to the Hadfield-100 is a major milestone for us, and it's not just about more powerful engines. The infrastructure we're developing from moving to a much larger facility, acquiring much larger metal 3D printers, developing new test cells, and pursuing rigorous standards all feed in to this next phase of growth for our program. To everyone on the NordSpace team who designed, printed, tested, and refined these engines across so many late nights, early mornings and weekends, thank you. This chapter made everything that follows possible, and the next one starts now. Ad astra per aspera 🚀🇨🇦 National Defence Canadian Space Agency Defence Research and Development Canada Canadian Armed Forces Transport Canada

NordSpace 🇨🇦

42,533 次观看 • 4 个月前

Success! 🚀 🇨🇦 At 3:45 PM EDT on Friday May 16th, 2025, we successfully tested both our new orbital Darkhorse engine test cell and our new third generation 3D printed Hadfield liquid rocket engine for the first time, marking a significant step towards Canada’s first commercial space launch. The test ran for 7 seconds at our propulsion test range, a company-owned secure site in Northeastern Ontario, successfully delivering nominal thrust, active cooling, and impulse results. This major test of the Darkhorse test cell and Hadfield Mk III engine lays the groundwork for NordSpace's Tundra orbital rocket, as the test cell is specifically designed to integrate with our turbo pump assembly in the next phase of propulsion development. Long duration tests are scheduled for the coming days, along with refinements to fuel mixture ratios and higher-pressure scenarios to test the limits of Darkhorse and our new engines. Minor upgrades and fixes to address a harmless leak in the cryogenic liquid oxygen line and design changes to our experimental control rods have already been made. Hot on the heels of our successful integrated test of our Taiga sub-orbital launch vehicle back in January, rapid developments and approvals at our spaceport in Newfoundland and Labrador, announcement of the SHARP (Supersonics and Hypersonics Applications Research Program), hosting the inaugural Canadian Space Launch Conference in Ottawa, and more - NordSpace is strengthening its position every day to ensure sovereign space launch is not just possible, but probable for Canada. Our historic first experimental flight is scheduled for 2025 from our spaceport, Spaceport Canada. NordSpace's CEO and founder, Rahul Goel, said “This successful test is not only a testament to NordSpace’s unmatched technical competency, but also to the success of our new project management framework, design philosophy, and engineering mindset used to deliver results for complex projects on time and within budget. Success on the first try with countless potential sources of failure is not common in the development of complex rocket systems, but our team succeeded by prioritizing first principles engineering. This test confirmed that we do have the right stuff, and that we will deliver this incredibly important sovereign launch capability for all Canadians. Like the land, air, and sea, space is no longer some final frontier for Canada. Space is an essential domain we must unlock, and launch a capability we must own. Without it, we are jeopardizing not only our security, sovereignty and economy, but are also relegating Canada to a participatory instead of a leadership role on the world stage. We must not let this happen.”

NordSpace 🇨🇦

50,877 次观看 • 1 年前

NordSpace is pleased to announce a groundbreaking Canada-Germany R&D collaboration and funding towards medium-lift rocket engine development with Fraunhofer ILT, receiving advisory services and up to $335,000 from the National Research Council of Canada Industrial Research Assistance Program (NRC IRAP). This collaboration will support a research and development project that will advance our large format multi-material additive manufacturing capabilities for medium-lift rocket engines. This collaboration between NordSpace, the Fraunhofer Institute for Laser Technology, and SWMS (Systemtechnik Ingenieurgesellschaft mbH) builds upon the recent launch of our Advanced Manufacturing for Aerospace Lab (AMA Lab), and marks an important step toward our ongoing efforts to advance orbital launch vehicles that are fully scalable from light to medium-lift payload capacities. NordSpace's Tundra and Tundra+ light lift vehicles, capable of 500 kg and 1,100 kg to LEO respectively, are being designed specifically to scale to the medium-lift Titan vehicle (5,000 kg+ to LEO) by the early 2030s. This advanced manufacturing project for space propulsion harnesses breakthrough methods such as large volume, high-speed, high-resolution, multi-metal deposition to optimize rocket engine design, fabrication, and testing. NordSpace will partner with Fraunhofer ILT – the German research institute that has developed the world-leading EHLA laser-based high-speed additive manufacturing capability, and SWMS – the German company that has developed the CAESA software for AI-powered advanced manufacturing path planning optimization. This collaborative project will support NordSpace in developing next-generation, large-scale, regeneratively cooled liquid engines, validated through rigorous hot-fire test campaigns and positioned for flight qualification and commercial scale-up.​​ This announcement builds on NordSpace’s AMA Lab launched earlier this year with Ontario Centre of Innovation support and another advanced manufacturing project that received funding from the Canadian Space Agency. The AMA Lab has already accelerated the design of our 3D-printed Hadfield engines and enhanced development cycles through AI-driven design methodologies and direct validation at our test range. Now, this new Canada-Germany collaborative R&D project will go further into efficient production methods for these advanced rocket engines. We will also present updates on this initiative at the Canadian Space Launch Conference on May 5, 2026 in Ottawa. NRC Canada Canadian Space Agency National Defence Defence Research and Development Canada Transport Canada Ontario Centre of Innovation (OCI) Fraunhofer-Gesellschaft Fraunhofer-Gesellschaft

NordSpace 🇨🇦

26,703 次观看 • 5 个月前

Last week, we pushed our Hadfield MK IV engine and Darkhorse engine test cell to their limits ahead of our upcoming thrust vector control (TVC) and orbital engine test campaigns. It was thrilling to see this controlled test go sideways — literally! Orbital launch vehicles operate within narrow design margins and constrained safety factors, where excess mass in any subsystem directly impacts payload capacity or mission viability. Destructive and limit testing enable us to validate optimal mass-performance trade-offs across propulsion, pressure systems, and primary structures. Key outcomes from this test include: ✅ Structural margins validated – Darkhorse demonstrated stable operation under full thrust loads at gimbal angles exceeding design specifications ✅ Thermal performance characterized – Extended burn duration at off-nominal mixture ratios provided empirical data on regenerative cooling degradation modes and injector thermal limits ✅ Fault tolerance demonstrated – Engine maintained functionality despite progressive damage, validating robustness for anomalous flight conditions ✅ TVC readiness confirmed – Test results validate system integration for upcoming actuated TVC test series l Design optimization insights – Failure mode analysis generated actionable improvements for cooling architecture, injector design, thrust structures, and engine reusability At NordSpace, we push limits. Canada needs to get to orbit with sovereign light-lift launch by 2028 and medium-lift launch by the early 2030s. The only way this is possible is through extreme levels of testing, manufacturing, and investment. Our mission to build a Canadian end-to-end space missions capability will change the shape of our nation both on Earth and in space. If you would like to join our mission, please apply for a role at NordSpace via the Careers page on our website, and join us at the Canadian Space Launch Conference on May 5th, in Ottawa. National Defence Defence Research and Development Canada NSERC / CRSNG Canadian Space Agency Transport Canada

NordSpace 🇨🇦

11,704 次观看 • 5 个月前

I was happy to receive the "Outstanding Higher Education Stalwart of the Year" award for 2024 from The Economic Times (Economic Times) last night in Delhi. Of course, there is still so much to do. I returned from the US in 1998 to join IIT Bombay (IIT Bombay) as a faculty member. After 25 years in the IIT system (18 years as a faculty member in IIT Bombay and 7 years in IIT Delhi, of which 6 years as the Director of IIT Delhi), I am now with the BITS Pilanii as a group Vice Chancellor since March 2023. All these three institutions happen to be the Institutions of Eminence (IoE) as recognized by the Ministry of Education Ministry of Education, Govt of India. #IIT Delhi received the #IoE status during my time as the Director IIT Delhi following a highly competitive process. Higher education needs major structural #reforms in India. We are archaic when it comes to managing our best institutions. While Public institutions are dependent on Govt of India for 90% of their funding, Private institutions are dependent on tuition fee for 90% of their sustenance. Both are flawed #financial #models. We need to develop a #diversified financial model where endowments, overheads on research and tuition fee contribute an equal share. It requires major #policy tweaks. We need to seriously look at Study Now-Pay Later kind of models on the lines of Australia's HELP scheme. American higher education funding models burden the students with #debt. So much needs to be done in this space in India. Without a proper financial model in place, our institutions are totally at the mercy of bureaucrats and politicians. State #universities are already on their knees and it won't be long before the same happens with our centrally funded Institutions. Industry is the bridge between #research (generation of knowledge) and #innovation (utilization of knowledge for public good). With India ranked 66th among the 130 countries when it comes to academia-industry collaborations, it's clear what we need to do to promote innovation. It's again the Government which needs to make favorable policies for promoting #academia-#industry collaborations. Hope to see some of these #reforms taken up by the new government.

V. Ramgopal Rao, Ph.D.

11,825 次观看 • 2 年前

That’s a wrap! NordSpace has successfully completed an intense month long campaign to qualify and test the limits of our Hadfield Mk III liquid rocket engine - metal 3D printed, regen cooled, and Earth-shakingly powerful. Next up is our first flight, scheduled for this summer, which will make Canadian history as the nation’s first commercial launch from a commercial spaceport 🇨🇦 Assured access to space will completely reshape Canada’s sovereignty, security, and economy. NordSpace is working around the clock to ensure this future for our nation by building an end-to-end space missions company backed by a launch and propulsion architecture designed to be competitive in the modern launch era: ✅ Scalable to medium lift (~5 tonnes to orbit) to address the most profitable and critical commercial and defence markets ✅ Rapidly reusable to drastically reduce cost and increase launch cadence ✅ Highly portable for tactical responsive launch and low operational overhead Our Hadfield Mk III engine was our most successful iteration yet. We achieved many new feats: ➡️ 24-hour turnaround and rapid refurbishment of the engine after multiple tests, developing our pipeline for future rapid reusability ➡️ Perfect operation of our new Darkhorse engine test cell, built to support tests of our orbital Hadfield and Garneau engines and turbopump systems ➡️ Reduced time between engine tests to 20 minutes, allowing for countless back-to-back firings ➡️ Significant technology upgrades to boost personnel safety and efficiency including NordLink to allow for full automation and remote management of engine tests Stay tuned for some major updates about our launch, satellite, spaceport, and defence programs ranging from the Atlantic all the way to the Arctic!

NordSpace 🇨🇦

16,440 次观看 • 1 年前

Here is one of our experimental 3D printed Hadfield liquid rocket engines going through some thrust vector control (TVC) profiles! As we scale to our first light-lift orbital launch vehicle, Tundra, and then our medium-lift reusable launch vehicle, Titan, precise control of the rocket at every phase of flight is critical to mission success. Guiding a rocket to orbit, and eventually back to Earth, demands close coordination across every sub-team. Some of the key challenges we’re tackling: ➡️ Reliable & repeatable TVC actuation: ensuring the engine gimbal responds consistently across every test and flight ➡️ High-frequency control loops: real-time systems that keep the vehicle stable from liftoff to orbital insertion ➡️ Propellant sloshing: accounting for the movement of fluids in tanks and its effect on vehicle dynamics ➡️ Wind shear compensation: countering atmospheric disturbances during ascent ➡️ Structural bending & flex modes: managing how the vehicle’s primary structure responds to aerodynamic and thrust loads ➡️ Precision payload delivery: hitting the exact target orbit, every time Our team at NordSpace has been advancing our propulsion systems on many fronts, as we work to unveil our orbital-scale, pump-fed Hadfield and Garneau rocket engines in the near future — the engines that will carry Canada to orbit for the first time, and unlock sovereign access to space. Check out some of our rocket hardware, meet our engineers, join over 400 attendees and over 40 speakers at the Canadian Space Launch Conference, taking place this May 5th in Ottawa. National Defence Defence Research and Development Canada Canadian Space Agency NSERC / CRSNG

NordSpace 🇨🇦

48,876 次观看 • 4 个月前

We’re proud to reveal our powerful new in-house 3D printed Hadfield Engine Mk III - 100% designed, manufactured, tested and flown in Canada by NordSpace. With this new version, we are bringing massive improvements to thrust and regenerative cooling as we prepare for our first flight this year and make Canadian history. Seeing this engine come to life after months of painstaking design, analysis, testing, and refinement was a breathtaking moment for the entire NordSpace team. This version of the Hadfield Engine also marks our first engine designed to transition NordSpace from pressure fed systems to turbo pump fed cycles (currently under active development) and very long duration burns. These would be massive leaps forward for Canada’s orbital space launch ambitions and sovereign assured access to space. Our team has developed unique mastery over metal 3D printing complex aerospace components to produce flawless prints like this engine with challenging internal geometries, angles, and features. As for next steps, this engine will be post processed, inspected, and heat treated all in-house, then shipped to our new Darkhorse propulsion test cell at our Canadian Space Research Range. Keep an eye out for some epic hotfire footage coming soon as we turn up the heat and accelerate our pace of development at NordSpace. We’re just getting started! We will have our three generations of the Hadfield Engine and more on display at the inaugural Canadian Space Launch Conference on April 29th in Ottawa. With only a week left to register, join nearly 200 people all playing a role to bring sovereign space launch capabilities to Canada

NordSpace 🇨🇦

19,655 次观看 • 1 年前

Hey Canada, we have a spaceport! 🇨🇦🚀 NordSpace's beautiful Atlantic Spaceport Complex (ASX) is officially under construction outside the town of St. Lawrence, in Newfoundland and Labrador! With our first launch of a Canadian commercial rocket from a Canadian commercial spaceport set to take flight in the coming weeks, the future of a true sovereign capability for assured access to space has never looked so promising. We're thrilled to share footage of ASX's SLC-02 publicly for the first time. ASX will support NordSpace’s first commercial launch of our Taiga suborbital rocket with Taiga's launch window opening on August 25th 2025. Taiga is powered by the company’s proprietary 3D-printed Hadfield Mk III liquid rocket engine, and the mission is named "Getting Screeched In". The launch window is subject to road and power interruptions due to the ongoing state of emergency in Newfoundland and Labrador. This launch follows a series of successful tests, including a fully integrated rocket test and a month-long qualification campaign for the Hadfield Mk III engine. Both demonstrated rapid refurbishment capabilities and turnarounds between tests, paving the way for reusable and cost-effective launch operations from Canadian soil. ASX is designed to support our Tundra orbital launch vehicle and partner launch vehicles, facilitating a wide range of orbital and suborbital missions situated at a 46 degree latitude. The initial $10M phase of development for the Atlantic Spaceport Complex will feature two sites: 🚀 SLC-01 will feature two launch pads for orbital missions including NordSpace’s Tundra vehicle and international launch partners from the U.S. and Europe. 🚀 SLC-02 will consist of at least one smaller launch pad for suborbital missions, radar systems for vehicle tracking and space domain awareness, and other ground support equipment to enable all launch operations at the ASX. The ASX will also support NordSpace’s broader portfolio, including our SHARP (Supersonic and Hypersonic Applications Research Platform) program. NordSpace’s CEO and founder, Rahul Goel, said, “The start of construction at the Atlantic Spaceport Complex is a seminal moment for Canada. This is not just about building a launch site; it’s about building a future where Canada leads in space exploration, innovation, and security. The ASX is critical national infrastructure that will unlock assured access to space, ensuring our sovereignty and fostering economic growth for generations. We are committed to making the vision of a true sovereign end-to-end space missions capability a reality, and today’s groundbreaking is a testament to our team’s relentless dedication, speed, and capability.” We thank Government of Newfoundland & Labrador, Transport Canada, National Defence, Canadian Space Agency and NAV CANADA for their support.

NordSpace 🇨🇦

65,478 次观看 • 11 个月前