用于未来攻防任务的下一代冲压发动机燃料推进系统已完成测试
Next-Gen Ramjet Fuel Propulsion System For Future Offensive, Defensive Missions Tested

原始链接: https://www.zerohedge.com/military/next-gen-ramjet-fuel-propulsion-system-future-offensive-defensive-missions-tested

L3Harris 已成功完成新型固体燃料冲压发动机的全尺寸地面测试,标志着下一代推进技术取得重大进展。该新型燃料颗粒配方旨在满足美国国防部对高性能、远程且经济实惠武器系统的要求,其设计大幅降低了成本,优于过往的行业标准。 在测试过程中,该系统在模拟飞行环境中运行,所得性能数据与设计预期相符。这一里程碑是降低风险的关键一步,在进入战术飞行演示前验证了各项核心指标。 通过利用现代化制造技术,并得益于对 Aerojet Rocketdyne 的收购,L3Harris 旨在生产可扩展的高速推进解决方案,以超越现代防空网络。此次成功凸显了该公司致力于为作战人员提供卓越的射程和速度,同时确保在必要的规模和成本效率下进行生产,从而保持战略优势。随着公司加速实现全面的战术应用,后续的地面测试已列入计划。

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原文

Authored by Prabhat Ranjan Mishra via Interesting Engineering,

L3Harris has taken a significant step toward advancing next-generation propulsion technology for future offensive and defensive missions.

The approach marks an essential risk reduction step in enabling solid fuel ramjet propulsion to help close a critical performance, and cost gap. (Representational image)

The company revealed that a recent test demonstrated progress toward a high-performance, lower-cost propulsion option. The test also met the Department of War's goal to provide superior advanced weapon systems, at affordable mass, that will outpace adversaries and expand the range of solutions available to the warfighter.

"This test is an important step in proving solid fuel ramjet propulsion can deliver the speed, range and affordability our customers need," said Scott Alexander, President, Missile Propulsion, L3Harris.

"We are reducing risk now so we can move faster toward a scalable capability for the warfighter."

Full-Scale Test Of New Solid Fuel Ramjet Fuel Grain

L3Harris highlighted that the event marked the company's first full-scale test of a new solid fuel ramjet fuel grain specially formulated to significantly reduce the cost of fuel when compared to historical industry standards.

During the ground test, the team ignited and operated the system in a direct connect flight-representative environment, allowing engineers to evaluate performance across a large portion of the simulated flight envelope. Initial results showed propulsion levels were consistent with expectations for flight operation, giving the team valuable data as it continues to refine the design towards tactical missile system demonstration, according to a press release.

Disciplined Approach Marks An Essential Risk Reduction

This test event helps validate key performance characteristics as L3Harris accelerates towards flight testing, and this disciplined approach marks an essential risk reduction step in enabling solid fuel ramjet propulsion to help close a critical performance and cost gap for the U.S. military and allies.

"We are answering the Department of War's call for longer-reach, more capable, lower-cost propulsion that is producible at the scale needed," said Joel Warhurst, Director, Business Development, L3Harris.

"We are designing for manufacturing, performance and production capacity with a straightforward goal of more speed, more range at a cost point that supports affordable mass."

With additional ground testing planned, the company is moving quickly from test data and refinement to tactical missile flight demonstration - advancing a propulsion solution designed for the speed, scale and affordability future missions will require, as per the release.

The latest test also demonstrates the company's expanding expertise in advanced propulsion technologies following its acquisition of Aerojet Rocketdyne's missile propulsion business. By combining propulsion innovation with modern manufacturing techniques, L3Harris aims to accelerate the delivery of next-generation missile systems to military customers.

As global defense requirements continue to evolve, advanced ramjet propulsion is expected to play a crucial role in future missile systems by providing higher sustained speeds, extended engagement ranges, and improved survivability against sophisticated air defense networks. The successful demonstration positions L3Harris as one of the key industry players working to advance high-speed propulsion technologies for future operational needs.

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