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Changing shape in flight: how China's new hypersonic ramjet works
Italy🏛️ Politics20 hr. ago

Changing shape in flight: how China's new hypersonic ramjet works

The article discusses a Chinese breakthrough in hypersonic jet engine technology, specifically a variable geometry ramjet capable of adjusting its internal configuration during flight. The system was tested under simulated high-speed conditions and reportedly operated continuously from Mach 1.8 to Mach 6, surpassing traditional ramjets' capabilities. The innovation lies in its ability to dynamically adjust airflow in real-time, improving combustion efficiency and reducing reliance on auxiliary systems. Developed through collaboration between the Northwestern Polytechnical University and the Beijing Power Machinery Institute, the design uses a double-seal system involving ceramic fiber and graphite to minimize gas leakage, achieving up to a 1.9% reduction in losses compared to previous tests. The advancement highlights China's growing expertise in advanced aerospace technologies and underscores the strategic importance of materials like graphite, which the country controls significantly and has restricted exports of high-purity variants to the U.S.

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Il Giornale logoIl GiornaleParty-alignedCenter20 hr. ago
Changing shape in flight: how China's new hypersonic ramjet works

The article discusses a Chinese breakthrough in hypersonic jet engine technology, specifically a variable geometry ramjet capable of adjusting its internal configuration during flight. The system was tested under simulated high-speed conditions and reportedly operated continuously from Mach 1.8 to Mach 6, surpassing traditional ramjets' capabilities. The innovation lies in its ability to dynamically adjust airflow in real-time, improving combustion efficiency and reducing reliance on auxiliary systems. Developed through collaboration between the Northwestern Polytechnical University and the Beijing Power Machinery Institute, the design uses a double-seal system involving ceramic fiber and graphite to minimize gas leakage, achieving up to a 1.9% reduction in losses compared to previous tests. The advancement highlights China's growing expertise in advanced aerospace technologies and underscores the strategic importance of materials like graphite, which the country controls significantly and has restricted exports of high-purity variants to the U.S.

Bias read (Center): While the article focuses on technological advancements with potential military implications, it presents the information objectively without overtly favoring any geopolitical stance. It reports on China's scientific progress and material control without explicitly criticizing or praising the nation

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