China has successfully tested a new satellite engine with a record-breaking operational duration, marking a significant advancement in aerospace propulsion technology. The engine, developed by the China Academy of Aerospace Propulsion Technology, produced 750 newtons of thrust and operated for over 14 hours during testing, surpassing the typical seven-hour design limit of existing engines like the US-made R-42DM and Europe’s Leros-1B. This achievement allows for more efficient and reliable deployment of large communications, military, and deep-space satellites. The engine was used in a mission to place the Communications Technology Experiment Satellite 26A into orbit approximately 35,800 km above Earth. The extended operation was made possible through a specialized heat- and oxidation-resistant coating, ensuring performance remained unaffected despite the longer runtime.
Lectura del sesgo (Izquierda): The article highlights China's technological advancements in aerospace engineering, emphasizing national achievements and positioning them as superior to Western counterparts. While the content is primarily technical, the framing underscores China's progress in a competitive global context, which is
Por qué estas puntuaciones (Veracidad 90 · Objetividad 85): Factuality is high as the article provides specific technical details about the Chinese satellite engine test, aligning with cross-source consensus on the performance metrics. Objectivity is slightly lower due to the emphasis on China's achievement compared to U.S. and European systems, which may im






