
Adaptive Airbrake Systems: Design, Integration, and Certification for Modern Aircraft (eBook, ePUB)
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Adaptive Airbrake Systems: Design, Integration, and Certification for Modern Aircraft is a comprehensive and authoritative guide to the aerodynamics, actuation, and system-level engineering of aircraft airbrakes and speed-brake surfaces. Grounded in rigorous physics and control theory, the book unpacks the interplay between aerodynamic performance, mechanical and electrical actuation options, sensor suites, and human-machine interfaces, while contextualizing design choices within global regulatory frameworks and airworthiness requirements.Moving from fundamentals to advanced practice, the text...
Adaptive Airbrake Systems: Design, Integration, and Certification for Modern Aircraft is a comprehensive and authoritative guide to the aerodynamics, actuation, and system-level engineering of aircraft airbrakes and speed-brake surfaces. Grounded in rigorous physics and control theory, the book unpacks the interplay between aerodynamic performance, mechanical and electrical actuation options, sensor suites, and human-machine interfaces, while contextualizing design choices within global regulatory frameworks and airworthiness requirements.
Moving from fundamentals to advanced practice, the text delves into component engineering, materials and manufacturing, fault-tolerant architectures, and advanced control strategies that enable adaptive, mission-aware braking performance. It covers the latest in actuator and valve technology, lightweight composite surfaces, model-based design, digital twins, AI-enhanced simulation, and hardware-in-the-loop testing, with special emphasis on seamless integration into flight-control systems, handling-quality preservation, and predictive diagnostics for maintenance and safety assurance.
Looking ahead, the book addresses the certification, cybersecurity, and sustainability challenges unique to tomorrow's airbrake systems, including lifecycle engineering, green manufacturing, and the shift toward electric and hybrid actuation. Practical guidance on compliance, verification, and validation is paired with explorations of IoT-enabled health monitoring, edge computing, and smart materials, equipping engineers, researchers, and technical leaders with the tools to design, integrate, and certify adaptive airbrake solutions for the next generation of aircraft.
Moving from fundamentals to advanced practice, the text delves into component engineering, materials and manufacturing, fault-tolerant architectures, and advanced control strategies that enable adaptive, mission-aware braking performance. It covers the latest in actuator and valve technology, lightweight composite surfaces, model-based design, digital twins, AI-enhanced simulation, and hardware-in-the-loop testing, with special emphasis on seamless integration into flight-control systems, handling-quality preservation, and predictive diagnostics for maintenance and safety assurance.
Looking ahead, the book addresses the certification, cybersecurity, and sustainability challenges unique to tomorrow's airbrake systems, including lifecycle engineering, green manufacturing, and the shift toward electric and hybrid actuation. Practical guidance on compliance, verification, and validation is paired with explorations of IoT-enabled health monitoring, edge computing, and smart materials, equipping engineers, researchers, and technical leaders with the tools to design, integrate, and certify adaptive airbrake solutions for the next generation of aircraft.
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