Bir Savaş Uçağının Burun İniş Takımının Yapısal Analizi

Year 2022, Issue: 43, 126 - 135, 30.11.2022

Gözde Aydın , İbrahim Ozkol

https://doi.org/10.31590/ejosat.1200620

Cited By: 1

Abstract

Uçaklardaki en önemli mekanik sistemlerden biri olan iniş takımı, uçağın yaşam döngüsü boyunca maruz kaldığı en önemli ve kritik yüklerden biri olan iniş yüklerine maruz kalan yapıdır. İniş takımı sisteminin bu yüklere karşı yüksek dayanıma sahip olmasının yanı sıra uzun ömür, yüksek performans, düşük hacim, minimum ağırlık ve düşük maliyet önemli kriterlerdendir. Bu amaçla iniş takımı sonlu elemanlar yöntemi kullanılarak yapısal analiz yapılır ve optimum tasarım oluşturulur. Bu çalışmanın temel amacı, bir savaş uçağının burun iniş takımının yapısal analizini yaparak mukavemet kriterlerini analiz etmektir. Tasarım için, iniş durumundaki en kritik statik ve dinamik yükler hesaplanmış ve düşey, yan ve sürükleme kuvvetleri olarak uygulanmıştır. Burun iniş takımı çatalı, tork bağlantıları, yan destek kolları ve ana dikmede, Alüminyum 7075 T6 alaşımı, Titanyum Ti-6Al-4V alaşımı, PH13-8Mo, 300M Çelik, SAE 1035 ve AISI 4340 çelik alaşımı gibi metalik malzemeler kullanılarak nihai sonuç olarak elde edilen deplasman ve gerilme değerleri karşılaştırıldı. Analiz sonuçlarından parçaların güvenliği incelenmiştir. CAD çizimleri Siemens NX ve ANSYS SpaceClaim programı kullanılarak yapılmıştır. Sonlu elemanlar yöntemini kullanan ANSYS Workbench programı ile yapısal analiz uygulanmıştır.

Keywords

İniş Takımı, Statik Yapısal, Malzemeler, Gerilme, Deformasyon, ANSYS

Structural Analysis of the Nose Landing Gear of a Fighter Aircraft

Abstract

The landing gear, which is one of the most important mechanical systems in aircraft, is the structure that is exposed to landing loads, one of the most important and critical loads that the aircraft is exposed to throughout its life cycle. In addition to the fact that the landing gear system must have high strength to these loads, long life, high performance, low volume, minimum weight, and low cost are important criteria. For this purpose, the optimum design is created by making a structural analysis using the landing gear finite element method. The main purpose of this study is to analyze the strength criteria by performing the structural analysis of the nose landing gear of a fighter aircraft. For the design, the most critical static and dynamic loads in the landing condition were calculated and applied as vertical, side, and drag forces. The displacement and stress values obtained as the final result by using metallic materials such as Aluminum 7075 T6 alloy, Titanium Ti-6Al-4V alloy, PH13-8Mo, 300M Steel, SAE 1035, and AISI 4340 steel alloy in the nose landing gear fork, torque links, side stay arms, and main strut were compared. The safety of the parts was examined from the results of the analysis. CAD drawings were made using Siemens NX and ANSYS SpaceClaim program. Structural analysis was applied with the ANSYS Workbench program, which uses the finite element method.

Keywords

Landing Gear, Static Structural, Materials, Stress, Deformation, ANSYS

References

• Arunagiri, P., Vijayakumar, Ayesha Khan, M., & Jani, S.P. (2022). Structural analysis and materials deformations of landing gear. Materials Today: Proceedings.
• Raymer, D. (2018). Aircraft design: a conceptual approach. American Institute of Aeronautics and Astronautics, Inc. Basavaraddi, S.R., Manonmani, K.N., & Swami, P. (2015). STRESS AND FATIGUE ANALYSIS OF LANDING GEAR AXLE OF A TRAINER AIRCRAFT. International Journal of Research in Engineering and Technology, 04, 224-228.
• Conway, H. G. (1958). Landing gear design. Chapman & Hall.
• Currey, N. S. (1988). Aircraft landing gear design: principle and practices. AIAA Education Series, Washington, D.C.
• Dileep, E., Oblisamy, L., Krithiga, R.S., & Jacob, J. (2016). Structural Analysis of Aircraft Landing Gear During Rough Landing. International journal of engineering trends and technology, 41, 256-261.
• Jeevanantham, V., Vadivelu, & Manigandan, P. (2017). Material Based Structural Analysis of a Typical Landing Gear.
• Gowda, A.C., & Basha, S.N. (2014). Linear Static and Fatigue Analysis of Nose Landing Gear for Trainer Aircraft.
• Gudmundsson, S. (2014). General aviation aircraft desing: Applied methods and procedures. ELSEVIER.
• Nguyen, T. (2010). FINITE ELEMENT ANALYSIS OF A NOSE GEAR DURING LANDING.
• Prasad, V., Reddy, P.K., Rajesh, B., & Sridhar, T. (2020). DESIGN AND STRUCTURAL ANALYSIS OF AIRCRAFT LANDING GEAR USING DIFFERENT ALLOYS. Internatıonal Journal Of Mechanıcal Engıneerıng And Technology (IJMET).
• Rajesh, A.R., & Bt, A. (2015). Design and Analysis Aircraft Nose and Nose Landing Gear. Journal of Aeronautics and Aerospace Engineering.
• Raju, M.M., Patan, S. (2017). DESİGN AND STRENGTH ANALYSİS OF NOSE LANDİNG GEAR. International Journal and Magazine of Engineering, Technology, Management and Research, 04, 71-75.
• Sadraey, M. H. (2013). Aircraft design: A systems engineering approach. John Wiley and Sons.
• Schmidt, R. K. (2021). The design of aircraft landing gear R-455. SAE International, 2021.
• United States., Battelle Memorial Institute., William J. Hughes Technical Center (U.S.), United States., & United States. (2019). MMPDS-14: Metallic materials properties development and standardization (MMPDS).