Stiffness Optimization of Squirrel Cage in Aircraft Engines

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Published: Oct 30, 2024
DOI: https://doi.org/10.35940/ijeat.E1068.14011024
Keywords:
Critical Speeds, High Cycle Fatigue Load, Squirrel Cage, Stress Analysis

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Abhishek M
Sales & Marketing, ThyssenKrupp Aerospace India Private Limited, Bangalore (Karnataka), India.
https://orcid.org/0009-0005-2969-0556
Kiran M
Department of Projects, Zenith Precession, Bangalore (Karnataka), India.
https://orcid.org/0009-0007-6019-2576
Sathyanarayanan S
Department of Material Science, University of Colorado Boulder, Colorado, USA.
https://orcid.org/0009-0005-2969-0556
Shriharsha Patil
Department of Computer Science, University of Detroit Mercy, Michigan, USA.
https://orcid.org/0009-0007-9277-655X

Abstract

A squirrel cage is a component used in engine shafts to make the shaft stiffer and able to withstand high cycle fatigue loads continuously for a long time. A squirrel cage can be of many shapes and sizes. The critical speed and the stresses acting on the shaft play a key role in determining the performance of shafts in engines. The squirrel cage in the shaft absorbs stress and extends shaft life. This paper deals with the structural design and analysis of the squirrel cage of an aircraft engine. The design of the squirrel cage was done on SolidWorks, and analysis was carried out on the Ansys workbench. To meet the strength and stiffness, the squirrel cage was optimized by introducing slots in it. Stress analysis of the bearings has been carried out for axial and radial loads from 1 to 20 kg. The radial load is applied to individual bearings, and then the axial load is applied to only one bearing. Then results are plotted into curves, and a slope is obtained based on deformations obtained. The stiffness value is noted, and the same procedure is performed for an optimized slotted squirrel cage. These values are compared, and then the squirrel is proved to be weight optimized and has improved stiffness.

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How to Cite
[1]
Abhishek M, Kiran M, Sathyanarayanan S, and Shriharsha Patil , Trans., “Stiffness Optimization of Squirrel Cage in Aircraft Engines”, IJEAT, vol. 14, no. 1, pp. 28–33, Oct. 2024, doi: 10.35940/ijeat.E1068.14011024.
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Vol. 14 No. 1 (2024): Volume-14 Issue-1, October 2024
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Articles
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This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

CC-BY-NC-ND 4.0

Author Biographies

Abhishek M, Sales & Marketing, ThyssenKrupp Aerospace India Private Limited, Bangalore (Karnataka), India.

Abhishek M, holds a Diploma in Aeronautical Engineering from Acharya Polytechnic and a BE in Aerospace Engineering from RV College of Engineering. With technical internships at HAL Aerospace Division and Triveni Aeronautics, he has gained hands-on experience in aerospace engineering. His primary areas of interest include aircraft materials, structural analysis and design, as well as simulations and drone technology. Throughout his academic and internship experiences, he has developed strong analytical and problem-solving skills, particularly in aircraft design and simulation. He is keen to contribute to advancements in aerospace engineering through innovative research and practical applications in these areas. Also, with 3 years of professional experience at ThyssenKrupp Aerospace India Private Limited as an Executive in Sales and Marketing, he specializes in selling aerospace-grade raw materials.

Kiran M, Department of Projects, Zenith Precession, Bangalore (Karnataka), India.

Kiran M, has completed a Diploma in Aeronautical Engineering at Acharya Polytechnic and a BE in Aerospace Engineering at RV College of Engineering. He successfully completed NCC C certification training, further honing his discipline and leadership skills. His technical interests include aerodynamics, aircraft primary control surfaces, aircraft lighting systems, and drones. He also completed 9 months as a Management Trainee at Halamanee Aerospace Private Limited. With 1.5 years of experience as a Project Engineer at Zenith Precision, Kiran has developed expertise in project management and technical execution. His diverse background in both academic and practical fields enables them to contribute valuable insights into aerospace systems and engineering innovation.

Sathyanarayanan S, Department of Material Science, University of Colorado Boulder, Colorado, USA.

S athyanarayanan S, is a final year MSc student in Material Science Engineering at University of Colorado Boulder, USA. He graduated from RV College of Engineering with a bachelor’s degree in aerospace engineering, Bangalore. His interests lie in drone design, fabrication, and structural analysis, with a strong focus on the development of UAVs, aircraft propulsion systems, and advanced materials for the aerospace and defense sectors. He was also a founder and director Cratandraqx Aerospace With a background in aerospace engineering and ongoing research in cutting-edge materials science, Satyanarayanan is driven to contribute innovative solutions to the challenges facing modern aviation and defense technologies.

Shriharsha Patil, Department of Computer Science, University of Detroit Mercy, Michigan, USA.

Shriharsha Patil, is currently pursuing his final year Master of Science degree in Applied Data Analytics from University of Detroit Mercy, USA. He holds a bachelor’s degree in aerospace engineering from R V College of Engineering, Bangalore. With a keen interest in UAVs, propulsion systems, data analytics, and structural design, Shriharsha combines aerospace engineering expertise with data-driven insights to explore innovative solutions. During their undergraduate studies, they were part of Team Vyoma, an aero design team, where they gained hands-on experience in aircraft design and analysis. His interdisciplinary approach positions them to contribute meaningfully to advancements in aerospace technology and data analytics.

How to Cite

[1]
Abhishek M, Kiran M, Sathyanarayanan S, and Shriharsha Patil , Trans., “Stiffness Optimization of Squirrel Cage in Aircraft Engines”, IJEAT, vol. 14, no. 1, pp. 28–33, Oct. 2024, doi: 10.35940/ijeat.E1068.14011024.
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