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Experimental and Numerical Vibration Analysis of Octet-Truss-Lattice-Based Gas Turbine Blades

Sajjad Hussain, Wan Aizon Wan Ghopa, Salvinder Singh Karam Singh, Abdul Hadi Azman, Shahrum Abdullah

2022Metals31 citationsDOIOpen Access PDF

Abstract

This paper aims to investigate the utilization of octet truss lattice structures in gas turbine blades to achieve weight reduction and improvement in vibration characteristics, which are desired for turbine blades to improve the efficiency and load capacity of turbines. A solid blade model using NACA 23012 airfoil was designed as reference. Three lattice-based blades were designed and manufactured via additive manufacturing by replacing the internal volume of solid blades with octet truss unit cells of variable strut thickness. Experimental and numerical vibration analyses were performed on the blades to establish their suitability for potential use in turbine blades. A maximum weight reduction of 24.91% was achieved. The natural frequencies of lattice blades were higher than those of solid blades. A stress reduction up to 38.6% and deformation reduction of up to 21.5% compared with solid blades were also observed. Both experimental and numerical results showed good agreement with a maximum difference of 3.94% in natural frequencies. Therefore, apart from being lightweight, octet-truss-lattice-based blades have excellent vibration characteristics and low stress levels, thereby making these blades ideal for enhancing the efficiency and durability of gas turbines.

Topics & Concepts

Turbine bladeTrussStructural engineeringVibrationMaterials scienceAirfoilNatural frequencyTurbineEngineeringMechanical engineeringPhysicsAcousticsCellular and Composite StructuresStructural Response to Dynamic LoadsTopology Optimization in Engineering