Experimental assessment on the impact of cutouts on a hollow shaft system
-
,
Abstract
Hollow shafts are typically deployed in real world engineering application where strength to density ratio is highly desirable. Introduction of cutouts will also assist in achieving the same, where further material reduction is inevitable. This research work mainly focusses on assessing the impact of introducing cutouts on a hollow shaft system experimentally, followed by numerical validation. In this study the vibrational characteristics of a hollow shaft made up of linear elastic material is compared with a composite one for five different geometric profiles. Obtained results clearly reveal that introduction of cutouts and composite material significantly reduces the natural frequency of the system. Also, the experimental results are well in line with the values derived from the finite element method.
© 2020 by Walter de Gruyter Berlin/Boston
Artikel in diesem Heft
- CONTENTS
- Materials Testing
- FACHBEITRÄGE
- Microstructure evolution and properties of a laser cladded Ni-Based WC reinforced composite coating
- Metallurgical failure analysis of an exploded CO2 gas cylinder
- Properties of different TIG coatings of Stellite on the Hardox 450 and St 52 steel
- Effects of the alumina reinforcement ratio on the corrosion properties of iron based composite materials
- Microstructural characteristics and tensile properties of gas tungsten constricted arc (GTCA) welded Inconel 718 superalloy sheets for aeroengine components
- Joint strength optimization and morphological analysis for friction stir spot welding of the dissimilar thermoplastics ABS and PC
- Measurement of the dielectric properties of various monoolein/ water mesophases between 90 and 140 GHz
- 3D Printing of automobile spoilers using MCDM techniques
- Dynamic recrystallization of friction welded AISI 316 stainless steel joints
- Design and deflection evaluation of a portal crane subjected to traction load
- Effect of plasma beam irradiation on the microstructure and phase composition of high-speed steel R6M5
- Experimental assessment on the impact of cutouts on a hollow shaft system
- Producing non-dendritic A356 and A380 feedstocks: Evaluation of the effects of cooling slope casting parameters
- BEZUGSQUELLEN
- IMPRESSUM
Artikel in diesem Heft
- CONTENTS
- Materials Testing
- FACHBEITRÄGE
- Microstructure evolution and properties of a laser cladded Ni-Based WC reinforced composite coating
- Metallurgical failure analysis of an exploded CO2 gas cylinder
- Properties of different TIG coatings of Stellite on the Hardox 450 and St 52 steel
- Effects of the alumina reinforcement ratio on the corrosion properties of iron based composite materials
- Microstructural characteristics and tensile properties of gas tungsten constricted arc (GTCA) welded Inconel 718 superalloy sheets for aeroengine components
- Joint strength optimization and morphological analysis for friction stir spot welding of the dissimilar thermoplastics ABS and PC
- Measurement of the dielectric properties of various monoolein/ water mesophases between 90 and 140 GHz
- 3D Printing of automobile spoilers using MCDM techniques
- Dynamic recrystallization of friction welded AISI 316 stainless steel joints
- Design and deflection evaluation of a portal crane subjected to traction load
- Effect of plasma beam irradiation on the microstructure and phase composition of high-speed steel R6M5
- Experimental assessment on the impact of cutouts on a hollow shaft system
- Producing non-dendritic A356 and A380 feedstocks: Evaluation of the effects of cooling slope casting parameters
- BEZUGSQUELLEN
- IMPRESSUM
