Abstract
Some factors affecting the high-speed lathe motorized spindle optimal machining performance are: the big deformation of the spindle front-end, the poor cooling and heat dissipation, and the low processing precision. In this paper, first, a review is performed about recent patents on the structure design of motorized spindles and on the measurement and analysis of vibration and noise generated by motorized spindle operation. Second, an investigation is developed about an optimal design of the spindle system based on the theory of finite element optimization design and taking into account front-end overhanging volume, rotor position, and bearing span. Third, based on the theory of heat transfer and fluid dynamics, the performance of three cooling water channel geometries (annular, single spiral and double spiral) is investigated. Finally and accordingly to the three previous steps, a motorized spindle prototype is produced and tested corroborating that experimental values for temperatures at critical motorized spindle hot sources disagreed with those temperatures for a numerical model by less than 1%. Moreover, the vibration and the noise generated by the operation of this spindle prototype satisfy the Chinese national standards for motorized equipment.
Keywords: Cooling water channel, motorized spindle, noise, optimization design, thermal fluids design, vibration.
Call for Papers in Thematic Issues
Artificial Intelligence in Advanced Ceramics Reinforced Materials and Coatings for Protection of Turbomachinery
Artificial intelligence (AI) is a very emerging technology in various industrial applications. The expert system enables help in sensing, monitoring, prediction, controlling, and diagnosis the various problems, and provides ease of work. The protection of turbo-machinery and offshore applications against erosion, corrosion, and abrasion is a global concern in the ...read more
Emerging Methods and Techniques in Sustainable Manufacturing and Materials Processing
Sustainability in manufacturing practices to process materials is a globally accepted mandate and it consists of ecofriendly strategies and methods such as processing, synthesis, fabrication, process optimization by experimental, numerical and computational approaches to test, evaluate the performance and reliability of different materials. The success in enhancement of materials processing ...read more
Latest Experimental and Computational Aspects of Advanced Composites for Structural Applications
This proposal highlights the recent developments in the field of advanced composites for structural applications, encompassing both experimental and computational aspects. Furthermore, it focuses on the integration of machine learning and deep learning techniques to enhance the understanding and performance prediction of advanced composite materials. The proposed research aims to ...read more
Opportunities of Emerging Materials Processing for Enhanced Manufacturing in Industry 4.0
This proposed special issue aims to explore the transformative potential of emerging materials processing techniques in the context of Industry 4.0, focusing on the opportunities they present for enhancing manufacturing processes. As Industry 4.0 continues to revolutionize the global manufacturing landscape, the integration of cutting-edge materials processing technologies becomes paramount ...read more
Related Journals
Related Books
Intelligent Technologies for Automated Electronic Systems
Modern Radio Signals Filtering Devices Methods, Technologies, & Structures
Functional Bio-based Materials for Regenerative Medicine: From Bench to Bedside (Part 2)
Mechanical Engineering Technologies and Applications
Multistage Interconnection Network Design for Engineers
Mechanical Engineering Technologies and Applications
Semi-rotary and Linear Actuators for Compressed Air Energy Storage and Energy Efficient Pneumatic Applications
Waste Valorization for Value-added Products
One-Dimensional Transient Flow in Pipelines Modelling and Simulation
Principles of Automation and Control
22
1
1