The selection of machining parameters in milling thin-walled plates affects deformation, quality, and productivity of the machined parts. This paper presents an optimization procedure to determine and validate the optimum machining parameters in milling thin-walled plates. The regression models for cutting force and surface roughness are developed as objective functions according to experimental results. Besides, the influences of machining parameters on cutting force and surface roughness are also investigated. The objectives under investigation in this study are cutting force, surface roughness, and material removal rate subjected to constraints conditions. As the effects of milling parameters on optimization objectives are conflicting in...
AbstractThis paper presents an overview on NSGA-II optimization techniques of machining process para...
In finishing end milling, not only good accuracy but also good roughness levels must be achieved. Th...
In this competition era, manufacturing and industrial industries are switching to the non convention...
The selection of machining parameters in milling thin-walled plates affects deformation, quality, an...
The selection of optimal process parameters is essential while machining thin-wall parts since it in...
In this paper, ultrahigh-strength steel AF1410 was milled with the carbide tool, and a total of thir...
Machine parts are greatly influenced by the surface quality during their useful life and productivit...
Generally in any manufacturing industry, a human process planner selects the machining parameters ba...
Numerical control machining is widely used in traditional manufacturing industry and national defens...
With the development of high-performance CNC machine tools, milling has been established as one of t...
High-strength die steel is widely used for cutting, stamping and molding because of its advantages o...
For all machining cutting methods, surface roughness is a parameter that greatly affects the working...
For all machining cutting methods, surface roughness is a parameter that greatly affects the working...
Optimal selection of cutting parameters is one of the significant issues in achieving high quality m...
In machining thin-walled parts, determining the optimum machining strategy and the criterion selecti...
AbstractThis paper presents an overview on NSGA-II optimization techniques of machining process para...
In finishing end milling, not only good accuracy but also good roughness levels must be achieved. Th...
In this competition era, manufacturing and industrial industries are switching to the non convention...
The selection of machining parameters in milling thin-walled plates affects deformation, quality, an...
The selection of optimal process parameters is essential while machining thin-wall parts since it in...
In this paper, ultrahigh-strength steel AF1410 was milled with the carbide tool, and a total of thir...
Machine parts are greatly influenced by the surface quality during their useful life and productivit...
Generally in any manufacturing industry, a human process planner selects the machining parameters ba...
Numerical control machining is widely used in traditional manufacturing industry and national defens...
With the development of high-performance CNC machine tools, milling has been established as one of t...
High-strength die steel is widely used for cutting, stamping and molding because of its advantages o...
For all machining cutting methods, surface roughness is a parameter that greatly affects the working...
For all machining cutting methods, surface roughness is a parameter that greatly affects the working...
Optimal selection of cutting parameters is one of the significant issues in achieving high quality m...
In machining thin-walled parts, determining the optimum machining strategy and the criterion selecti...
AbstractThis paper presents an overview on NSGA-II optimization techniques of machining process para...
In finishing end milling, not only good accuracy but also good roughness levels must be achieved. Th...
In this competition era, manufacturing and industrial industries are switching to the non convention...