Title :
Machining characteristics of fluorophlogopite glass ceramic
Author :
Yu, Aibing ; Li, Zhao ; Ma, Lianjie
Author_Institution :
Fac. of Mech. Eng. & Mech., Ningbo Univ., Ningbo, China
Abstract :
Fluorophlogopite glass ceramic and medium carbon steel were turned on lathe. Machining surface of glass ceramic and tool wear surface were observed with scanning electronic mecroscope. Surface roughness was measured with profile meter. Three cutting force components, including axial force, radial force, and major cutting force, were measured with Kistler piezoelectric dynamometer. Compared with metal materials, fluorophlogopite glass ceramic presents its machining characteristics. Layer structures could be observed on fluorophlogopite glass ceramic turning surface. There exists rapid wear of high speed steel tool during machining process of fluorophlogopite glass ceramic. Surface roughness value become bigger if cutting coolant is applied to machining processes. Radial force has the biggest value among three cutting force components.
Keywords :
carbon steel; coolants; cutting; glass ceramics; lathes; machining; piezoceramics; scanning electron microscopy; surface roughness; tool steel; wear; Kistler piezoelectric dynamometer; axial force; cutting coolant; cutting force component; fluorophlogopite glass ceramic; high speed steel tool; lathe; layer structure; machining characteristics; machining process; medium carbon steel; metal material; profile meter; radial force; scanning electronic mecroscope; surface machining; surface roughness; tool wear surface; turning surface; Ceramics; Coolants; Force measurement; Glass; Inorganic materials; Machining; Rough surfaces; Steel; Surface roughness; Turning; glass ceramics; machining; material removal; tool wear; turning;
Conference_Titel :
Mechanic Automation and Control Engineering (MACE), 2010 International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4244-7737-1
DOI :
10.1109/MACE.2010.5535810
