Experimental examinations of machinability of ceramic materials during micro processing
Апстракт
In this paper experimental analyses were conducted in order to determine phenomenon that occurs during micro cutting of brittle material based on the ceramic. In order to investigate interaction between tool and workpiece, diamond tool with tip radius R0.2 was used. Cutting speed of 25 m/s and variable cutting depth were used. Experiments have shown that on the small cutting depths, ductile mode can be achieved. In this region, no evidence of cracks growth in the material was present. Critical penetration depth that represents threshold value of this region was determined. After exceeding critical penetration depth, brittle fracturing occurs. Volume of removed material is much larger then desired one, however smooth surface cannot be achieved. Furthermore, dependence of crack growth from the cutting depth was analyzed. In addition, one of the objectives in this experiment was to determine the changes in the cutting force components (Fn and Ft) in the function of cutting depth. Also, sp...ecific cutting energy was determined. Based on the microscopic observation of the machining surfaces, mechanism of micro cutting ceramics was established.
Кључне речи:
Ceramics / micro cutting / ductile mode / critical penetration depth / specific cutting energyИзвор:
22nd European Conference of Fracture "ECF22" - Book of Abstracts, 2018, 131-131Издавач:
- University of Belgrade, faculty of Mechanical Engineering
Финансирање / пројекти:
- Развој нове генерације домаћих обрадних система (RS-MESTD-Technological Development (TD or TR)-35022)
Колекције
Институција/група
Mašinski fakultetTY - CONF AU - Pjević, Miloš AU - Popović, Mihajlo AU - Tanović, Ljubodrag AU - Mladenović, Goran PY - 2018 UR - https://machinery.mas.bg.ac.rs/handle/123456789/5414 AB - In this paper experimental analyses were conducted in order to determine phenomenon that occurs during micro cutting of brittle material based on the ceramic. In order to investigate interaction between tool and workpiece, diamond tool with tip radius R0.2 was used. Cutting speed of 25 m/s and variable cutting depth were used. Experiments have shown that on the small cutting depths, ductile mode can be achieved. In this region, no evidence of cracks growth in the material was present. Critical penetration depth that represents threshold value of this region was determined. After exceeding critical penetration depth, brittle fracturing occurs. Volume of removed material is much larger then desired one, however smooth surface cannot be achieved. Furthermore, dependence of crack growth from the cutting depth was analyzed. In addition, one of the objectives in this experiment was to determine the changes in the cutting force components (Fn and Ft) in the function of cutting depth. Also, specific cutting energy was determined. Based on the microscopic observation of the machining surfaces, mechanism of micro cutting ceramics was established. PB - University of Belgrade, faculty of Mechanical Engineering C3 - 22nd European Conference of Fracture "ECF22" - Book of Abstracts T1 - Experimental examinations of machinability of ceramic materials during micro processing EP - 131 SP - 131 UR - https://hdl.handle.net/21.15107/rcub_machinery_5414 ER -
@conference{ author = "Pjević, Miloš and Popović, Mihajlo and Tanović, Ljubodrag and Mladenović, Goran", year = "2018", abstract = "In this paper experimental analyses were conducted in order to determine phenomenon that occurs during micro cutting of brittle material based on the ceramic. In order to investigate interaction between tool and workpiece, diamond tool with tip radius R0.2 was used. Cutting speed of 25 m/s and variable cutting depth were used. Experiments have shown that on the small cutting depths, ductile mode can be achieved. In this region, no evidence of cracks growth in the material was present. Critical penetration depth that represents threshold value of this region was determined. After exceeding critical penetration depth, brittle fracturing occurs. Volume of removed material is much larger then desired one, however smooth surface cannot be achieved. Furthermore, dependence of crack growth from the cutting depth was analyzed. In addition, one of the objectives in this experiment was to determine the changes in the cutting force components (Fn and Ft) in the function of cutting depth. Also, specific cutting energy was determined. Based on the microscopic observation of the machining surfaces, mechanism of micro cutting ceramics was established.", publisher = "University of Belgrade, faculty of Mechanical Engineering", journal = "22nd European Conference of Fracture "ECF22" - Book of Abstracts", title = "Experimental examinations of machinability of ceramic materials during micro processing", pages = "131-131", url = "https://hdl.handle.net/21.15107/rcub_machinery_5414" }
Pjević, M., Popović, M., Tanović, L.,& Mladenović, G.. (2018). Experimental examinations of machinability of ceramic materials during micro processing. in 22nd European Conference of Fracture "ECF22" - Book of Abstracts University of Belgrade, faculty of Mechanical Engineering., 131-131. https://hdl.handle.net/21.15107/rcub_machinery_5414
Pjević M, Popović M, Tanović L, Mladenović G. Experimental examinations of machinability of ceramic materials during micro processing. in 22nd European Conference of Fracture "ECF22" - Book of Abstracts. 2018;:131-131. https://hdl.handle.net/21.15107/rcub_machinery_5414 .
Pjević, Miloš, Popović, Mihajlo, Tanović, Ljubodrag, Mladenović, Goran, "Experimental examinations of machinability of ceramic materials during micro processing" in 22nd European Conference of Fracture "ECF22" - Book of Abstracts (2018):131-131, https://hdl.handle.net/21.15107/rcub_machinery_5414 .