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http://dx.doi.org/10.4150/KPMI.2004.11.5.412

The fabrication and characterization of hard rock cutting diamond saw  

Lee Hyun-Woo (Division of Advanced Meterials Engineering, Chonbuk National University)
Jeon Woo-yong (Division of Dental Engineering, Gwangyang health College)
Lee Oh-yeon (Division of Advanced Meterials Engineering, Chonbuk National University)
Seol Kyeong-won (Division of Advanced Meterials Engineering, Chonbuk National University)
Publication Information
Journal of Powder Materials / v.11, no.5, 2004 , pp. 412-420 More about this Journal
Abstract
The purpose of the present study is to determine an optimum composition using cheaper powders keeping with high performance of hard rock cutting diamond saw blade. With 50Fe-20(Cu . Sn)-30Co specimen, a part of Co was replaced by Ni(5%, 10%, and 15%, respectively). These specimens were hot pressed and sintered for predetermined time at various temperature. Sintering is performed by two different methods of temperature controlled method and specimen dimension controlled method. In order to determine the property of the sintered diamond saw blade, 3 point bending tester, X-ray diffractometer, and SEM were used. As the Co in the bond alloy was replaced by Ni, the hardness of the specimen increased. Thus the 50Fe-20(CuㆍSn)-15Co-15Ni specimen showed the maximum hardness of 104(HRB). The results of 3 point bending test showed that flexure strength decreased along with increase in Ni content. This is attributed to the formation of intermetallic compound(Ni$_{x}$Sn) determined by X-ray diffraction. The fracture surface after 3 point bending test showed that diamond was fractured in the specimen containing 0%, 5%, and 10%Ni, and the fracture occurred at the interface between diamond and matrix in the specimen containing 15%Ni. The cutting ability test showed that the abrasive property was not changed in the specimen containing 0%, 5%, and 10%Ni. The optimum composition determined in this study is 50Fe-20(CuㆍSn)-20Co-10Ni.
Keywords
Diamond saw blade; Diamond tools; Metal bond; Metal powder sintering;
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  • Reference
1 H. T. Hall : Science, 169 (1970) 868
2 犬狀英夫, 見意一兄 : 加工工具への 利用 (切削工具ソトホイル), 323
3 은광용 : 다이아몬드 공구 제조 기술 발전, 제3회 분 말야금 기술강좌(IV)별책, 대한금속학회펀, (1989)
4 K. Wakashima, T. hirano and M. Niino. : Proc. ESA Symp. ESASP-303, June (1990) 97
5 Stephen Clackson and Moreton Moore, An x-ray study of some argyle diamonds, Ind. Dia. Rev., (52) 1992 192
6 한국공구공업 협동조합, 한국공구공업총람, (1997) 58, 75, 131
7 이오연 : Co-Cu-Sn계 압분체의 소결특성, 1991년 공업기술원 기술지도 보고서, (1991) 335
8 S. Mashima: Ceramic(Japan J.), (22)9 (1987) 792
9 Bligh. H. StockweII : 'An Introduction to Metallurgy of Diamond Tools', Developed by MACRO div. of Kennametal. ed. Macro Technology Team, Companions for Industrial Diamond Publishing. 4-5
10 R. L. Mehand and S. C. Hayden: Friction and Diamond Materials and other Ceramics against Metal, Wear, 74 (1981-1982) 195
11 L. F. Hibbs and R. H. Wentorf: 'Borazon and Diamond Compact Tools', High Temp. High Pressure, 6 (1974) 409
12 W. F. Sharp : Properties and Applications of Composition Diamond Coating, Wear, 32 (1975) 315
13 Y. Fukano : New Diamond 6, (3)2 (1987) 43
14 M. W. Bailey, L. K. Hedges : Crystal Morphology identification of diamond and ABN. Ind. Dia. Rev, (55)504 (1995) 11
15 S. Yamaoka : New Diamond 6, (3)2 (1987) 43
16 S. Somiya et aI., Sintering ‘91, Trans Tech Publications, Canada, (1991) 301
17 문기동, 이종국, 김덕준, 김환, 한국재료학회지, (5)7 (1995) 829
18 이준근 : J. of Korea Powder Metallurgy Institute, (2)1 (1995) 8