Fabrication of Metal-Bonded Grinding/Polishing Tools by the Greentape Laser Sintering Method

Maekawa, Katsuhiro; Yokoyama, Yoshihiko; Ohshima, Ikuya

doi:10.1142/9789812817822_0010

Cited by 2 publications

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“…To overcome the problems above, various fabrication methods for grinding wheel have been proposed 2 )3) •…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Abrasive Layer Using Dispersion of Hard Powder by Electrical Discharge Machining (1st Report) -Dispersion of Insulating Power into Deposit-

2004

IJEM

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This paper deals with a fabrication method of an abrasive layer by electrical discharge machining (EDM). A grinding wheel should be frequently dressed and as a result its total life becomes shorter. When the total life of the grinding wheel has ended, the grinding wheel is disposed of even if its core is still usable. To extend the total life of the grinding wheel by recycling, a fabrication process of an abrasive layer by EDM is proposed. The layer deposited by EDM with a green compact electrode is porous due to the electrical conditions. The green compact electrode was made by compressing a mixture of WC, Co and an abrasive, which is generally an insulating material. The layer produced with the dispersed abrasive powders with a size of 20-100 ~m could be deposited on a plate. The grain size and the thermal conductivity mainly affect the layer properties. Each grain volume percentage was evaluated with a partial section analyzed by energy dispersive X-ray spectroscopy. The volume percentages of #150 and #400 SiC grains were 6% and 10%, respectively, when the volume percentage of the SiC grains in each electrode was 32%. These ratios are much srn all er than that of conventional grinding wheels, 34-62% in nominal. The hardness of the WC-Co layer without abrasive was 102 HRRS, harder than a general vitrified bond wheel. Because the deposit of the weco layer was very hard, tight gripping of grits can be also expected.

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“…To overcome the problems above, various fabrication methods for grinding wheel have been proposed 2 )3) •…”

Section: Introductionmentioning

confidence: 99%