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Article
Grinding performances and failure analyses of electroplated Ni–B-diamond tools with a high density of single- or dual-layer D-150-diamond particles
This study explored the performance of electroplated grinding tools electroplated with single and dual-layer diamond particles (DPs). These tools were fabricated through a three-step electroplating process, in...
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Article
Grinding performances of electroplated Ni–B-diamond tools prepared through composite electroplating with intermittent stirring
Fabrication and evaluation of electroplated Ni–B-diamond grinding tools made with 3-mm-diameter martensitic AISI 440C rod substrates were performed. With 25-μm-thick layer of Ni deposit serving as the undercoa...
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Article
Grinding performance of electroplated diamond tools strengthened with Cr-C deposit using D-150 diamond particles
Electroplated diamond tools with single-layered high density diamond particles in an average size of 150 μm were prepared through a three-step electroplating process, including Ni-undercoating, Ni-diamond co-e...
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Article
Fabrication and evaluation of electroplated diamond grinding rods strengthened with Cr-C deposit
Cr-C-Ni-diamond composite deposits with synthetic diamond particles of 50 μm in average size were electroplated onto a medium-carbon steel rod to fabricate electroplated diamond grinding rods. To make an elect...
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Article
Fabrication and evaluation of electroplated Ni–diamond and Ni–B–diamond milling tools with a high density of diamond particles
Ni–diamond and Ni–B–diamond composite deposits were electroplated with a current density of 20 A/dm2 on a steel cylinder with a diameter of 6.0 mm in a Ni-Watt bath with different tetramethylammonium borohydride ...