Title page for etd-0904108-133841


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URN etd-0904108-133841
Author Tsung-jung Li
Author's Email Address No Public.
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Department Mechanical and Electro-Mechanical Engineering
Year 2007
Semester 2
Degree Master
Type of Document
Language zh-TW.Big5 Chinese
Title Effect of electrolyte composition on nickel-diamond composite coating structure and grinding ability
Date of Defense 2008-07-26
Page Count 115
Keyword
  • Electrolyte
  • Composite electroplating
  • Abstract In this study, the CVD diamond films were grinded using composite electroplating in-process sharpening (CEPIS). At an applied load of 4.2 kg, a rotation speed of 200 rpm and 20 rpm for the upper and lower spindles, the effects of NiCl2 (nickel chloride) content of electrolyte (in the range of 5-75 g/l) and cathode current density (in the range of 0-7.5 ASD) on the structure of the nickel-diamond composite coating and its grinding ability were investigated. Based on the experiment results, the coating structure became porous and the coating thickness increased with decreasing NiCl2 content of electrolyte during the composite electroplating process. During CEPIS process, the material removal rate of diamond film has no obvious concern with the NiCl2 content at low cathode current density (below 2.5 ASD). However, its material removal rate rapidly increased to a saturated value with increasing NiCl2 content at high cathode current density (above 5 ASD). The NiCl2 content to achieve a saturated material removal rate increased with increasing cathode current density. In this study, the maximum removal rate of diamond film is about 0.093 mg/min at the NiCl2 content of 75 g/l and the cathode current density of 5 ASD.
    Advisory Committee
  • Jen-fin Lin - chair
  • Yeau-ren Jeng - co-chair
  • Rong-tsong Lee - advisor
  • Yuang-cherng Chiou - advisor
  • Files
  • etd-0904108-133841.pdf
  • indicate in-campus access in a year and off_campus not accessible
    Date of Submission 2008-09-04

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