Diamond machining of sinusoidal grid surface using fast tool servo system for fabrication of hydrophobic surface

Ultra-precision diamond machining with piezoelectric-assisted fast tool servo (FTS) was used to produce various free-form surfaces.A low cost,rapid and large area fabrication of uniform hydrophobic surface at room temperature which transfers the FTS fabricated sinusoidal grid surface to the flat fil...

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Bibliographic Details
Published inTransactions of Nonferrous Metals Society of China Vol. 22; no. S3; pp. 787 - 792
Main Authors LU, Hong, LEE, Deug-Woo, LEE, Sang-Min, PARK, Jeong-Woo
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2012
Subjects
angle
contact
contact angle
diamond
diamond turning
fast
fast tool servo system
grid
servo
sinusoidal
sinusoidal grid surface
surface
system
turning
UV-moulding
sinusoidal grid surface
fast tool servo system
diamond turning
contact angle
UV-moulding
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Summary:Ultra-precision diamond machining with piezoelectric-assisted fast tool servo (FTS) was used to produce various free-form surfaces.A low cost,rapid and large area fabrication of uniform hydrophobic surface at room temperature which transfers the FTS fabricated sinusoidal grid surface to the flat film with UV-moulding process was described.A piezoelectric-assisted FTS with high band width of 2 kHz,travel range up to 16 μm and the compact mechanism structure was designed for the sinusoidal grid surface machining and the dynamic performance testing of FTS was described in detail.Machining results indicate that the dimensions of sinusoidal grid change with the variation of the FTS machining condition.Wetting properties of UV-moulded surface were evaluated,the best contact angle was measured to be 120.5° on the sinusoidal grid surface with profile wavelength of 350 μm and peak-to-valley amplitude of about 16 μm.
Bibliography:fast tool servo system;diamond turning;sinusoidal grid surface;UV-moulding;contact angle
43-1239/TG
Ultra-precision diamond machining with piezoelectric-assisted fast tool servo (FTS) was used to produce various free-form surfaces.A low cost,rapid and large area fabrication of uniform hydrophobic surface at room temperature which transfers the FTS fabricated sinusoidal grid surface to the flat film with UV-moulding process was described.A piezoelectric-assisted FTS with high band width of 2 kHz,travel range up to 16 μm and the compact mechanism structure was designed for the sinusoidal grid surface machining and the dynamic performance testing of FTS was described in detail.Machining results indicate that the dimensions of sinusoidal grid change with the variation of the FTS machining condition.Wetting properties of UV-moulded surface were evaluated,the best contact angle was measured to be 120.5° on the sinusoidal grid surface with profile wavelength of 350 μm and peak-to-valley amplitude of about 16 μm.
Hong LU 1,Deug-Woo LEE 2,Sang-Min LEE 1,Jeong-Woo PARK 3 1.Department of Nano Fusion Technology,Pusan National University,Miryang 627-706,Korea;2.Department of Nano Mechatronics Engineering,Pusan National University,Miryang 627-706,Korea;3.Department of Mechanical Design Engineering,Chosun University,Gwangju 501-759,Korea
ISSN:1003-6326
DOI:10.1016/s1003-6326(12)61805-6