TY - JOUR
T1 - Hot mold stamping of optical plastics and glasses with transcription of super-hydrophobic surfaces
AU - Hasegawa, Tomoki
AU - Aizawa, Tatsuhiko
AU - Inohara, Tadahiko
AU - Wasa, Kenji
AU - Anzai, Masahiro
N1 - Funding Information:
The authors would like to express their gratitude to Mr. S. Kurosumi, Mr. T. Miyagawa (SIT) and Mr. K. Ssanbon-Matsu (LIPS-Works, Co. Ltd.) for their help in experiments. This study was financially supported in part by the METI-program in 2017.
Publisher Copyright:
© 2018 The Authors. Published by Elsevier B.V.
PY - 2018
Y1 - 2018
N2 - The oxide-glass lens as well as metallic-glass, optical elements were a typical targeting product to have their surface hydro-phobic or super-hydrophobic for well-defined water repellency. The micro- or nano-texturing processes were developed with use of the femto-second laser machining to control the surface state from hydrophilic to hydrophobic conditions. The femto-second laser processing had possibility to physically control the contact angle up to θ > 150 o . Under this laser induced periodic surface structuring, the ripples with high spatial frequencies were formed on the micro-textured surface by the interference of the incident and reflected laser lights with the scattered or diffracted light near the surface. AISI420 mold was prepared as a die substrate to form the super-hydrophobic surface by the femto-second laser nano-/micro texturing with the tailored design of laser induced periodic surface structuring. This mold was set-up into the cassette die set for hot mold stamping. The mold was directly heated up to the forming temperature above the glass-transition temperature by the high frequency induction heating. The original static contact angle was doubled from 60 o to 113 o by this hot mold stamping.
AB - The oxide-glass lens as well as metallic-glass, optical elements were a typical targeting product to have their surface hydro-phobic or super-hydrophobic for well-defined water repellency. The micro- or nano-texturing processes were developed with use of the femto-second laser machining to control the surface state from hydrophilic to hydrophobic conditions. The femto-second laser processing had possibility to physically control the contact angle up to θ > 150 o . Under this laser induced periodic surface structuring, the ripples with high spatial frequencies were formed on the micro-textured surface by the interference of the incident and reflected laser lights with the scattered or diffracted light near the surface. AISI420 mold was prepared as a die substrate to form the super-hydrophobic surface by the femto-second laser nano-/micro texturing with the tailored design of laser induced periodic surface structuring. This mold was set-up into the cassette die set for hot mold stamping. The mold was directly heated up to the forming temperature above the glass-transition temperature by the high frequency induction heating. The original static contact angle was doubled from 60 o to 113 o by this hot mold stamping.
KW - Femto-second laser machining
KW - Hot mold stamping
KW - Micro-and nano-texturing
KW - Optical glasses
KW - Super-hydrophobicity
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U2 - 10.1016/j.promfg.2018.07.337
DO - 10.1016/j.promfg.2018.07.337
M3 - Conference article
AN - SCOPUS:85063776678
SN - 2351-9789
VL - 15
SP - 1437
EP - 1444
JO - Procedia Manufacturing
JF - Procedia Manufacturing
T2 - 17th International Conference on Metal Forming, METAL FORMING 2018
Y2 - 16 September 2018 through 19 September 2018
ER -