Wetting characteristics of a water droplet on solid surfaces with various pillar surface fractions under different conditions
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저자
유민정
매튜스탠리암브로시아
권태우
장준경
하만영
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제어번호
105239627
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학술지명
JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY
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권호사항
Vol.
32
No.
4
[
2018
]
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발행처
대한기계학회
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자료유형
학술저널
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수록면
1593-1600
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언어
English
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출판년도
2018
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등재정보
KCI등재
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판매처
'
Wetting characteristics of a water droplet on solid surfaces with various pillar surface fractions under different conditions' 의 참고문헌
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Wetting transition from the Cassie-Baxter state to the Wenzel state on textured polymer surfaces
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Wettability of porous surfaces
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Water-repellent legs of water striders
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The effect of pillar surface fraction and pillar height on contact angles using molecular dynamics
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Study on biomimetic preparation of shell surface microstructure for ship antifouling
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Stable biomimetic super-hyprophobic engineering materials
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Scalable molecular dynamics with NAMD
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Resistance of solid surfaces to wetting by water
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Nature's design of hierarchical superhydrophobic surfaces of a water strider for low adhesion and low-energy dissipation
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Nanoscale water capillary bridges under deeply negative pressure
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Molecular dynamics study of wetting of a pillar surface
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Molecular dynamics simulations of water droplets on polymer surfaces
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Model for contact angles and hysteresis on rough and ultraphobic surfaces
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Influence of surface roughness on superhydrophobicity
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Hydrophobic properties of a wavy rough substrate
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Estimation of the surface free energy of polymers
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Dynamic behavior of water droplets on solid surfaces with pillar-type nanostructures
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Drop impact process on a hydrophobic grooved surface
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Contact angle hysteresis on heterogeneous surfaces
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Coexistence and transition between Cassie and Wenzel state on pillared hydrophobic surface
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Biomimetic structures for fluid drag reduction in laminar and turbulent flows
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Biomimetic "water strider leg" with highly refined nanogroove structure and remarkable water-repellent performance
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Biological and synthetic selfcleaning surfaces
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Beyond the lotus effect: Roughness influences on wetting over a wide surfaceenergy range
'
Wetting characteristics of a water droplet on solid surfaces with various pillar surface fractions under different conditions'
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