Ki-Seob Hwang scite author profile

Although samples are visibly clean, organic deposits could have tremendous impacts on tribological measurements and interpretation of friction and wear behaviors. This paper discusses the boundary lubrication effects of invisible residues from organic solvents that have been widely used in tribological studies in ambient conditions. Stainless steel, soda lime glass, and copper substrates were cleaned using UV/ozone treatment or organic solvents such as alcohols where the solvent was allowed to evaporate from the surface. In ball-on-flat tribo-tests, all UV/ozone cleaned samples showed high friction and catastrophic wear immediately upon sliding due to the absence of lubricants at the sliding interface, while samples cleaned by organic solvent experienced low friction and minimal wear for hundreds of reciprocating cycles. Analyses of the surface by atomic force microscopy and vibrational spectroscopy indicated that the solvent cleaning deposits hydrocarbon residue on metal and oxide substrates. This residue is due to trace impurities with low vapor pressures inevitably present in the bulk liquid, regardless of solvent

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Fully organic CO2 absorbent obtained by a Schiff base reaction between branched poly(ethyleneimine) and glutaraldehyde

Hwang

Park

Kim

et al. 2018

Korean J. Chem. Eng.

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Development of a BTB−/TBA+ ion-paired dye-based CO2 indicator and its application in a multilayered intelligent packaging system

Lyu

Choi

Hwang

et al. 2019

Sensors and Actuators B: Chemical

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Ki-Seob Hwang

Rapid development of dual porous poly(lactic acid) foam using fused deposition modeling (FDM) 3D printing for medical scaffold application

Boundary lubrication effect of organic residue left on surface after evaporation of organic cleaning solvent

Fully organic CO2 absorbent obtained by a Schiff base reaction between branched poly(ethyleneimine) and glutaraldehyde

Development of a BTB−/TBA+ ion-paired dye-based CO2 indicator and its application in a multilayered intelligent packaging system

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