Kiminori Washika scite author profile

Kiminori Washika

3Publications

1Citation Statement Received

20Citation Statements Given

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Defluorination and adsorption of tetrafluoroethylene (TFE) on TiO2(110) and Cr2O3(0001)

Gueriba

Salehuddin

Diño

et al. 2021

Sci Rep

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Here, we show that metal oxide surfaces catalyze the formation of intermediate defluorinated tetrafluoroethylene (TFE) radicals, resulting in enhanced binding on the corresponding metal oxide surfaces. We attribute the preferential adsorption and radical formation of TFE on Cr2O3(0001) relative to TiO2(110) to the low oxygen coordination of Cr surface atoms. This hints at a possible dependence of the TFE binding strength to the surface stoichiometry of metal-oxide surfaces.

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Laser-and-catalysis-assisted direct bonding of metal and non-reactive polymer for industrially durable multimaterial manufacturing

Tei

Kawafuchi²,

Washika³

et al. 2022

Preprint

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Polytetrafluoroethylene (PTFE) is an ideal coating material with superior chemical resistance, lubrication, and hydrophobicity. Multimaterial manufacturing with metal and PTFE is desirable for their complementary strengths, but non-robust bonding at the interface remains a significant challenge for durability. Here, we devise a strategy combining iron catalyst deposition and thermostatic control on a high-power laser to directly bond steel and pure PTFE. As a result, we achieve unprecedented peel strength surpassing 3.5 N/mm and stable chemical bond formation between the two materials. Furthermore, manufacturing a 10-ton truck's loading box with steel-PTFE composites proves the ultra-durable lubrication effect that enables zero load waste and 10.7 % CO2 reduction during repetitive soil transportation. Our novel method to control polymer decomposition at the metal-polymer interface should facilitate multimaterial manufacturing with superior mechanochemical durability.

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Development of joining technique for steel/fluororesin based on resistance heating

Mimura

Sugimura

Kawafuchi³

et al. 2023

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Dump trucks are widely used in the construction industry. When sand is discharged from a dump truck bed, the friction with the bed causes sand to remain on the bed. Therefore, it is desirable to develop a technology to adhere low-friction fluororesin to the steel plates of a truck bed. This study develops a technique for directly joining dissimilar materials, namely steel and polytetrafluoroethylene (PTFE), using one-sided seam welding and investigates the effects of heat input and pressure conditions on joining quality. The joining conditions that affect joining quality are examined. The results show that tensile shear strength tends to increase with increasing heat input. Furthermore, it is found that the amount of PTFE deformation and the fracture morphology during tensile testing change with roller pressurization. For a one-sided seam welding machine, the anchor effect occurs between the electrodes with roller pressurization but does not occur without roller pressurization. It is also found that the type of anchor effect (dense or dispersed) depends on whether roller pressure is applied. Furthermore, it is suggested that the amount of deformation of PTFE during tensile testing is different caused by the different form of occurrence of the anchor effect. It was assumed that the fracture morphology of PTFE changed as the amount of deformation increased during the tensile test, approaching the elongation limit of PTFE. Furthermore, when the rollers were cooled to increase the cooling function of the rollers, the number of anchors was found to be lower than when the rollers were not cooled. This result suggested that the thermal contraction of the PTFE during cooling causes the PTFE in the concave area to peel off. From these results, it is assumed that the reason for the dispersed anchor effect is due to the influence of heat removal by the roller pressurization.(PTFE), Anchor effect, Tensile shear strength (TSS)

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