• Tribology and Lubricants
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• 제29권5호
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• pp.304-309
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• 2013

Shark skin has functionalities such as self-cleaning and antifouling; it also exhibits excellent drag reduction owing to a hierarchical structure of microgrooves and nanometer-long chain mucus drag reduction interfaces around the shark body. In this study, the wettability of a shark skin surface and its replicas are evaluated. First, a shark skin template is taken from a real shark. Then, shark skin replicas are produced directly from a shark skin template, using a micromolding technique. The quantitative replication precision of the shark skin replicas is evaluated by comparing the geometry of the shark skin template to the replica using 2D surface profiles. Contact angles at the solid-air-water interfaces are evaluated for the shark skin template and its replicas under two conditions: with and without hydrophobic coating. The results show that the microriblets on shark skin improve the hydrophobic feature and play a critical role in self-cleaning.

• Tribology and Lubricants
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• 제32권6호
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• pp.201-206
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• 2016

In this study, we attempt to produce a semi-elliptical riblet with a shark skin-like surface using wire electrical discharge machining (WEDM) and micro molding techniques. Our design for the production of the semi-elliptical mold includes an electrode, a winding roller, and a guide on the WEDM system. A replication mold with negative riblets is machined using WEDM, and a shark skin inspired surface with positive riblets is fabricated using a micro molding technique. For a comparison with the original shark skin, a shark skin replica is also produced using the micro molding technique directly from a shark skin template. Droplet contact angles on a flat surface, the shark skin replica, and the epoxy resin-based micro riblet shark skin-like surface are evaluated. The effect of a Teflon coating on the contact angles for the three different surfaces is also investigated. The results show the micro riblet with a shark skin-like surface has a similar contact angle as the shark skin replica, which means that the simplified riblet shark skin surface strongly influences the performance of wettability. This study confirms the effectiveness of using the WEDM method to prepare hydrophobic surfaces with diverse surface patterns.

• 동력기계공학회지
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• 제18권1호
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• pp.128-134
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• 2014

For the characteristic assessment of biomimetic shark skin structure pattern for engineering applications, we conducted the elastic hydrodynamic lubrication analysis for the shark skin surface pattern. The shark skin surfaces with roughness are generated numerically in the similar size with real shark skin scales. For the spherical contact on the generated shark skin surface with two different flow directions which are transversal and longitudinal, 3-dimensional elasto-hydrodynamic lubraction analysis are carried out. The result of the longitudinal flow which are similar with the flow of shark skin shows more beneficial effects with lower pressure and less sensitive effect with surface roughness.

• 한국식품저장유통학회지
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• 제17권1호
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• pp.91-99
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• 2010

상어의 껍질과 육 조직으로부터 산 (citric acid) 가용성 콜라겐 (ASC)과 pepsin 가용성 콜라겐 (PSC)의 추출 및 탈색조건을 조사하였다. 비 콜라겐 단백질을 제거하기 위한 적정 NaOH 농도는 0.3 N이었으며 처리시간은 9시간이었다. 상어껍질의 탈색은 생 원료에 대하여 10배량의 0.48% sodium hypochlorite로 60분간 처리하는 것이 적절하였다. ASC 및 PSC의 추출시 산의 적정농도는 각각 0.3 M 및 0.1 M이었고, 추출시간은 각각 72시간 및 24시간 이었다. 산가용성 콜라겐인 ASSC (citric acid soluble shark skin collagen)와 ASMC (citric acid soluble shark muscle collagen), pepsin 가용성 콜라겐인 PSSC(pepsin and citric soluble shark skin collagen)와 PSMC (pepsin soluble shark muscle collagen)에 함유된 총 단백질 함량은 각각 88.66, 83.09, 90.33 및 84.81% (dry basis)이었으며 시판 표준 콜라겐의 88.86%와 대등하였다. Hydroxyproline의 함량으로부터 산출한 순 콜라겐 함량은 ASC에서는 25.70~70.31%, PSC에서는 32.94~83.09%이었다. 상어육과 껍질 (dry basis) 100 g으로부터 얻을 수 있는 콜라겐의 수율은 ASC는 53.85~57.22%, PSC는 20.81~23.28%이었다.

• Tribology and Lubricants
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• 제33권5호
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• pp.202-206
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• 2017

In this study, the hydrophobicity properties for riblet surfaces that replicate shark skin are simulated. Riblet surfaces with surface roughness on riblets are generated numerically based on the measured data of real shark skin. We assumed that a rib on a scale is hemi-elliptical surface. The surface used in the simulation for the calculation of contact angle is composed of 9 scales like checkerboard type with a roughness. The contact angle of a water droplet can be calculated using the Wenzel equation and Cassie-Baxter equation for the generated riblet surfaces. The variation of contact angles with a fractional depth of penetration for the generated shark skin surfaces without and with coatings is demonstrated in the condition of solid-air-water. The results show that the contact angle for the surface without coating decreases with an increase of the fractional depth of penetration more drastically than that for the surface with coating. We compared the experimental and simulated results. It is shown that the measured contact angles of the shark skin template and the shark skin replica are within the simulated results. Therefore the contact angle of water droplet for rough surfaces can be estimated by the developed numerical method in this study.

• 한국수산과학회지
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• 제42권6호
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• pp.574-579
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• 2009

Acid- and pepsin-solubilized collagens were extracted from the skin of shark (Isurus oxyrinchus) and their physicochemical properties were characterized by amino acid analysis, SDS-PAGE, the composition of collagen types, solubility and denaturation temperature. Acid - and pepsin-solubilized collagens from shark skin had an imino acid of 188.8 and 186.2 residues/1,000 amino acids, respectively. SDS-PAGE showed two different${\alpha}$ chains ($\alpha1$ and $\alpha2$) and $\beta$-component. The component ratio of type I and V was 10:1, and the type III was not found. Solubility of acid-soluble collagen was low in the range of pH 6.0 to pH 11.0. On the other hand, pepsin-solubilized collagen showed a low solubility in the range of pH 7.0-9.0. Temperature for denaturation of acid- and pepsin-solubilized collagens were $25^{\circ}C$ and $27^{\circ}C$, respectively.

• Tribology and Lubricants
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• 제28권6호
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• pp.297-302
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• 2012

We conducted 3D elastic contact analysis of a sharkskin surface pattern for the characteristic assessment of biomimetic shark skin structure pattern for engineering applications. Rough sharkskin surfaces of similar size with real shark skin scales are generated numerically. Under the assumption of the contact of a plate on the generated sharkskin surface, contact performances such as contact pressure, real contact area, and surface separation are evaluated.

• Tribology and Lubricants
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• 제35권2호
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• pp.94-98
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• 2019

The riblet structure like shark skin has been widely studied owing to its drag reduction and anti-fouling properties. In this study we simulated the wettability of an oil droplet on a riblet surface. We developed a numerical analysis method using the Wenzel equation and Cassie-Baxter equation that can estimate the contact angle with a penetrated depth of the droplet on rough surfaces. Riblet surfaces with nine scales composed of five hemi-elliptical ribs are generated numerically. The variation of contact angles with fractional depth of penetration for the generated riblet surfaces with and without coatings is demonstrated in the condition of solid-air-oil and solid-water-oil interfaces. The contact angle for the uncoated surface decreases with increasing fractional depth of penetration more drastically than that for the coated surface. For the effect of surface roughness on the contact angle of the droplet, the oleophilic surface gives lower contact angle when the surface is rougher, whereas the oleoophobic surface gives higher contact angle with higher roughness To verify the analysis results, the wetting angle was measured in the solid-air-oil interface and solid-water-oil interface for the shark-skin template and shark-skin replica. The effects of teflon coating were also evaluated. It is shown that the simulation results cover the experimental ones.

• Fisheries and Aquatic Sciences
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• 제5권2호
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• pp.136-140
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• 2002

Every year fish skin, bone and intestines are discarded as processing waste material. The use of fish processing waste material is more economical and environmental-friendly. The leather-like material was produced using shark intestine. Physical charactistics such as tensile strength, elongation, tongue tearing strength, and bursting strength of the leather-like material were measured, and compared with those of a commercial leather product. The values of tensile strength, elongation, tongue tearing strength, and bursting strength of the leather-like material were $3.3kg/mm^2$, $53\%$, 13.0kg/mm and $18kg/cm^2$, respectively. Elongation $(l09\%)$ of the leather-like material coated with lacquer was higher than that of a commercial leather material, and the other factors were similar. The tensile strength and tongue tearing strength of the leather-like material was higher than those of shoes leather, but bursting strength was lower. These results suggested a potential value to use the leather-like material from shark intestines as a substitute for commercial leathers.

• Archives of Plastic Surgery
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• 제45권1호
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• pp.80-84
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• 2018

Although uncommon, shark attacks can lead to devastating outcomes for victims. Surgeons also face unique challenges during operative management such as exsanguination, shock, specific injury patterns and infections. This case report presents the management of a 39-year-old previously healthy female attacked by a shark while on vacation in Mexico. The patient sustained severe injuries to her left arm and her left thigh. She was transferred to a Canadian institution after ambiguous operative management in Mexico and presented with no clear antibiotic coverage and a Volkman's contracture of the left upper extremity. In total, the patient underwent four washouts of wounds, two split-thickness skin grafts, one free anterolateral thigh flap, and one free transverse rectus abdominus myocutaneous flap for the reconstruction and salvage of the left lower extremity. This article highlights the specifics of this case and describes important points in managing these devastating injuries.