• 제목/요약/키워드: nano-wear

검색결과 236건 처리시간 0.032초

Effects of Electron Beam Irradiation on Tribological and Physico-chemical Properties of Polyoxymethylene (POM-C) copolymer

  • ;;;;김민석
    • 한국진공학회:학술대회논문집
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    • 한국진공학회 2016년도 제50회 동계 정기학술대회 초록집
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    • pp.153-153
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    • 2016
  • Polyoxymethylene copolymer (POM-C) is an attractive and widely used engineering thermoplastic across many industrial sectors owing to outstanding physical, mechanical, self-lubricating and chemical properties. In this research work, the POM-C blocks were irradiated with 1 MeV electron beam energy in five doses (100, 200, 300, 500 and 700 KGy) in vacuum condition at room temperature. The tribological and physico-chemical properties of electron beam irradiated POM-C blocks have been analyzed using Pin on disk tribometer, Raman spectroscopy, SEM-EDS, Optical microscopy, 3D Nano surface profiler system and Contact angle analyzer. Electron beam irradiation at a dose of 100 kGy resulted in a decrease of the friction coefficient and wear loss of POM-C block due to well suited cross-linking, carbonization, free radicals formation and energetic electrons-atoms collisions (physical interaction). It also shows lowest surface roughness and highest water contact angle among all unirradiated and irradiated POM-C blocks. The irradiation doses at 200, 300, 500 and 700 kGy resulted in increase of the friction coefficient as compared to unirradiated POM-C block due to severe chain scission, chemical and physical structural degradation. The electron beam irradiation transferred the wear of unirradiated POM-C block from the abrasive wear, adhesive wear and scraping to mild scraping for the 1 MeV, 100 kGy irradiated POM-C block which is concluded from SEM-EDS and Optical microscopic observations. The degree of improvement for tribological attribute relies on the electron beam irradiation condition (energy and dose rate).

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Characteristics of the AlON-Al2O3 Ceramic Coatings on the Al2021 Alloy by Electrolytic Plasma Processing

  • Wang, Kai;Byeon, Sang-Sik;Kim, Geun-Woo;Park, Keun-Young;Ahmed, Faheem;Koo, Bon-Heun
    • 한국재료학회지
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    • 제22권3호
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    • pp.155-158
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    • 2012
  • In this work, AlON-$Al_2O_3$ coatings were prepared on Al2021 alloy by the electrolytic plasma processing (EPP) method. The experimental electrolytes include: 2 g/l NaOH as the electrolytic conductive agent, 10 g/l $Na_2AlO_2$ as the alumina formative agent, and 0.5 g/l $NaNO_2$, $NaNO_3$, and $NH_4NO_3$ as the nitride inducing agents. The effects of different nitrogen inducing agents were studied by a combined compositional and structural analyses of the ceramic coatings carried out by Xray diffractometry (XRD) and scanning electron microscopy (SEM) for the specimens EPP-treated at room temperature for 15 min under a hybrid voltage of 260 DC along with an AC 50 Hz power supply (200 V). Microhardness tests and wear tests were carried out to correlate the evolution of the microstructure and the resulting mechanical properties. Potentiodynamic polarizations and immersion corrosion tests were carried out in 3.5wt% NaCl water solutions under static conditions in order to evaluate the corrosion behavior of the coated samples. The results demonstrate that $NaNO_2$ is proven to be a good nitrogen inducing agent to produce high quality AlON-$Al_2O_3$ ceramic coatings.

나노분말이 함유된 온간단조용 윤활제 마찰특성 (Friction Characteristics of Warm a Forging Lubricant Containing Nano Graphite Powder)

  • 김대원;김영량;이근안;최호준;윤덕재;신영철;이준균;임성주
    • 소성∙가공
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    • 제21권1호
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    • pp.13-18
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    • 2012
  • During warm forging, materials are formed in the temperature range of $300^{\circ}C\sim900^{\circ}C$. In this temperature range, the friction between the forging die and the material is very high and has a negative effect on the forming process causing severe die wear and possible defects in the component because of stick-slip. Thus, lubrication characteristics are a very important factor for productivity during warm forging. In this paper, ring compression experiments were conducted to estimate the friction factor between the die and the materials as the main factor in characterizing the lubricant. Also, ring tests using normal graphite power as a lubricant coating system were compared with tests using nano graphite powder. The results confirm that the nano graphite is superior to the normal graphite in view of its lubricating effect. In addition, the friction factor (m) was estimated with respect to the amount of the nano graphite content in the lubricant. With 10 % nano graphite the friction factor had the lowest value as compared to other amounts. It can be concluded that the amount of the nano graphite in the coating system can be optimized to obtain the best lubrication condition between the die and the material using ring test experiments.

Ti을 첨가한 Mn 강의 인장특성과 표면특성 (Tensile Strength and Surface Characteristics of Mn Steel with Ti Addition)

  • 황령경;윤성태;이관영;황선중
    • 한국주조공학회지
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    • 제44권1호
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    • pp.9-15
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    • 2024
  • 본 연구에서는 망간강을 소재로 하는 부품의 수명향상을 위해 망간강에 Ti의 첨가량을 변화하여 망간강을 주조하였으며, 주조한 소재의 특성을 확인하기 위하여 인장 및 표면 특성 그리고 베어링률 등 가공특성에 대해 조사하였다. 고망간강에 Ti 첨가 시 0.5%를 초과 시 결정립 미세화로 인한 합금의 강도가 향상되었으며 내부에 미세 탄화물이 형성시킴으로써 Mn만 첨가된 합금에 비해 표면의 마모에 대한 저항성을 높이는 결과를 나타냄을 확인하였다. 망간강에서 Ti의 함유량이 증가함으로 인해 인장강도가 증가함에는 큰 차이가 없었으나 마모성의 부분에서는 Ti이 Mn에 비해 마모성에는 미량이지만 더 큰 영향을 끼치며 Ti의 함량에 따라 탄화물의 크기 및 분포가 조대하고 균일하게 분포하였다. 망간강을 소재로 하는 부품의 수명향상을 위해 망간강에 Ti 첨가함으로써 강도 및 표면특성을 향상시킬수 있음을 확인하였다. Ti이 수지상정 결정립의 미세화로 인한 내마모성이 우수한 재질을 개발하는데 효과있음을 알 수 있었다. Ti가 첨가된 샘플에서 탄화물은 표면 거칠기에 대한 내성을 증가시키는 것으로 나타났으며 Mn강의 특성상 표면경화가 일어나기 시작하여 수명이 연장되는 것으로 보인다.

Pulsed laser surface modification for heat treatment and nano-texturing on biometal surface

  • Jeon, Hojeong
    • 한국표면공학회:학술대회논문집
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    • 한국표면공학회 2016년도 추계학술대회 논문집
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    • pp.118.1-118.1
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    • 2016
  • The laser surface modification has been reported for its functional applications for improving tribological performance, wear resistance, hardness, and corrosion property. In most of these applications, continuous wave lasers and pulsed lasers were used for surface melting, cladding, alloying. Since flexibility in processing, refinement of microstructure and controlling the surface properties, technology utilizing lasers has been used in a number of fields. Especially, femtosecond laser has great benefits compared with other lasers because its pulsed width is much shorter than characteristic time of thermal diffusion, which leads to diminish heat affected zone. Moreover, laser surface engineering has been highlighted as an effective tool for micro/nano structuring of materials in the bio application field. In this study, we applied femtosecond and nanosecond pulsed laser to treat biometals, such as Mg, Mg alloy, and NiTi alloy, by heating to improve corrosion properties and functionalize their surface controlling cell response as implantable biomedical devices.

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Fabrication of Micro/Nano-patterns using MC-SPL(Mechano-Chemical Scanning Probe Lithography) Process

  • Sung, In-Ha;Kim, Dae-Eun
    • International Journal of Precision Engineering and Manufacturing
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    • 제4권5호
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    • pp.22-26
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    • 2003
  • In this work, a new non-photolithographic micro-fabrication technique is presented. The motivation of this work is to overcome the demerits of the most commonly used photolithographic techniques. The micro-fabrication technique presented in this work is a two-step process which consists of mechanical scribing followed by chemical etching. This method has many advantages over other micro-fabrication techniques since it is simple, cost-effective, rapid, and flexible. Also, the technique can be used to obtain a metal structure which has sub-micrometer width patterns. In this paper, the concept of this method and its application to microsystem technology are described.

미세탐침기반 기계-화학적 리소그래피공정에 의한 마이크로/나노패턴 제작 (Fabrication ofMicro/Nano-patterns using MC-SPL (Mechano-Chemical Scanning Probe Lithography) Process)

  • 성인하;김대은
    • 한국정밀공학회지
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    • 제19권11호
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    • pp.228-233
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    • 2002
  • In this work, a new non-photolithographic micro-fabrication technique is presented. The motivation of this work is to overcome the demerits of the most commonly used photolithographic techniques. The micro-fabrication technique presented in this work is a two-step process which consists of mechanical scribing followed by chemical etching. This method has many advantages over other micro-fabrication techniques since it is simple, cost-effective, rapid, and flexible. Also, the technique can be used to obtain a metal structure which has sub-micrometer width patterns. In this paper, the concept of this method and its application to microsystem technology are described.

Abrasive-reaction Interactions for Nano-composite Structures

  • T., Ketegenov;O., Tyumentseva;D., kasymbecova;N., Korobova;Z., Katranova;F., Urakaev
    • 동굴
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    • 제71호
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    • pp.13-17
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    • 2006
  • New methods of nano sized material and composite coating preparations have been considered on the base of mathematical model of abrasion reaction interaction of milling and grinding bodies in planetary centrifugal mill. The essence of the method is the abrasive and oxidative wear of the milling bodies and amorphous (better inert) additives. Interactions between them has been supplied the necessary impulse of pressure and temperature on the impact frictional contacts and promoted chemical processes. The offered method can find application for such processing as sintering and geological minerals opening.

Artificial Adhesive Surfaces Mimicking Gecko Setae: Novel Approaches in Surface Engineering

  • Singh, R. Arvind;Yoon, Eui-Sung
    • KSTLE International Journal
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    • 제9권1_2호
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    • pp.13-16
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    • 2008
  • Surface Engineering is a field closely related to Tribology. Surfaces are engineered to reduce adhesion, friction and wear between moving components in engineering applications. On the contrary, it is also necessary to have high adhesion between surfaces so as to hold/stick surfaces together. In this context, surface engineering plays an important role. In recent times, scientists are drawing inspiration from nature to create effective artificial adhesive surfaces. This article provides some examples of novel surface engineering approaches conducted by various research groups worldwide that have significantly contributed in the creation of bio-inspired artificial adhesive surfaces.

Effect of Plating Parameters on the Electrodeposition of Ni-alumina Nanocomposite

  • Gyawalia, Gobinda;Woo, Dong-Jin;Lee, Soo-Wohn
    • 한국표면공학회지
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    • 제43권4호
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    • pp.165-169
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    • 2010
  • $Ni-Al_2O_3$ nanocomposite coatings were fabricated by conventional electrodeposition technique using nickel sulfamate bath. Effect of plating parameters on electrodeposition of $Ni-Al_2O_3$ nanocomposite were studied. The properties of the nano composite were investigated by using SEM, XRD, and Vicker's microhardness test. The results demonstrated that $Al_2O_3$ incorporation in the composite coatings was found to be increased by increasing stir rate and $Al_2O_3$ content in plating bath. Microhardness of the composite coatings was also increased with increasing content of the nano particles in the plating bath. The surface morphologies of the nanocomposite coatings were found to be varied with varying pH, current densities as well as alumina content in the plating bath.