• 제목/요약/키워드: Nitriding

검색결과 313건 처리시간 0.026초

가압소결에 의해 제조된 FeAl계 금속간 화합물의 플라즈마 질화에 의한 미세조직 및 표면경화 (Microstructure and Surface Hardening of Pressure-assisted Sintered FeAl-base Intermetallic Compound by Plasma Nitriding)

  • 박지환;박윤우
    • 한국재료학회지
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    • 제9권11호
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    • pp.1102-1107
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    • 1999
  • FeAl 기지 복합재료는 hot-pressing에 의해서 성공적으로 제조할 수 있다. 이러한 FeAl 합금의 기계적 특성에 대한 연구는 많이 진행되었으나 플라즈마 질화에 의한 표면 경화특성에 관한 연구는 아직 미흡한 실정이다. 본 연구에서는 hot-pressing으로 제조된 소결 복합재료의 미세구조와 플라즈마 질화처리시 표면경화의 관계를 분석하였다. FeAl을 기지로 하는 합금은 플라즈마 질화처리에 의해서 표면경도가 상승하는 경향을 보였고, 이러한 경향은 질화처리 시간이 증가할수록 더욱 뚜렷하였다($\textrm{H}_{\textrm{v}}$ 100gf, 확산층 : 1100~1450kg/$\textrm{mm}^2$, matrix : 330~360kg/$\textrm{mm}^2$). FeAl 합금으로 플라즈마 질화처리에 의해서 매우 우수한 표면경화특성을 얻을 수 있었다. 확산층은 플라즈마 질화처리시간이 증가할수록 두꺼워졌으며, SiC(sub)p의 함유량이 증가함에 따라 확산층은 감소하였다.

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CFD-ACE+를 이용한 ICP-nitriding system의 수치 모델링 (Numerical modeling of ICP-nitriding system using CFD-ACE+)

  • 주정훈
    • 한국표면공학회:학술대회논문집
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    • 한국표면공학회 2009년도 춘계학술대회 논문집
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    • pp.268-268
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    • 2009
  • 고밀도 유도 결합 플라즈마를 이용한 연료 전기 분리판용 질화 장치를 플라즈마를 모사할 수 있는 3차원 전산 유체 역학 프로그램인 CFD-ACE+를 이용하여 해석하였따. 내장형 안테나 타입의 유도 결합 플라즈마의 전자 온도, 밀도 균일성, 가스 유동, 얇은 기판이 촘촘히 적재 되었을 경우의 플라즈마 특성을 모사하였다.

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천연 해수에서 304 스테인리스강의 내식성에 미치는 DC glow 방전 플라즈마 이온질화처리 온도의 영향 (Effects of plasma ion nitriding temperature using DC glow discharge on improvement of corrosion resistance of 304 stainless steel in seawater)

  • 정상옥;박일초;김성종
    • Journal of Advanced Marine Engineering and Technology
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    • 제41권3호
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    • pp.238-244
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    • 2017
  • 플라즈마 이온질화 기술은 특히 스테인리스강의 표면경도 향상을 통한 기계적 성질 개선을 위해 산업 전반에서 널리 사용되고 있다. 또한 저온처리가 가능할 뿐만 아니라 담금질 강, 가스 질화 또는 침탄에 비해 변형이 적으며, 높은 표면 경도와 부식 저항성을 향상시키는 이점이 있다. 많은 연구자들에 의해 $450^{\circ}C$ 이하의 온도에서 플라즈마 이온질화 처리 시 expanded austenite(S-상)에 의해 부식 저항성이 향상되는 것으로 나타났다. 이때 대부분의 실험은 HCl 또는 NaCl과 같은 염화물 용액에서 실시되었다. 그러나 전기화학적인 요인으로서 염화물 용액과 천연해수 사이에는 차이가 있다. 따라서 본 연구에서는 304 스테인리스강에 대하여 다양한 온도에서 플라즈마 이온질화 처리 후 천연해수 용액에서 전기화학적 특성 분석을 통해 결과적으로 내식성이 가장 우수한 최적의 플라즈마 이온질화 처리 온도 조건을 규명하였다.

마이크로 펄스 플라즈마 질화에 의해 생성된 금형 공구강의 표면층에 관한 연구 -공정 변수의 영향- (The Microstructures and Properties of Surface Layer on the Tool Steel Formed by Ion Nitriding -Effects of Process Parameter-)

  • 이재식;김한군;유용주
    • 열처리공학회지
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    • 제14권1호
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    • pp.8-16
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    • 2001
  • The effects of gas composition, pressure, temperature and time on the case thickness, hardness and nitride formation in the surface of tool steels(STD11 and STD61) have been studied by micro-pulse plasma nitriding. External compound layer and internal diffusion layer and the diffusion layer were observed in the nitrided case of tool steels. The relative amounts and kind of phases formed in the nitrided case changed with the change of nitriding conditions. Generally, only nitride phases such as ${\gamma}(Fe_4N)$, ${\varepsilon}(Fe_{2-3}N)$, or $Cr_{1.75}V_{0.25}N_2$ phases were detected in the compound layer, while nitride and carbide phases such as ${\varepsilon}-nitride(Fe_{2-3}N)$, $(Cr,Fe)_{\gamma}C_3$ or $Fe_3C$ were detected in the diffusion layer by XRD analysis. The thickness of compound layer increased with the increase of nitrogen content in the gas composition. Maximum case depth was obtained at gas pressure of 200Pa.

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직접질화법에 의한(Ti, Al)N계 복합질화물의 합성(I) (Syntheses of(Ti, Al)N Powder by the Direct Nitridation (1))

  • 손용운;이영기;황연;조영수;김석윤
    • 열처리공학회지
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    • 제8권3호
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    • pp.187-196
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    • 1995
  • TiN and AlN are ceramic materials with mechanical and chemical properties for use in structural applications at elevated temperature. The purpose of this research is to develop the technology for the synthesis of (Ti, Al)N power, which shows simultancously the excellent properties of TiN and AlN, from the mixed powder($Ti_{0.25}Al_{0.75}$, $Ti_{0.5}Al_{0.5}$ and $Ti_{0.75}Al_{0.25}$) by the direct nitriding method. The effects of variables such as temperature, mixing ratio of Al to Ti in raw material were investigated. The(Ti, Al)N powder can be easily synthesized from the mixed powder by the direct nitriding method. Among the mixed powdres, the nitriding behavior decreased with increasing the ratio of Al to Ti. This behavior is well explained by the nitriding mechanism presented in this research.

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이온 질화에 의해 크롬 도금 층 위에 형성된 크롬 질화물의 성장에 관한 전산 모사 (Computer Simulation for the Growth of Cr-nitride Formed on Electroplated Cr during ion-Nitriding)

  • 엄지용;이병주;남기석;권식철;권혁상
    • 한국표면공학회지
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    • 제34권3호
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    • pp.231-239
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    • 2001
  • The structure and composition of Cr-nitrides formed on an electroplated hard Cr layer during an ionnitriding process was analyzed, and the growth kinetics of the Cr-nitrides was examined as a function of the ion-nitriding temperature and time in order to establish a computer simulation model prediction the growth behavior of the Cr-nitride layer. The Cr-nitrides formed during the ion-nitriding at $550~770^{\circ}C$ were composed of outer CrN and inner $Cr_2$N layers. A nitrogen diffusion model in the multi-layer based on fixed grid FDM (Finite Difference Method) was applied to simulate the growth kinetics of Cr-nitride layers. By measuring the thickness of each Cr-nitride layer as a function of the ion-nitriding temperature and time, the activation energy for growth of each Cr-nitride was determined; 82.26 KJ/mol for CrN and 83.36 Kj/mol for $Cr_2$N. Further, the nitrogen diffusion constant was determined in each layer; $9.70$\times$10^{-12}$ /$m^2$/s in CrN and $2.46$\times$10^{-12}$ $m^2$/s in $Cr_2$N. The simulation on the growth kinetics of Cr-nitride layers was in good agreements with the experimental results at 550~72$0^{\circ}C$.

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플라즈마질화시 방전가스중 질소가스의 비율이 공구강(SKH51)의 질화층 및 미소경도에 미치는 영향 (Effects of Nitrogen Gas Ratio on Nitride Layer and Microhardness of Tool Steel(SKH51) in Plasma Nitriding)

  • 김덕재;이해룡;곽종구;정우창;조영래
    • 한국재료학회지
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    • 제12권6호
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    • pp.447-451
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    • 2002
  • Pulsed DC-plasma nitriding has been applied to form nitride layer having only a diffusion layer. The discharge current with the variation of discharge gases is proportional to the intensity of $N_2^+$ peak in optical emission spectroscopy during the plasma nitriding. The discharge current, microhardness in surface of substrate and depth of nitride layer increased with the ratio of $N_2\;to\;H_2$ gas in discharge gases. When the ratio of $N_2\;to\;H_2$ is lower than 60% in the discharge gases, high microhardness value of 1100Hv nitride layer which contains no compound layer has been formed.

STD61 강의 내열특성향상을 위한 표면경화에 관한 연구 (A Study in the Heat Resistance Properties of STD61 Steel using the Surface Hardening Method)

  • 이구현
    • 연구논문집
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    • 통권26호
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    • pp.121-132
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    • 1996
  • The carburising surface modification treatment of the die steel has been used for improving wear resistance and heat cycle strength of the die and preventing a pitting on the surface because the carbides are forming in the matrix during carburising. Generally, the hot forging die was used after quenching-tempering treatment or nitriding after quenching-tempering treatment. The nitriding after carburising on the surface of a hot die steel and a wear resistance die steels was suggested by SOUCHARD, JACQUOT. and BUVRON. This surface modification treatment improved the adhesive and abrasive wear resistance and friction coefficient. The process was introduced to the forging die of stainless steel, titanium alloy steel, alloy and medium carbon steel and the physical properties of the die after the treatment were improved. The surface hardening treatment of the nitriding, the carburising, the boriding, and TD process were used to improved the life time of the forging die. Also, the coating process of PVD, CVD and PCVD were used and the hard chromium plating was occasionally used. Therefore, this study analyzed the effects of the carburising time and the conditions of nitriding on STD61 steel. The case depth, the surface hardness, the forming carbide size and shape during overcarburising process on the die steel were also examined.

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직접질화법에 의한 (Ti,Al)N계 복합질화물의 합성(II) (Synthesis of (Ti,Al)N Powder by the Direct Nitridation(II))

  • 조영수;이영기;손용운;박경호;김석윤
    • 열처리공학회지
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    • 제9권3호
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    • pp.219-227
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    • 1996
  • The purpose of this research is to develop the technology for the synthesis of (Ti,Al)N powder, which shows simultaneously the excellent properties of TiN and AlN, from the Ti-Al intermetallic compounds by the direct nitriding method. The effects of variables such as temperature, Ti-Al intermetallic compounds ($TiAl_3$, TiAl and $Ti_3Al$) were investigated by TG, XRD and SEM. The (Ti,Al)N powder can be easily synthesized from the intermetallic compounds by the direct nitriding method. Among the intermetallic compounds, the nitriding behavior increased with TiAl> $Ti_3Al$ > $TiAl_3$, as the difference of diffusion coefficient for nitrogen in each materials. The ternary nitride such as $Ti_2AlN$ and $Ti_3Al_2N_2$ can be synthesized by the direct nitriding method, although the ternary nitride coexist with TiN and AlN. The ternary nitrides are stable below $1400^{\circ}C$, but these are gradually decomposed into TiN and AlN above $1400^{\circ}C$.

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Linear Ion Source에 의해 증착된 Diamond-Like Carbon(DLC) 박막의 질화층 형성에 따른 밀착력 특성 연구 (Study on the Adhesion of Diamond Like Carbon Films Using the Linear Ion Source with Nitriding Layers)

  • 신창석;박민석;권아람;김승진;정원섭
    • 한국표면공학회지
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    • 제44권5호
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    • pp.190-195
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    • 2011
  • Diamond-like carbon (DLC) has many outstanding properties such as low friction, high wear resistance and corrosion resistance. However, it is difficult to achieve enough adhesion on the metal substrates because of weak bonding between DLC film and the metal substrate. The purpose of this study is to enhance an adhesion of DLC film. For improving adhesion, the substrate was treated by active screen plasma nitriding before DLC film deposing. Nitrided substrates were investigated by Glow Discharge Spectrometer (GDS), Micro-Vickers Hardness. DLC films were deposited on several metals by linear ion source, and characteristics of the films were investigated using nano-indentation, Field Emission Scanning Electron Microscope (FESEM). The adhesion was measured by scratch tester. The adhesion of DLC films was increased when nitriding layer was formed before DLC deposition. Therefore, the adhesion of DLC film can be enhanced as increasing the hardness of materials.