• Title/Summary/Keyword: 소결합금

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Characterization and consolidation of thermoelectric CrSi2 compound prepared by mechanical alloying (MA법으로 제조된 CrSi2 열전화합물의 평가 및 치밀화)

  • Lee, Chung-Hyo;Kim, Young
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.23 no.3
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    • pp.135-141
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    • 2013
  • Mechanical alloying was carried out to produce $CrSi_2$ thermoelectric compound using a mixture of elemental $Cr_{33}Si_{67}$ powders. An optimal milling and heat treatment conditions to obtain the single phase of $CrSi_2$ compound with fine microstructure were investigated by X-ray diffraction and differential scanning calorimetry measurement. $CrSi_2$ intermetallic compound with a grain size of 70 nm could be obtained by MA of $Cr_{33}Si_{67}$ powders for 70 hours and subsequently annealed at $650^{\circ}C$. Consolidation of the MA powders was performed in a spark plasma sintering (SPS) machine using graphite dies at $600{\sim}1000^{\circ}C$ under 60 MPa. The shrinkage of MA samples during SPS consolidation process increased gradually with increasing temperature up to $1000^{\circ}C$ and relatively significant at about $600^{\circ}C$. We tend to believe that these behaviors are deeply related to form a $CrSi_2$ compound during heating process, as can be realized from the DSC measurement. Electrical conductivity and Seebeck coefficient of sintered bodies were measured up to $900^{\circ}C$. Seebeck coefficient and power factor of $Cr_{33}Si_{67}$ compact prepared by MA and SPS at $1000^{\circ}C$ showed the maximum value of $125{\mu}V/K$ at $400^{\circ}C$ and $4.3{\times}10^{-4}W/mK^2$ at $350^{\circ}C$, respectively.

Prediction of Martensite Fraction in the Sintering Hardening Process of Ni/Mo Alloy Powder (FLC-4608) Using the Finite Element Method (Ni/Mo 합금분말(FLC-4608)의 소결경화 공정에서 유한요소법을 이용한 마르텐사이트 분율의 예측)

  • Park, Hyo Wook;Joo, Soo-Hyun;Lee, Eon Sik;Kwon, Ki Hyuk;Kim, Hyong Seop
    • Journal of Powder Materials
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    • v.22 no.1
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    • pp.10-14
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    • 2015
  • In recent years, industrial demands for superior mechanical properties of powder metallurgy steel components with low cost are rapidly growing. Sinter hardening that combines sintering and heat treatment in continuous one step is cost-effective. The cooling rate during the sinter hardening process dominates material microstructures, which finally determine the mechanical properties of the parts. This research establishes a numerical model of the relation between various cooling rates and microstructures in a sinter hardenable material. The evolution of a martensitic phase in the treated microstructure during end quench tests using various cooling media of water, oil, and air is predicted from the cooling rate, which is influenced by cooling conditions, using the finite element method simulations. The effects of the cooling condition on the microstructure of the sinter hardening material are found. The obtained limiting size of the sinter hardening part is helpful to design complicate shaped components.

Surface Roughness and Sintering Characteristics of Fe-8 wt%Ni Component Fabricated by PIM (Fe-8 wt%Ni 나노합금분말 사출성형체의 소결특성 및 표면조도)

  • Cha, Berm-Ha;Lee, Jai-Sung
    • Journal of Powder Materials
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    • v.16 no.5
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    • pp.342-350
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    • 2009
  • Development of nanoparticulate materials technology is essential to processing of highly functional nanoparticulate materials and components with small and complex shape. In this paper, the effect of particle size on surface roughness and shrinkage of sintered Fe-8 wt%Ni nanopowder components fabricated by PIM were investigated. The Fe-8 wt%Ni nanopowder was prepared by hydrogen reduction of ball-milled Fe$_2$O$_3$-NiO powder. Feedstock of nanopowder prepared with the wet-milled powder was injection molded into double gear shaped part at 120$^{\circ}C$. After sintering, the sintered part showed near full densified microstructure having apparently no porosity (98%T.D.). Surface roughness of sintered bulk using nanopowder was less than 815 nm and it was about seven times lower than 7 $\mu$m that is typically obtainable from a sintered part produced from PIM.

A Study on Tribological Characteristics of Powder Sintered Fe-base Alloy (SMF9060) (Fe계 합금 분말 소결품(SMF9060)의 마모 특성 연구)

  • Kim, Sang Youn;Kim, Dae Wook;Park, Yeong Min;Shin, Dong Chul;Kim, Tae Gyu
    • Journal of the Korean Society for Heat Treatment
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    • v.27 no.2
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    • pp.65-71
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    • 2014
  • SMF9060 material is a Fe-based powder sintered alloy that is used for several automobile components such as Synchronize Hub, oil pump and transmission. These components are required excellent wear resistance and durability. In this study, we have performed a dry wear test at the ambient air and Ar gas conditions in the room temperature, and a lubricant wear test at the room temperature and engine oil temperature of $100^{\circ}C$. The amount of wear volume and coefficient friction are measured by a Profilometer and a Ball on disk type wear tester. The wear volume in Ar gas condition was a little higher than that in the ambient air condition. However the wear volume in the lubricant wear condition was much lower than in the dry wear condition. XRD analysis of the debris in Ar gas condition showed that the oxide film was not formed.

Effects of Sintering Temperature and Atmosphere on Densification of Hypereutectic Al-Si Alloy Powders (Al-20Si-5.5Fe-1.2Mg-0.5Mn 합금분말의 치밀화에 미치는 소결온도와 분위기의 영향)

  • Lee, Jae-Wook;Park, Sang-Bin;Yang, Sang-Sun;Kim, Yong-Jin
    • Journal of Powder Materials
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    • v.15 no.3
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    • pp.196-203
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    • 2008
  • The densification behavior of Al-20Si-5.5Fe-1.2Mg-0.5Mn powders was investigated through micro-structure analysis of sintered specimens. The specimens sintered in vacuum or in high purity (99.999%) nitrogen showed porous near-surface microstructures. The densification of near-surface part was enhanced by means of ultra-high purity (99.9999%) nitrogen atmosphere. The relationship between slow densification and oxide surfaces of Al alloy powders was discussed. And the effects of Mg addition, nitrogen gas, and humidity on densification were discussed. In addition, the rapid growth of primary Si crystals above the critical temperature was reported.

Effect of Carbon Content on the Shape of WC Grains during Liquid Phase Sintering of WC-Co Hard Metals (WC-Co 초경합금의 액상소결시 WC 입자형상에 미치는 탄소량의 영향)

  • 한석희;박종구;허무영
    • Journal of Powder Materials
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    • v.6 no.4
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    • pp.307-313
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    • 1999
  • The effect of carbon content on the shape of WC grains dispersed in the Co-rich matrix during liquid phase sintering of WC-35%Co hard metals has been determined. The shape of WC grains was observed using SEM stereography after removing cobalt matrix with boiling hydrochloric acid solution. The WC grains changed from hexagonal to trigonal prism as the carbon content increased in the two-phase region of(WC + $\beta$ - Co), while the morphology of WC grains changed from trigonal to hexagonal shape as the carbon content decreased. The morphology of WC grains changes reversibly along with carbon loss or carbon pick-up. Morphology change of WC grains is attributed to crystal structure of WC, which has an asymmetric array of carbon atoms. There are two types of prismatic planes having different numbers of broken W-C bonds in WC grains. It is scrutinized that as the carbon content increases, the high energy prism planes grow fast and the crystals change from hexagonal to trigonal shape. On the other hand, when the carbon content decreases, the high energy prism planes are dissolved accompanying split of (100) plane into (101) and (101) planes.

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Effect of Spark Plasma Sintering on the Materials Properties of Water Atomized Al-Zn-Mg Alloy (Spark plasma sintering을 이용한 수분무 Al-Zn-Mg합금분말의 소결특성)

  • Kim, Sun-Mi;Kim, Taek-Soo;Kim, Young-Do;Kim, Jeong-Gon
    • Journal of Powder Materials
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    • v.16 no.1
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    • pp.63-67
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    • 2009
  • In order to investigate the effect of rapid solidification on the microstructure and the mechanical properties of Al-Zn-Mg system alloys, water atomization was carried out, since the water atomization beared the highest solidification rate among the atomization processes. The as atomized alloy powders consisted of fine grains less than 4 ${\mu}m$ in diameter, and the second particles were not detected on XRD. The microstructure as solidified was maintained even after the spark plasma sintering at the heating rate of 50 K/min. On the other hand, lower rate of 20 K/min induced a formation of $MgZn_2$ particles, resulting in strengthening of the matrix. The density was almost constant at the temperature above 698K. The sintering temperature above 698K had no effect on the strength of the sintered materials.

Influence of Particle Size Distribution on Green and Sintered Properties of Fe-Cr-Mo Prealloy Powder (Fe-Cr-Mo 합금 분말의 성형 및 소결특성에 미치는 입도분포 영향)

  • Kim, Ki-Bong;Yang, Sangsun;Kim, Yong-Jin;Park, Yong-Ho
    • Journal of Powder Materials
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    • v.20 no.1
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    • pp.7-12
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    • 2013
  • The effect of particle size distribution on green and sintered properties of Fe-Cr-Mo prealloy powder was investigated in this study. For the study, prealloyed Fe-Cr-Mo powders with different particle sizes were mixed as various ratios and cold compacted at various pressure and sintered at $1250^{\circ}C$ for 30 min, $90%N_2+10%H_2$ atmosphere in the continuous sintering furnace. The results shows that the powders with large particle size distribution have high compressibility and low ejection force. However the green strength are much less than those with small particle size distribution. Tensile prperties of the sintered specimes with large particles size also have high strength and elongation.

A Study on Characteristics of Al-Pb Strips and Its Sintering Behavior (Al-Pb계 합금분말의 성형 및 소결 특성에 관한 연구)

  • Moon, Jong-Tai;Lee, Young-Kun;Lee, Yong-Ho;Cho, Sung-Suk
    • Journal of Korea Foundry Society
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    • v.10 no.5
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    • pp.435-443
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    • 1990
  • By using the centrifugal atomization, which is one of the rapid solidification processes, Al-5,10wt%Pb alloys which are monotectic alloys were melted at 150K over two liquid phase line in the phase diagram. The melted alloy was poured on the rotating disk, being made into atomized powders, and then the solidified microstructure and morphology of the powder were investigated. This study converted the produced powders into strips by strained powder rolling. According to sintering temperature, the microstructure and hardness were investigated. The solidified structure of the powders were almost cellular dendritic structure. Pb particles ($2.0-3.0{\mu}m$) were fairl distributed in the Al matrix. Powder shapes were irregular. Rolling property and the compacting was good, respectively, because of increasing mechanical interlocking and surface area in the small size powders. With increasing temperature, the boundarys of powders were in porous form due to the diffusion. Pb particles which were surrounding the pores were inverse-segregated at the surface of the powders. With increasing of sintering temperature, the hardness of the powders and the strips decreased. In particular rolling-strip, the hardness abruptly decreased due to the release of work-hardening.

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Mechanical Properties and Fabrication of TiAl Alloy by Pulsed Current Activated Sintering (펄스전류 활성 소결에 의한 나노구조의 TiAl 합금 제조와 기계적 성질)

  • Du, Song-Lee;Kim, Na-Ri;Kim, Won-Baek;Cho, Sung-Wook;Shon, In-Jin
    • Journal of Powder Materials
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    • v.17 no.5
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    • pp.373-378
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    • 2010
  • Nanostuctured TiAl powder was synthesized by high energy ball milling. A dense nanostuctured TiAl was consolidated using pulsed current activated sintering method within 2 minutes from mechanically synthesized powders of TiAl and horizontally milled powders of Ti+Al. The grain size and hardness of TiAl sintered from horizontally milled Ti+Al powders and high energy ball milled TiAl powder were 35 nm, 20 nm and 450 kg/$mm^2$, 630 kg/$mm^2$, respectively.