• Title/Summary/Keyword: Sintering Behavior

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Influence of the Internal Current on the Sintering Behavior of ZnO Ceramics Sintered by PCS Method

  • Misawa, Tatsuya;Shikatani, Noboru;Kawakami, Yuji;Enjoji, Takashi;Ohtsu, Yasunori;Fujita, Hiroharu
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09a
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    • pp.538-539
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    • 2006
  • The influence of the internal current for the ZnO ceramics on the sintering behavior by pulse current sintering (PCS) method was investigated. To clear the dependence of inner current on the sintering behavior of ZnO ceramics, direct measurement of electric resistance of ZnO specimen under sintering by SPS device was carried out. It was observed that electric resistance of specimen decreases with increase in the temperature. The electric resistance begins to decrease from the low temperature of $200^{\circ}C$. The internal structure of sintered ZnO ceramics changed by the control of the internal current in the specimen using $Al_2O_3$ plate.

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Analysis for Densification Behavior and Grain Growth of Nanocrystalline Ceramic Powder under High Temperature (나노 세라믹 분말의 고온 치밀화와 결정립 성장의 해석)

  • 김홍기;김기태
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.24 no.11
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    • pp.2749-2761
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    • 2000
  • Densification, grain growth, and phase transformation of nanocrystalline ceramic powder were investigated under pressureless sintering, sinter forging, and hot pressing. A constitutive model for densification of nanocrystalline ceramic powder was proposed and implemented into a finite element program (ABAQUS). A grain growth model was also proposed by including the effect of applied stress on grain growth when phase transformation occurs. Finite element results by using the proposed models well predicted densification behavior, deformation, and grain growth of nanocrystalline titania powder during pressureless sintering, sinter forging, and hot pressing. Finite element results by using the proposed model also well predicted experimental data in the literature for densification behavior of nanocrystalline zirconia powder during pressureless sintering and sinter forging.

Sintering and Heat Treatment Characteristics of Al-Cu-Mg Powder Metallurgy Alloy for Lightweight Automotive Parts (자동차 경량 부품 제조를 위한 Al-Cu-Mg 분말 합금의 소결 및 열처리 특성)

  • Ahn, Byungmin
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.23 no.2
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    • pp.152-156
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    • 2014
  • Lightweight materials such as aluminum and magnesium have recently received much attention in the automotive industries because of environmental and fuel-efficiency concerns. Using the powder metallurgy (PM) process for these materials creates significant opportunities for the cost-effective manufacture of lightweight automotive parts. In the present study, an Al-Cu-Mg alloy was fabricated using conventional PM processes. Primarily, the effects of the alloying elements on the sintering characteristics and mechanical behavior after heat treatment were investigated. A microstructural analysis was performed using an optical microscope and a scanning electron microscope to investigate the behavior of liquid phase sintering, including the formation of precipitates. The dependence of the mechanical behavior on the alloying elements was evaluated based on the transverse rupture strength.

Preparation and Sintering Behavior of Fe Nanopowders Produced by Plasma Arc Discharge Process

  • Choi, Chul-Jin;Yu, Ji-Hun
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09a
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    • pp.284-285
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    • 2006
  • The nano-sized Fe powders were prepared by plasma arc discharge process using pure Fe rod. The microstructure and the sintering behavior of the prepared nanopowders were evaluated. The prepared Fe nanopowders had nearly spherical shapes and consisted of metallic core and oxide shell structures. The higher volume shrinkage at low sintering temperature was observed due to the reduction of surface oxide. The nanopowders showed 6 times higher densification rate and more significant isotropic shrinkage behavior than those of micron sized Fe powders.

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An Investigation of the Stability of Y2O3 and Sintering Behavior of Fe-Based ODS Particles Prepared by High Energy Ball Milling

  • Park, Eun-Kwang;Hong, Sung-Mo;Park, Jin-Ju;Lee, Min-Ku;Rhee, Chang-Kyu;Seol, Kyeong-Won
    • Journal of Powder Materials
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    • v.20 no.4
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    • pp.275-279
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    • 2013
  • Fe-based oxide dispersion strengthened (ODS) powders were produced by high energy ball milling, followed by spark plasma sintering (SPS) for consolidation. The mixed powders of 84Fe-14Cr-$2Y_2O_3$ (wt%) were mechanically milled for 10 and 90 mins, and then consolidated at different temperatures ($900{\sim}1100^{\circ}C$). Mechanically-Alloyed (MAed) particles were examined by means of cross-sectional images using scanning electron microscopy (SEM). Both mechanical alloying and sintering behavior was investigated by X-ray diffraction (XRD) and high resolution transmission electron microscopy (HR-TEM). To confirm the thermal behavior of $Y_2O_3$, a replica method was applied after the SPS process. From the SEM observation, MAed powders milled for 10 min showed a lamella structure consisting of rich regions of Fe and Cr, while both regions were fully alloyed after 90 min. The results of sintering behavior clearly indicate that as the SPS temperature increased, micro-sized defects decreased and the density of consolidated ODS alloys increased. TEM images revealed that precipitates smaller than 50 nm consisted of $YCrO_3$.

Study on the sintering Behavior of Mechanecally Alloyed 75W-25Cu Powder Using a Dilatometry Technique

  • Lee, Seong-;Hong, Moon-Hee;Kim, Eun-Pyo-;Houng-Sub;Noh, Joon-Woong
    • Proceedings of the Materials Research Society of Korea Conference
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    • 1992.05b
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    • pp.126-126
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    • 1992
  • Solid and liquid sintering behaviors of mechanically alloyed 75W-25Cu powders have been studied by using a dilatometry technique. The sintering was performed under hydrogen atmosphere of 1 atm with a heating rate of 3 $^{\circ}C$/min. The mechanically alloyed 75W-25Cu powders were prepared by high energy ball milling process under argon atmosphere of 1 atm with alloying times of 0 to 400 h. To compare with the sintering behaviors of mechanically alloyed powders, pure Cu and W powders were also sintered under the above conditions, As the mechanical alloying time increased from 0 to 400 h, the shrinkage behavior of the alloyed powders was enhanced during the sintering, and staring temperature of liquid sintering decreased from 1083 to 1068 $^{\circ}C$. The saturation temperature, above which the shrinkage was completed, of liquid phase sintering decreased from 1248 to 1148 $^{\circ}C$ with increasing mechanical alloying time from 200 to 400 h. The residual stress of the mechanically alloyed powder was measured by X-raydiffractometer. The microstructure of sintered spcimen was observed by optical and scanning electron microscope. From these results, variations of solid and liquid sintering behaviors with mechanical alloying time were discussed in terms of the amount of residual stress and the distribution of W and Cu powders in the mechanically alloyed powder.

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Sintering Behavior of Ultra-fine Hydroxyapatite Powders Synthesized by Hydrothermal Reaction (수열반응으로 합성한 Hydroxyapatite 초미분말의 소결특성)

  • 최재웅;조성원;최상홀
    • Journal of the Korean Ceramic Society
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    • v.31 no.11
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    • pp.1265-1270
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    • 1994
  • Ultra-fine hydroxyapatite powder were synthesized by the hydrothermal reaction at 10 atm, 3 hrs of Ca(OH)2 suspension with (NH4)2HPO4 solution, and were characterized sintering behavior. Sintered bodies of hydroxyapatite powders which synthesized by hydrothermal reaction method has less weight loss, less sintering shrinkage and superior mechanical property, and was more dense than sintered bodies of hydroxyapatite powder which synthesized by wet method. Sintered bodies were hydroxyapatite single phase. When soack in Ringer's solution for 2 weeks, hydroxyapatite powders preserved hydroxyapatite and sintered body absorbed trace of Ca2+ ion with soaked time.

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Behavior of Isolated Pores during Liquid Phase Sintering of $MgO-CaMgSiO_4$ System ($MgO-CaMgSiO_4$ 계 액상소결중의 고립기공거동)

  • 송병무;김정주;김도연
    • Journal of the Korean Ceramic Society
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    • v.22 no.3
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    • pp.7-12
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    • 1985
  • A theoretical model describing the behavior of isolated pores during liquid phase sintering was developed and the experimental results obtained by the $80MgO-CaMgSiO_4$ specimens were given. Most of isolated pores once formed in the interior of specimen were not eliminated because the pressure of trapped non-diffusable gas in the pore like $N_2$ increases very rapidly with pore volume contraction. As sint-ering time increase it was observed that the number of pores decreases whereas the average size of pore increases. This phenomenon was interpreted in terms of the MgO growth during sintering which results in the coalescence of isolated pores. The increase of pore size resulting from pore coalescence was attributed to the main cause of the overfiring phenomena ; the higher sintering temperature or a long time sintering leads to a decrease in density.

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In-Situ Measurement of Densification Behavior of Nano Cu Powders during Sintering (In-Situ 측정에 의한 나노 Cu 분말의 소결 공정 시 치밀화 거동)

  • Yoon, S.C.;Bok, C.H.;Kwak, E.J.;Rhee, C.K.;Kim, H.S.
    • Transactions of Materials Processing
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    • v.16 no.3 s.93
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    • pp.210-214
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    • 2007
  • Manufacturing bulk nanostructured materials with least grain growth from initial powders is challenging because of the bottle neck of bottom-up methods using the conventional powder metallurgy via compaction and sintering. In the study, densification behavior of nano Cu powders during pressureless sintering was investigated using an in-situ optical dilatometer technique. The initial heating and steady temperature stages during the sintering of nano Cu powder compacts were observed. At the initial heating stage, the powder compact has many porosities and full densification needs high temperature and/or high pressure sintering. In the experimental analysis, changes in geometry and density were measured and discussed for optimal consolidation and densification by the in-situ optical dilatometer.

Microstructure and Sintering Behavior of ZnO Thermoelectric Materials Prepared by the Pulse-Current-Sintering Method

  • Shikatani, Noboru;Misawa, Tatsuya;Ohtsu, Yasunori;Fujita, Hiroharu;Kawakami, Yuji;Enjoji, Takashi
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09a
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    • pp.682-683
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    • 2006
  • Thermoelectric conversion efficiency of thermoelectric elements can be increased by using a structure combining n-type and p-type semiconductors. From the above point of view, attention was directed at ZnO as a candidate n-type semiconductor material and investigations were made. As the result, a dimensionless figure of merit ZT close to 0.28 (1073K) was obtained for specimens produced by the PCS (Pulse Current Sintering) method with addition of specified quantities of $TiO_2$, CoO, and $Al_2O_3$ to ZnO. It was found that the interstitial $TiO_2$ in the ZnO restrains the grain growth and CoO acts onto the bond between grains. The influence of the inclusion of $TiO_2$ and CoO onto the sintering behavior also was investigated.

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