• Title/Summary/Keyword: Powders and mechanical properties

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Functionally Graded Properties Induced by Direct Laser Melting of Compositionally Selected Metallic Powders (레이저 직접 용융 시 금속분말의 함량조정을 통한 경사물성 부여)

  • Han, S.W.;Ji, W.J.;Lee, C.H.;Moon, Y.H.
    • Transactions of Materials Processing
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    • v.23 no.5
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    • pp.303-310
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    • 2014
  • Functionally graded properties are characterized by the gradual variation in composition and structure through the volume of the material, resulting in corresponding gradation in properties of the material. Direct laser melting (DLM) is a prototyping process whereby a 3-D part is built layer-wise by melting metal powder with laser scanning. Studies have been performed on the functionally graded properties induced by direct laser melting of compositionally selected metallic powders. For the current study, quadrangle structures were fabricated by DLM using Fe-Ni-Cr powders having variable compositions. Hardness and EDX analysis were conducted on cross-sections of the fabricated structure to characterize the properties. From the analysis, it is shown that functionally graded properties can be successfully obtained by DLM of selected metallic powders with varying compositions.

Complex Forming of the High-Functional Intermetallic Compound by the In Process Synthesis (In-Process합성에 의한 고기능 금속간화합물의 복합성형)

  • Han, Jung-Hyun;Park, Seong-Kab;Park, Yong-Ho
    • Journal of Powder Materials
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    • v.13 no.6 s.59
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    • pp.408-414
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    • 2006
  • [ $MoSi_2$ ] alloys with Al, B or Nb were prepared by an advanced consolidation process that combined mechanical alloying with pulse discharge sintering (complex forming) to improve the mechanical properties. Their microstructure and mechanical properties were investigated. The $MoSi_2$ alloys fabricated by complex forming method showed very fine microstructure when compared with the sample sintered from commercial $MoSi_2$ powders. Alloys made from powders milled in Ar gas had fewer silica or alumina phases as compared to their counterparts sintered from powders milled in air. In densification of the sintered body, addition of B was more effective than Al or Nb. Both Victors hardness and tensile test indicated that the alloy fabricated by the complex forming method showed better properties than the sample sintered from commercial $MoSi_2$ powders. The Al added alloy sintered from the powders milled in air had the superior mechanical properties due to the suppression of $SiO_2$ and formation of fine $Al_2O_3$ particles.

The Compressive Deformation Behavior of Nanocrystalline Al-5at.%Ti Alloy Prepared by Mechanical Alloying at Low Temperature (저온 기계적 합금화한 nanocrystalline Al-5at.%Ti 합금의 압축변형거동)

  • 정경화;오영민;김선진
    • Journal of Powder Materials
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    • v.6 no.4
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    • pp.277-285
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    • 1999
  • Mechanical properties of nanocrystalline Al-5at.%Ti alloy were investigated through high temperature compression test. Al-5at.%Ti nanocrystalline metal powders, which had finer and more equiaxed shape than those produced at room temperature, were produced by mechanical alloying at low temperature. The powders were successfully consolidated to 99fo of theoretical density by vacuum hot pressing. XRD and TEM analysis revealed that $Al_3Ti$ intermetallic compounds formed inside powders and pure Al region with coarse grains formed between powders, especially at triple junction. Mechanical properties in terms of hardness and strength were improved by grain size refinement, but ductility decreased presumably due to the formation of the weak interfaces between Al pool and powders.

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Nanostructures and Mechanical Properties of Copper Nano Powder Compacted by Magnetic Pulsed Compaction (MPC) Method (Magnetic Pulsed Compaction(MPC)법으로 성형된 Cu 나노 분말 성형체의 미세구조 및 기계적 특성)

  • 이근희;김민정;김경호;이창규;김흥회
    • Journal of Powder Materials
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    • v.9 no.2
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    • pp.124-132
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    • 2002
  • Nano Cu powders, synthesized by Pulsed Wire Evaporation (PWE) method, have been compacted by Magnetic Pulsed Cojpaction(MPC) method. The microstructure and mechanical properties were analyzed. The optimal condition for proper mechanical properties with nanostructure was found. Both pure nano Cu powders and passivated nano Cu powders were compacted, and the effect of passivated layer on the mechanical properties was investigated. The compacts by MPC, which had ultra-fine and uniform nanostructure, showed higher density of 95% of theoretical density than that of static compaction. The pur and passivated Cu compacted at $300^{\circ}C$ exhibited maximum hardnesses of 248 and 260 Hv, respectively. The wear resistance of those compacts corresponded to the hardness.

Establishment of Process of Manufacture of Ti-6Al-4V Alloy Sintering Body by MIM

  • Otsuka, A.;Suzuki, K.;Achikita, M.
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09b
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    • pp.759-760
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    • 2006
  • Ti-6Al-4V has low specific gravity, high corrosion resistance and superior mechanical properties but it is very difficult to control oxygen content in MIM process. It is necessary to use powders with coarse particle size to decrease oxygen content of powders, so feedstocks with poor fluidity and sintered bodies with lower density are obtained in such cases. Fine titanium hydride-dehydride powders were blended with atomized powders to accomplish higher fluidity and sintered density. Sintered bodies had higher sintered density and mechanical properties equivalent to those of wrought materials by controlling oxygen content less than 0.35mass%.

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Mechanical Properties of Rapidly Solidified Al-Ni-Mm Alloy Powders Consolidated by Extrusion (급속응고 Al-Ni-Mm 합금분말 압출재의 기계적 성질)

  • 김형섭
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 1998.03a
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    • pp.100-103
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    • 1998
  • In this study, Al-Ni-Mm alloy has been produced by a gas atomization technique and consolidated by a powder extrusion method. The powders showed mixed structures of amorphous, fcc-Al phases and intermetallics. Each phase shows different size and quantity with different size of the powders due to the higher cooling rate of the finer powders. Because of the difference of the microstructure, the powders with the different size show differences of the mechanical properites of the powders and extrudates.

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Fabrication Process and Properties of Carbon Nanotube/Cu Nanocomposites

  • Cha, Seung-I.;Kim, Kyung-T.;Mo, Chan-B.;Hong, Soon-H.
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09a
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    • pp.366-367
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    • 2006
  • Carbon nanotubes (CNTs) have attracted remarkable attention as reinforcement for composites owing to their outstanding mechanical properties. The CNT/Cu nanocomposite is fabricated by a novel fabrication process named molecular level process. The novel process for fabricating CNT/Cu composite powders involves suspending CNTs in a solvent by surface functionalization, mixing Cu ions with CNT suspension, drying, calcination and reduction. The molecular level process produces CNT/Cu composite powders whereby the CNTs are homogeneously implanted within Cu powders. The mechanical properties of CNT/Cu nanocomposite, consolidated by spark plasma sintering of CNT/Cu composite powders, shows about 3 times higher strength and 2 times higher Young's modulus than those of Cu matrix.

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Mechanical Properties of Extruded Bars of Gas Atomized AZ31+1wt%MM Alloy Powders (진공가스분무한 AZ31+1%MM합금 분말 압출재의 기계적 성질)

  • Kim, Yeon-Wook;Do, Dal-Hyun
    • Journal of Korea Foundry Society
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    • v.20 no.2
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    • pp.110-115
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    • 2000
  • In this study, the powders of Mg-3wt%Al-1wt%Zn-1wt%MM alloy were produced under vacuum condition by the inert gas atomization and the rapidly solidified powders were consolidated by the vacuum hot extrusion. Then the structural change of powders during extrusion was investigated. The effects of misch metal addition to AZ31 on mechanical properties of extruded bars were also examined. During extrusion of the rapidly solidified powders, their dendrite structure was broken into fragments and remained as grains of 2 ${\mu}m$ size in extruded bar. The Mg-Al-Ce intermetallic compounds formed in the interdendritic regions of powders were broken finely, too. The yield stress, tensile strength and ductility obtained in as-extruded Mg-3wt%Al-1wt%Zn-1wt%MM alloy were ${\sigma}_{0.2}=325$ MPa, ${\sigma}_{T.S.}=417$ MPa and ${\varepsilon}=16.8%$. All of these improvements on mechanical properties result from the refined micostructure and second-phase dispersions.

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Effect of Difference in Mixing Methods of Zirconia on Mechanical Properties of ZTA (ZrO2의 혼합방법 차이가 ZTA의 기계적 물성에 미치는 영향)

  • Sohn, Jeongho
    • Korean Journal of Materials Research
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    • v.23 no.11
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    • pp.625-630
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    • 2013
  • In this study, intermediate-mixed powders were prepared by loading zirconia powders initially in a ball-mill jar and loading alumina powders afterward; the initial-mixed powders were produced by loading zirconia and alumina powders together in the ball-mill jar. The effect of such differences in mixing method on the mechanical properties was investigated. In intermediate-mixed powders, the volume fraction of large particles slightly increased and, simultaneously, zirconia particles formed agglomerates that, due to early ball-mill loading of the zirconia powders only, were more dispersed than were the initial-mixed powders. For the intermediate-mixed powders, zirconia agglomerates were destroyed more quickly than were initial-mixed powders, so the number of dispersed zirconia particles rose and the inhibitory effect of densification due to the addition of a second phase was more obvious. In the microstructure of intermediate-mixed powders, zirconia grains were homogeneously dispersed and grain growth by coalescence was found to occur with increasing sintering temperature. For the initial-mixed powders, large zirconia grains formed by localized early-densification on the inside contacts of some zirconia agglomerates were observed in the early stages of sintering. The intermediate-mixed powders had slightly lower hardness values as a whole but higher fracture toughness compared to that of the initial-mixed powders.

Thermoelectric Properties of Skutterudite CoSb3 Fabricated by Mechanical Alloying Process (기계적 합금화에 의해 제조된 Skutterudite CoSb3의 열전특성)

  • Choi Moon-Kwan;Cho Hyoung-Won;Ur Soon-Chul;Kim Il-Ho
    • Korean Journal of Materials Research
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    • v.14 no.11
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    • pp.802-806
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    • 2004
  • Skutterudite $CoSb_3$ powders were produced by mechanical alloying (MA) of elemental powders using a nominal stoichiometric composition. Annealing of MA powders under specific condition led to a complete phase transformation to a semiconducting ${\delta}-CoSb_3$. Single phase $CoSb_3$ was successfully produced by vacuum hot pressing using MA powders without subsequent annealing. Phase transformations during mechanical alloying and hot pressing were systematically investigated using XRD and SEM. Thermoelectric properties as a function of temperature were evaluated for the hot pressed specimens and compared with results of analogous studies.