• Title/Summary/Keyword: Powder production

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Investigation of Influence of Pulse-periodical Laser Radiation Power on Stability of Liquid-metal Contacts between Powder Particles during Selective Laser Sintering

  • Beljavin, K.E.;Minko, D.V.;Bykov, R.P.;Kuznechik, O.O.
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09a
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    • pp.518-519
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    • 2006
  • A connection between pulse-periodical laser radiation power and stability of liquid-metal contacts between powder particles during selective laser sintering (SLS) is determined based on analysis solving the problem of stability of liquid column in the gravity and capillary forces field. On the grounds of obtained relationships the optimization of pulse-periodical laser radiation power and SLS-process duration is realized, that allows to produce voluminous powder porous materials with pre-determined physical and mechanical properties and surface geometry. Results of metallographic investigations of powder porous materials of titanium powder produced with technological regimes calculated by means of obtained relationships are given in the work

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Study on the Production of Bile Juice by Chinese Moon Bear S. Y. Baig (중국산 반달곰의 웅담액 생산량에 관한 연구)

  • Baig, S.Y.;An, Deok-Gyun
    • The Journal of Korean Medicine
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    • v.17 no.2 s.32
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    • pp.245-250
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    • 1996
  • This study was conducted to investigation into production of bile juice and bile powder by Chinese moon bear. The color of bile juice and bile powder were appeared to bronze and bronze or yellowlish brown. Average production of bile juice(ml) and bile powder(g) per head and the powdered rate(%) of bile juice were 98.4ml, 20.8g and 20.4% during a surgical operation. Production of bile juice(ml) and bile powder(g) per head were appeared to 120.7ml-139.5m1 and 8.5g-10.2g during experimental period(31 days), respectively. Average daily production of bile powder(g) per head and the collectting days of bile juice was decreased; to 6.7g and 52.5 day in summer compared with another season(10.3g and 60 days) The production of bile juice and bile powder was not difference between seven times collection in 7 days and once collection in 7 days.

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Effects of Milk Products on Acid Production by Lactic Acid Bacteria in Soy Milk and Quality of Soy Yogurt (두유(豆乳)에 첨가된 유제품이 젖산균의 산생성(酸生成)과 대두요구르트의 품질에 미치는 영향)

  • Ko, Young-Tae
    • Korean Journal of Food Science and Technology
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    • v.22 no.2
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    • pp.183-191
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    • 1990
  • Soy milk prepared from soy protein concentrate was added with each of four types of milk products. Acid production and growth of five species of lactic acid bacteria(LAB) in soy milk and sensory property of soy yogurt were investigated. Acid production by LAB increased in proportion to concentration of milk products added to soy milk. Among the four milk products tested, whey powder or skim milk powder stimulated acid production by LAB more than whole milk powder or modified milk powder. Stimulating effect by whey powder on acid production by LAB was greater than other milk products at low concentration. Acid production by LAB in soy milk added with glucose or milk products significantly increased during fermentation. Sensory property of soy yogurt added with whole milk powder or skim milk powder was better than that of reference (soy yogurt added with glucose) while sensory property of soy yogurt added with whey powder or modified milk powder was Inferior to that of reference.

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GAS ATOMIZATION PARAMETRIC STUDY ON THE VIGA-CC BASED SYNTHESIS OF TITANIUM POWDER

  • DAE-KYEOM KIM;YOUNG IL KIM;HWASEON LEE;YOUNG DO KIM;DONGJU LEE;BIN LEE;TAEK-SOO KIM
    • Archives of Metallurgy and Materials
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    • v.65 no.3
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    • pp.997-1000
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    • 2020
  • With the recent advancement in technology for titanium metal powder injection molding and additive manufacturing, high yield and good flowability powder production is needed. In this study, titanium powder was produced through vacuum induction melting gas atomization with a cold crucible, which can yield various alloy compositions without the need for material pretreatment. The gas behavior in the injection section was simulated according to the orifice protrusion length for effective powder production, and powder was prepared based on the simulation results. The gas distribution changes with the orifice protrusion length, which changes the location of the recirculation zone and production yield of the powder. The produced powders had a spherical morphology, and the content of impurities (N, O) changed with the injected-gas purity.

High Efficient Metal Powder Production by Gas Atomisation Process

  • Unal, Rahmi;Aydin, Mehmet
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09a
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    • pp.14-15
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    • 2006
  • In this study, a new laval type nozzle was designed and manufactured. Using this nozzle tin powder was produced in close coupled system by using nitrogen gas at different operating conditions. The results showed that the increasing the gas pressure up to 1.47 MPa reduced the mean powder size down to 11.39 microns with a gas/melt mass flow rate ratio of 2.0. Powders are spherical in shape and have smooth surfaces.

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Production of Ultra-fine Metal Powder with Gas Atomization Processes

  • Wang, M. R.
    • Journal of ILASS-Korea
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    • v.11 no.2
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    • pp.59-68
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    • 2006
  • Experimental results of the metal powder production with internal mixing, internal impinging and the atomizer coupled with substrate design are presented in this paper. In a test with internal mixing atomizer, mean powder size was decreased from $37{\mu}m\;to\;23{\mu}m$ for Pb65Sn35 alloy as the gas-to-melt mass ratio was increased from 0.04 to 0.17. The particle size further reduces to $16.01{\mu}m$ as the orifice area is increased to $24mm^2$. The micrograph of the metal powder indicates that very fine and spherical metal powder has been produced by this process. In a test program using the internal impinging atomizers, the mean particle size of the metal powder was decreased from $22{\mu}m\;to\;12{\mu}m$ as the gas-to-melt-mass ratio increased from 0.05 to 0.22. The test results of an atomizer coupled with a substrate indicates that the deposition rate of the molten spray on the substrate is controlled by the diameter of the substrate, the height of the substrate ring and the distance of the substrate from the outlet of the atomizer. This in rum determines the powder production rate of the spraying processes. Experimental results indicate that the deposition rate of the spray forming material decreases as the distance between the substrate and the atomizer increases. For example, the deposition rate decreases from 48% to 19% as the substrate is placed at a distance from 20cm to 40cm. On the other hand, the metal powder production rate and its particle size increases as the subsrate is placed far away from the atomizer. The production of metal powder with mean particle size as low as $3.13{\mu}m$ has been achieved, a level which is not achievable by the conventional gas atomization processes.

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Micro Metal Powder Injection Molding in the W-Cu System (W-Cu의 마이크로 금속분말사출성형)

  • 김순욱;양주환;박순섭;김영도;문인형
    • Journal of Powder Materials
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    • v.9 no.4
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    • pp.267-272
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    • 2002
  • The production of micro components is one of the leading technologies in the fields of information and communiation, medical and biotechnology, and micro sensor and micro actuator system. Microfabrication (micromachining) techniques such as X-ray lithography, electroforming, micromolding and excimer laser ablation are used for the production of micro components out of silicon, polymer and a limited number of pure metals or binary alloys. However, since the first development of microfabrication technologies there have been demands for the cost-effective replication in large scale series as well as the extended range of available material. One such promising process is micro powder injection molding (PIM), which inherits the advantages of the conventional PIM technology, such as low production cost, shape complexity, applicability to many materials, applicability to many materials, and good tolerance. This paper reports on a fundamental investigation of the application of W-Cu powder to micro metal injection molding (MIM), especially in view of achieving a good filling and a safe removal of a micro mold conducted in the experiment. It is absolutely legitimate and meaningful, at the present state of the technique, to continue developing the micro MIM towards production processes for micro components.

The effect of process parameters on copper powder particle size and shape produced by electrolysis method

  • Boz, Mustafa;Hasheminiasari, Masood
    • Steel and Composite Structures
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    • v.15 no.2
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    • pp.151-162
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    • 2013
  • In this study, an electrolyzing device for the production of metal powders was designed and fabricated. The production of copper powders was performed using a variety of current densities, anode-cathode distances and power removal times. The effect of these parameters on powder particle size and shape was determined. Particle size was measured using a laser diffraction unit while the powder shape was determined by SEM. Experimental results show that an increase in current density leads to a decrease in powder particle size. In addition particle shape changed from globular dendritic to acicular dendritic with increasing the current density. Distance between the cathode and anode also showed a similar influence on powder particle size and shape. An increase in time of powder removal led to an increase in powder particle size, as the shape changed from acicular dendritic to globular dendritic.

A New Technology of Hardening Porous Materials of Titan Powders

  • Belyavin, K.E.;Minko, D.V.;Reshetnikov, N.V.
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09b
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    • pp.1012-1013
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    • 2006
  • A technology of hardening porous materials of titan powders has been elaborated. The technology is based on passing alternating current with duration of ${\sim}10^{-1}{\ldots}10^1$ s through porous ($35{\ldots}40%$) blanks made by method of Sintering by Electric Discharge (SED) by passing a pulse of current with duration of ${\sim}10^{-5}{\ldots}10^{-3}$ s. The influence of technological regimes of porous blanks treatment on their structure and properties is investigated. Geometry and dimension of contact necks between powder particles of obtained samples are evaluated. Variations of porosity and strengths as well as microstructure of porous samples materials before and after treatment are investigated. Optimum range of treatment technological regimes is determined within which porosity of $30{\ldots}35%$ with maximum strength values.

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The Optimization of Hydrogen Reduction Process for Mass Production of Fe-8wt%Ni Nanoalloy Powder

  • Jung, Sung-Soo;Kang, Yun-Sung;Lee, Jai-Sung
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09b
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    • pp.1331-1332
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    • 2006
  • The present investigation has attemped to optimize hydrogen reduction process for the mass production of Fe-8wt%Ni nanoalloy powder from ball milled $Fe_2O_3-NiO$ powder. In-situ hygrometry study was performed to monitor the reduction behavior in real time through measurement of water vapor outflowing rate. It was found that the reduction process can be optimized by taking into account the apparent influence of water vapor trap in the reactor on reduction kinetics which strongly depends on gas flow rate, reactor volume and reduction.

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