Journal of Powder Materials

Rapid Heating Concepts in Sintering: Randall M. German; J Powder Mater. 2013;20(2):85-99.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.085

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Powder metallurgy applied rapid heating to sintering starting year 1900. Since 1970 the study has intensified. Now rapid sintering concepts embrace a spectrum of options ranging from dunk cycles to microwave, induction, exothermic, electric field, and spark approaches. Most of the efforts are targeting reduced microstructure coarsening during sintering, although reduced material decomposition is another common goal. The efforts are impressive for simple shapes and success metrics such a small grain size after densification. Several barriers need to be removed prior to application in powder metallurgy commercial sintering. Rapid heating research needs to focus on significant property gains, accurate product dimensions, and lower costs. So far each property gain obtained with rapid heating is matched by traditional sintering and composition changes. Several examples are cited to show the goals for the next round of innovations.

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Preliminary Investigation of Preparing High Burn-Up Structure in Nuclear Fuel by Flash Sintering Using CeO2 as a Surrogate
Tongye Li, Jing Yang, Chong Yu, Yihan Liang, Yang Li, Xinfang Zhang
Acta Metallurgica Sinica (English Letters).2021; 34(12): 1758. CrossRef
Pressure‐assisted flash sintering of ZnO ceramics
Yihan Liang, Siqi Xiang, Tongye Li, Chong Yu, Ke Leng, Xinfang Zhang
Journal of the American Ceramic Society.2021; 104(12): 6131. CrossRef
Development of Novel Composite Powder Friction Modifier for Improving Wheel-rail Adhesion in High-speed Train
Min Chul Oh, Byungmin Ahn
Journal of Korean Powder Metallurgy Institute.2018; 25(6): 501. CrossRef
Spark Plasma Sintering of Titanium Spherical Particles
Mohammad Abedi, Dmitry O. Moskovskikh, Alexander S. Rogachev, Alexander S. Mukasyan
Metallurgical and Materials Transactions B.2016; 47(5): 2725. CrossRef
Effect of the SiC Size on the Thermal and Mechanical Properties of Reaction-bonded Silicon Carbide Ceramics
Chang-Sup Kwon, Yoon-Suk Oh, Sung-Min Lee, Yoonsoo Han, Hyun-Ick Shin, Youngseok Kim, Seongwon Kim
Journal of Korean Powder Metallurgy Institute.2014; 21(6): 467. CrossRef

Facile Synthesis of Highly Dispersed Ultra-fine ZrC Powders by Carbothermal Reduction Method Using Nanosized ZrO₂ and Nanosized Graphite Powder Mixtures: Wha-Jun Lee, Sung-Soo Ryu; J Powder Mater. 2013;20(2):100-106.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.100

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Abstract PDF: Ultra-fine zirconium carbide (ZrC) powder with nano-sized primary particles was synthesized by the carbothermal reduction method by using nano-sized ZrO_2 and nano-sized graphite powders mixture. The synthesized ZrC powder was well dispersed after simple milling process. After heat-treatment at 1500°C for 2 h under vacuum, ultra-fine ZrC powder agglomerates (average size, 4.2µm) were facilely obtained with rounded particle shape and particle size of ~200 nm. Ultra-fine ZrC powder with an average particle size of 316 nm was obtained after ball milling process in a planetary mill for 30 minutes from the agglomerated ZrC powder.

The Effect of Milling Conditions for Dissolution Efficiency of Valuable Metals from PDP Waste Panels: Hyo-Seob Kim, Chan-Mi Kim, Chul-Hee Lee, Sung-Kyu Lee, Hyun-Seon Hong, Jar-Myung Koo, Soon-Jik Hong; J Powder Mater. 2013;20(2):107-113.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.107

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In this study, the microstructure and valuable metals dissolution properties of PDP waste panel powders were investigated as a function of milling parameters such as ball diameter size, milling time, and rotational speed during high-energy milling process. The complete refinement of powder could achieved at the ball diameter size of 5 mm due to sufficient impact energy and the number of collisions. With increasing milling time, the average particle size was rapidly decreased until the first 30 seconds, then decreased gradually about 3µm at 3 minutes and finally, increased with presence of agglomerated particles of 35µm at 5 minutes. Although there was no significant difference on the size of the particle according to the rotational speed from 900 to 1,100 rpm, the total valuable metals dissolution amount was most excellent at 1,100 rpm. As a result, the best milling conditions for maximum dissolving amount of valuable metals (Mg: 375 ppm, Ag 135 ppm, In: 17 ppm) in this research were achieved with 5 mm of ball diameter size, 3min of milling time, and 1,100 rpm of rotational speed.

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Comparison Of Mercury Distribution Between The Types Of Spent Fluorescent Lamp
S.W. Rhee, H.-S. Park, H.H. Choi
Archives of Metallurgy and Materials.2015; 60(2): 1297. CrossRef

Direct Bonding of Cu/AlN using Cu-Cu₂O Eutectic Liquid: Junsung Hong, Jung-Hoon Lee, You-Na Oh, Kwang-Jun Cho, Doh-Hyung Riu, Sung-Tag Oh, Chang-Yong Hyun; J Powder Mater. 2013;20(2):114-119.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.114

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In the DBC (direct bonding of copper) process the oxygen partial pressure surrounding the AlN/Cu bonding pairs has been controlled by Ar gas mixed with oxygen. However, the direct bonding of Cu with sound interface and good adhesion strength is complicated process due to the difficulty in the exact control of oxygen partial pressure by using Ar gas. In this study, we have utilized the in-situ equilibrium established during the reaction of 2CuOrightarrowCu_2O + 1/2 O_2 by placing powder bed of CuO or Cu_2O around the Cu/AlN bonding pair at 1065sim1085°C. The adhesion strength was relatively better in case of using CuO powder than when Cu_2O powder was used. Microstructural analysis by optical microscopy and XRD revealed that the interface of bonding pair was composed of Cu_2O, Cu and small amount of CuO phase. Thus, it is explained that the good adhesion between Cu and AlN is attributed to the wetting of eutectic liquid formed by reaction of Cu and Cu_2O.

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Low-Temperature Sintering Behavior of Aluminum Nitride Ceramics with Added Copper Oxide or Copper
Jin-Geun Hwang, Kyung-Sik Oh, Tai-Joo Chung, Tae-Heui Kim, Yeong-Kyeun Paek
Journal of the Korean Ceramic Society.2019; 56(1): 104. CrossRef

Fabrication of Micro Pattern on Flexible Substrate by Nano Ink using Superhydrophobic Effect: Soo-Jung Son, Young-Sang Cho, Jong Joo Rha, Chul-Jin Cho; J Powder Mater. 2013;20(2):120-124.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.120

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Abstract PDF: This study is carried out to develop the new process for the fabrication of ultra-fine electrodes on the flexible substrates using superhydrophobic effect. A facile method was developed to form the ultra-fine trenches on the flexible substrates treated by plasma etching and to print the fine metal electrodes using conductive nano-ink. Various plasma etching conditions were investigated for the hydrophobic surface treatment of flexible polyimide (PI) films. The micro-trench on the hydrophobic PI film fabricated under optimized conditions was obtained by mechanical scratching, which gave the hydrophilic property only to the trench area. Finally, the patterning by selective deposition of ink materials was performed using the conductive silver nano-ink. The interface between the conductive nanoparticles and the flexible substrates were characterized by scanning electron microscope. The increase of the sintering temperature and metal concentration of ink caused the reduction of electrical resistance. The sintering temperature lower than 200°C resulted in good interfacial bonding between Ag electrode and PI film substrate.

Microwave Absorbing Properties of Rubber Composites Containing Soft Magnetic Fe-Alloy Particles: Han-Shin Cho, Sung-Soo Kim; J Powder Mater. 2013;20(2):125-128.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.125

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Magnetic and dielectric properties of rubber composites are controlled by using two kinds of high-permeability metal particles with different electrical conductivity (Sendust, Permalloy), and their effect on microwave absorbance has been investigated, focusing on the quasi-microwave frequency band (0.8-2 GHz). Noise absorbing sheets are composite materials of magnetic flake particles of high aspect ratio dispersed in polymer matrix with various filler amount of 80-90 wt.%. The frequency dispersion and magnitude of complex permeability is almost the same for Sendust and Permalloy composite specimens. However, the complex permittivity of the Permalloy composite (varepsilon_rprimesimeq250, varepsilon_rprimeprimesimeq50) is much greater than that of Sendust composite (varepsilon_rprimesimeq70, varepsilon_rprimeprimesimeq0). Due to the large dielectric permittivity of Permalloy composite, the absorbing band is shifted to lower frequency region. However, the investigation of impedance matching reveals that the magnetic permeability is still small to satisfy the zero-reflected condition at the quasi-microwave frequency band, resulting in a small microwave absorbance lower than 10 dB.

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Thermo-oxidative stability of rubber magnetic composites cured with sulfur, peroxide and mixed curing systems
Ján Kruželák, Andrea Kvasničáková, Rastislav Dosoudil
Plastics, Rubber and Composites.2018; 47(7): 324. CrossRef
Electromagnetic Wave Shielding Effect of Nano-powder Dispersed Epoxy Resin Composite
Jun-Young Han, Chul-Hee Lee, Min-Gyu Choi, Soon-Jik Hong, Joong-Hark Park, Dong-Jin Lee
journal of Korean Powder Metallurgy Institute.2015; 22(4): 234. CrossRef

The Effect of Water Droplets on the Nano Particle Size Distribution using the SMPS System: Seon-Ae Hwangbo, Min-Cheol Chu; J Powder Mater. 2013;20(2):129-133.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.129

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In this paper we have studied the effect of water droplet size on nano-particle size distribution using SMPS(Scanning Mobility Particle Sizer)system. It can be seen that the unknown peak at >100 nm was caused by water droplets which did not dry completely when DI water was used as a solvent in the SMPS system. Therefore, it is important to dry water droplets generated from atomizer in the SMPS system when measuring the particle size distribution using less than 100 nm nano-particles in diameter. From this study, It can be concluded that the napion was a useful material as dryer ones and using EAG(Electro Aerosol Generator) as a particle generator was the most effective in reducing the effect of water droplets.

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Investigation of a Standard Particle Deposition System on Wafer Surface and Its Application to Wafer Cleaning
Younsun Cho, Seokjun Hong, Seungjae Lee, Jichul Yang, Seung-Ki Chae, Taesung Kim
ECS Journal of Solid State Science and Technology.2019; 8(12): P768. CrossRef

The Effect of Sintering Temperature on the Synthesis of Quartz glass by Fumed Silica Sintering: J.H. Maeng, K.H. Yoon, S.C. Choi, H.J. Kim; J Powder Mater. 2013;20(2):134-137.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.134

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The quartz glasses were prepared by fumed silica powders sintering method at 1210°C, 1230°C, 1250°C in air and the effect of sintering temperature on their properties were investigated. The X-ray diffraction pattern, the OH concentration, the light transmittance, the apparent porosity and the density were analyzed. The transparent quartz glass were obtained above 1230°C. The OH-group and macroscopic pores were removed above 1230°C and highest density and light transmittance were obtained at 1250°C.

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Impact Behavior for Successful Particle–Particle Bonding in Vacuum Kinetic Spraying
Hansol Kwon, Yeonju Kim, Hyungkwon Park, Changhee Lee
Journal of Thermal Spray Technology.2021; 30(3): 542. CrossRef
Development and Effect Analysis of UVB-LED General Lighting to Support Vitamin D Synthesis
Seung-Taek Oh, Jae-Hyun Lim
Applied Sciences.2020; 10(3): 889. CrossRef

Microstructural Feature of Full-densified W-Cu Nanocomposites Containing Low Cu Content: Jai-Sung Lee, Sung-Soo Jung, Joon-Phil Choi, Geon-Yong Lee; J Powder Mater. 2013;20(2):138-141.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.138

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The microstructure evolution during sintering of the W-5 wt.%Cu nanocomposite powders was investigated for the purpose of developing a high density W-Cu alloy. The W-5 wt.%Cu nanopowder compact, fully-densified during sintering at 1623 K, revealed a homogeneous microstructure that consists of high contiguity structures of W-W grains and an interconnected Cu phase located along the edges of the W grains. The Vickers hardness of the sintered W-5 wt.%Cu specimen was 427pm22 Hv much higher than that (276pm19 Hv) of the conventional heavy alloy. This result is mostly due to the higher contiguity microstructure of the W grains compared to the conventional W heavy alloy.

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Evolution of microstructure and wear-friction behavior of W-30 wt.% Cu nanocomposite produced via a mechanochemical synthesis route
K. Zangeneh-madar, H. Abbaszadeh, E. Salahshour-rad, S. Seyyedin, M. Ahangarkani
International Journal of Materials Research.2020; 111(6): 491. CrossRef
In-situ synthesis of tungsten nanoparticle attached spherical tungsten micro-powder by inductively coupled thermal plasma process
Chulwoong Han, Hyunwoong Na, Yonghwan Kim, Hanshin Choi
International Journal of Refractory Metals and Hard Materials.2015; 53: 7. CrossRef

Synthesis of YBa₂Cu₃O_7-y Powder using a Powder Reaction Method and Fabrication of the Bulk Superconductors: Young Ju Jeon, Seung Yeon Park, Byung Youn You, Soon-Dong Park, Chan-Joong Kim; J Powder Mater. 2013;20(2):142-147.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.142

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Abstract PDF: YBa_2Cu_3O_7-y (Y123) powders for the fabrication of bulk superconductors were synthesized by the powder reaction method using Y_2O_3 (99.9% purity), BaCO_3 (99.75%) and CuO (99.9%) powders. The raw powders were weighed to the cation ratio of Y:Ba:Cu=1:2:3, mixed and calcined at 880°C-930°C in air with intermediate repeated crushing steps. It was found that the formation of Y123 powder was more sensitive to reaction temperature than reaction time. The calcined Y123 powder and a mixture of (Y123 + 0.25 mole Y_2O_3 + 1 wt.% CeO_2, Y_1.5Ba_2Cu_3O_x (Y1.5)) were used as raw powders for the fabrication of poly-grain or single grain superconductors. The superconducting transition temperature (T_c,onset) of the sintered Y123 sample was 91 K and the transition width was as large as 11 K, whereas the T_c,onset of the melt-grown Y1.5 sample was 90.5 K and the transition width was 3.5 K. The critical current density (J_c) at 77 K and 0 T of the sintered Y123 was 700 A/cm2, whereas the J_c of the top-seeded melt growth (TSMG) processed Y1.5 sample was 3.2times104;A/cm2. The magnetic flux density (H) at 77 K of the TSMG-processed Y123 and Y1.5 sample showed the 0.53 kG and 2.45 kG, respectively, which are 15% and 71% of the applied magnetic field of 3.5 kG. The high H value of the TSMG-processed Y1.5 sample is attributed to the formation of the larger superconducting grain with fine Y211 dispersion.

Trend in Research of Powder Consolidation Using Severe Plastic Deformation: Eun Yoo Yoon, Dong Jun Lee, Dong-Hyun Ahn, Hyuk Jae Jeong, Hyoung Seop Kim; J Powder Mater. 2013;20(2):148-154.; DOI: https://doi.org/10.4150/KPMI.2013.20.2.148

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Analyses of Sever Plastic Deformation Behavior of Hot Isostatic Pressed Ni-base Superalloy during High Pressure Torsion Process
D.J. Lee, Y. Lee, H.-K. Kim, Y.-N. Kwon, H.S. Kim, E.Y. Yoon
Transactions of Materials Processing.2016; 25(4): 254. CrossRef

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