• Title/Summary/Keyword: microstructural development

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A Study on the Milli-Forming of Crystalline Materials with Damage (결함을 고려한 결정 재료의 밀리 성형에 관한 연구)

  • 김용일;심경섭;이용신
    • Proceedings of the Korean Society for Technology of Plasticity Conference
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    • 2003.05a
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    • pp.120-126
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    • 2003
  • Finite element analysis model is suggested for analysis of milli-forming process, which forms milli-size products. Since the size of workpiece in a milli-forming process ranges from a few hundred micrometers to a few millimeters, microstructural changes such as the growth of micro-voids and the development of preferred orientation in a grain become crucial factors for the success of milli-forming. This analysis model incorporates anisotropy from deformation torture and deterioration of mechanical properties due to the growth of micro-voids. Applications of the proposed modeling to milli-forming are given and the results are carefully examined to understand the deformation characteristics such as texture development and damage evolution during extrusion/drawing of a milli-bar.

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Experimental Study on the Development of High-Performance Concrete (고성능 콘크리트 개발에 관한 실험적 연구 제 1보 : 고미분말 슬래그 혼합시멘트의 물성)

  • 구자술;이영진;김남호;정재동
    • Proceedings of the Korea Concrete Institute Conference
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    • 1993.10a
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    • pp.45-50
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    • 1993
  • This paper describes some results of various tests which were carried out with varying the fineness of salg from 6000 to 10000$\textrm{cm}^2$/g and the slag content in cement from 30 to 50wt% for the perpose of utilizing finely ground blast-furnace slag as an ingredient for high-performance concrete. Test for heat of hydration, microstructural and hydration characteristics in paste, and fluidity and compressive strength in mortar were carried out. From these test results, it was found that, by properly determining the content and fineness of the slag, it is possible to manufacture high-performance concrete that has low heat of hydration, high early strength development, fine pore size and a highly densified microstructure.

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Influence of hot deformation and composition on microstructure development of magnesium-stannide alloys

  • Pandel, Divija;Banerjee, Malay K.
    • Advances in materials Research
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    • v.9 no.3
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    • pp.171-187
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    • 2020
  • The microstructural evolution of different compositions of Mg-Sn alloys (30%Sn-70%Mg, 40%Sn-60%Mg and 50%Sn-50%Mg) is studied at first to understand the changes observed with change in tin content and deformation conditions. The Mg2Sn phase increases with increase in tin content and a significant substructure development is found in 50%Sn-50%Mg alloy. The above observation led to further deformation studies on Mg2Sn based thermoelectric materials with higher tin percentage. The microstructure in terms of Electron backscatter diffraction (EBSD)measurements is studied in detail followed by the determination of thermoelectric properties i.e., Seebeck coefficient and electrical conductivity for both as cast and extruded Mg(2+x)Sn-Ag alloys. The electrical conductivity of the extruded Mg(2+x)Sn-.3wt%Ag {x =1} alloy was found to be more than its as cast counterpart while the Seebeck coefficient values remained almost the same.

State of Art Report on the Trends of Welding Consumable Development for Higher Strength Steels

  • Kim, H. J.
    • International Journal of Korean Welding Society
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    • v.2 no.1
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    • pp.52-56
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    • 2002
  • This report was prepared to give informations on a proper way to develop new consumables for the steels with improved weldability. Traditionally, hydrogen control has been pursued mainly for suppressing the HICC in HAZ but it also has contributed to HICC in weld metal. Facing the limitations in reducing the hydrogen content, it is now important to consider the microstructural control approach in order to improve the HICC resistance of weld metal . It has been shown that changes in alloy design, and hence composition and microstructure, was quite effective in producing high strength weld metal with improved resistance to cold cracking. Besides the economic test methods for evaluating susceptibility of multipass weld metal is essential to promote the development of welding consumables.

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Reaction Bonding of $ZrO_2$ and NiTi : Reaction Products Analyses on $ZrO_2/NiTi$ Bonding Interface with AEM ($ZrO_2$와 NiTi 합금의 반응접합 : 분석투과전자현미경을 이용한 $ZrO_2/NiTi$ 접합층 반응생성물 분석)

  • Kim, Young-Jung;Kim, Hwan
    • Journal of the Korean Ceramic Society
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    • v.30 no.11
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    • pp.949-954
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    • 1993
  • Microstructural development at the ZrO2/NiTi bonding interface and reaction products were examined and identified with SEM and AEM. Ti-oxide, Ti2Ni and Ni2Ti layer were observed whose thickness depends on bonding temperature typically. The development of Ti-oxide layer is related with oxygen ion in ZrO2 and liquid phase Ti2Ni. It is considered that compositional deviation from homogeneity and residual stress caused by thermal expansion mismatch are closely related with the formation of the Ti2Ni phase.

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Study for the Development of Fe-NbC Composites by Advanced PM Techniques

  • Gordo, E.;Gomez, B.;Gonzalez, R.;Ruiz-Navas, E.M.
    • Proceedings of the Korean Powder Metallurgy Institute Conference
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    • 2006.09a
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    • pp.118-119
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    • 2006
  • The development of Fe-based metal matrix composites (MMCs) with high content of hard phase has been approached by combining the use of advanced powder metallurgy techniques like high-energy milling (HEM), cold isostatic pressing (CIP) and vacuum sinterings. A 30% vol. of NbC particles was mixed with Fe powder by HEM in a planetary mill during 10h, characteristing the powder by the observation of morphology and microstructure by scanning electron microscopy (SEM). After of sintering process the variation of density, hardness,carbon content and the microstructural changes observed, permits to find the optimal conditions of processing. Afterwards, a heat treatment study was performed to study the hardenability of the composite.

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Sintering Behavior and Microstructures of Tantalum and Tantalum-Tungsten Alloys Powders (탄탈륨 및 탄탈륨-텅스텐 합금 분말의 소결성 및 미세조직 연구)

  • Kim, Youngmoo;Yang, Sung Ho;Lee, Seong;Lee, Sung Ho;Noh, Joon-Woong
    • Journal of Powder Materials
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    • v.27 no.5
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    • pp.373-380
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    • 2020
  • The purpose of this study is to investigate the densification behavior and the corresponding microstructural evolution of tantalum and tantalum-tungsten alloy powders for explosively formed liners. The inherent inhomogeneous microstructures of tantalum manufactured by an ingot metallurgy might degrade the capability of the warhead. Therefore, to overcome such drawbacks, powder metallurgy was incorporated into the near-net shape process in this study. Spark plasma-sintered tantalum and its alloys with finer particle sizes exhibited higher densities and lower grain sizes. However, they were contaminated from the graphite mold during sintering. Higher compaction pressures in die and isostatic compaction techniques also enhanced the sinterability of the tantalum powders; however, a full densification could not be achieved. On the other hand, the powders exhibited full densification after being subjected to hot isostatic pressing over two times. Consequently, it was found that the hot isostatic-pressed tantalum might exhibit a lower grain size and a higher density as compared to those obtained in previous studies.

The effect of combined carbonation and steam curing on the microstructural evolution and mechanical properties of Portland cement concrete

  • Kim, Seonhyeok;Amr, Issam T.;Fadhel, Bandar A.;Bamagain, Rami A.;Hunaidy, Ali S.;Park, Solmoi;Seo, Joonho;Lee, H.K.
    • Advances in concrete construction
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    • v.11 no.5
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    • pp.367-374
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    • 2021
  • The present study investigated the effect of the combined carbonation and steam curing on the physicochemical properties and CO2 uptake of the Portland cement concrete. Four different curing regimes were adopted during the initial 10 h of curing to evaluate the potential of carbonation curing as an alternative to conventional steam curing in the precast concrete industry from environmental and practical viewpoints. Four combinations of carbonation and steam curing conditions were applied as curing regimes to the samples at an early age. The test results indicated that the samples treated with the combined carbonation and steam curing exhibited higher early strength development compared to the other samples, signifying that carbonation curing can reduce the production time of precast concrete. Furthermore, the CO2 uptake capacity of the samples was calculated and found to be as high as 18% with respect to the mass of the paste samples. Hence, the simultaneous utilization of steam and CO2 for the fabrication of precast concrete members has the potential to make precast concrete greener and more cost-effective.

Compatibility Study between 316-series Stainless Steel and Sodium Coolant (316계 스테인리스강과 소듐 냉각재와의 양립성 연구)

  • Kim, Jung Hwan;Kim, Jong Man;Cha, Jae Eun;Kim, Sung Ho;Lee, Chan Bock
    • Korean Journal of Metals and Materials
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    • v.48 no.5
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    • pp.410-416
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    • 2010
  • Studies were carried out to establish the technology for sodium-clad compatibility and to analyze the compatibility behavior of the Sodium-cooled Fast Reactor (SFR) cladding material under a flowing sodium environment. The natural circulation facility caused by the thermal convection of the liquid sodium was constructed and the 316-series stainless steels were exposed at $650{^{\circ}C}$ liquid sodium for 1458 hours. The weight change and related microstructural change were analyzed. The results showed that the quasi-dynamic facility represented by the natural convection exhibited similar results compared to the conventional dynamic facility. Selective leaching and local depletion of the chromium, re-distribution of the carbide, and the decarburization process took place in the 316-series stainless steel under a flowing sodium environment. This process decreased as the sodium flowed along the channel, which was caused by the change in the dissolved oxygen and carbon activity in the liquid sodium.

Formation of Core-Shell Structure in BaTiO3 Grains

  • Kim, Chang-Hoon;Park, Kum-Jin;Yoon, Yeo-Joo;Kim, Young-Tae;Hur, Kang-Heon
    • Journal of the Korean Ceramic Society
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    • v.46 no.2
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    • pp.123-130
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    • 2009
  • To understand the formation of core-shell structure in $BaTiO_3$ (BT) grains in multilayer ceramic capacitors, specimens were prepared with BT powders mixed with Y and Mg, and their microstructures were investigated with scanning electron microscopy, x-ray diffractometry, and transmission electron microscopy. Microstructural investigation showed that Y dissolved easily in BT lattice to a certain depth inside of the grain, whereas Mg tended to stay at grain boundaries rather than become incorporated into BT. It was considered that in case of Y and Mg addition in a proper ratio, Y could play a dominant role in the formation of shell leading to a slight dissolution of Mg in the shell. Next, the effects of ball-milling conditions on the core-shell formation were studied. As the ball-milling time increased, the milled powders did not show a significant change in size distribution but rather an increase of residual strain, which was attributed to the milling damage. The increase in milling damage facilitated the shell formation, leading to the increased shell portion in the core-shell grain.