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Fei-Yi Hung, Truan-Sheng Lui, Li-Hui Chen, Kung-An Lan
2008 Volume 49 Issue 7 Pages
1491-1495
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: April 09, 2008
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Both Sn-9Zn and Sn-9Zn-0.25RE solders were used to investigate the effect of RE (rare earth elements) addition on their solidification structures and electrical current properties. The results indicate that adding RE not only made the needle-like Zn-rich phases finer, but also caused the Sn-Zn eutectic phases to decrease. RE elements existed mostly in the β-Sn phases and could not form intermetallic compounds. After direct current (DC) testing and electrical conductivity (%IACS) testing, the fusing electrical direct current density of the 0.25RE solder was higher than the Sn-9Zn solder, however, the electrical conductivity had an inverse tendency. Also, the RE element addition restrained electromigration and enhanced diffusion to occur easily in the Sn-9Zn solder.
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Fei-Yi Hung, Truan-Sheng Lui, Li-Hui Chen, Ping-Hui Chen
2008 Volume 49 Issue 7 Pages
1496-1502
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: April 09, 2008
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The tensile properties of Sn-9Zn-xGa (
x=0, 0.4, 0.6, 0.8 mass%) solders at room temperature and 120°C were first explored, and the specimens were then used to investigate the surface thin film characteristics. The results indicate that increasing the Ga content not only promoted needle-like Zn-rich phases to grow, but also caused the tensile strength and hardness to increase. In addition, the Ga was mostly solid solution in both β-Sn phases and bar-like Zn-rich phases. For high temperature tensile testing, the strength of the Sn-9Zn-xGa specimens was higher than the Sn-9Zn specimen. On the surface thin film, the effect of Ga solid solution not only promoted anti oxidation, but also suppressed the growth of the oxidative thin film of the Sn-9Zn solder under reflow or aging.
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Fangjie Cheng, Hiroshi Nishikawa, Tadashi Takemoto
2008 Volume 49 Issue 7 Pages
1503-1507
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: March 27, 2008
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In the present paper, in order to evaluate the creep properties of Co/Ni-bearing SAC305 lead-free alloys, the strain rate change tensile (SRCT) test was conducted. Two parameters,
m0 and
k, obtained from the SRCT test could be applied to estimate the thermal fatigue resistance and the creep properties for lead-free solder alloys. The
m0 value implied the material’s creep resistance, and the
k value revealed the stability of the creep resistance during the whole tensile test process. The Co/Ni-bearing SAC305 solder alloys showed much lower
m0 and
k values than the conventional Sn37Pb solders which indicated that the Co/Ni-bearing SAC305 solder alloys possessed of excellent thermal fatigue resistance and higher creep resistance. For the lead free solder alloys, high temperature aging led to microstructural coarsening. After aging, the
m0 value increased meanwhile the
k value decreased for the Co/Ni-bearing SAC305 solders. Furthermore, the two parameters showed a converse change tendency between the conventional Sn37Pb and Co/Ni-bearing SAC305 solders after high temperature aging, which implied that they have different creep mechanism. It can be deduced that, for the conventional Sn37Pb solder, the grain boundary slide is the dominant creep mechanism, whereas the Co/Ni-bearing SAC305 solders showed a dislocation glide/climb creep mode.
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Ying-Hui Wang, Tadatomo Suga
2008 Volume 49 Issue 7 Pages
1508-1512
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: May 21, 2008
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Two solid-state bonding methods, thermocompression bonding (TCB) and surface activated bonding (SAB), were used for studying the effect of surface contamination on the bonding of Sn-Ag-Cu bumps in ambient air. The surface contamination was analyzed by X-ray photoelectron spectroscopy. Correlated to the surface contamination, the influence of Ar-plasma pretreatment time as well as the air exposure time on the shear strength was investigated in SAB process. The bonding of Sn-Ag-Cu bumps was achieved at 25–200°C benefiting from dispersing the surface contamination. With an Ar-plasma activation process prior to the assembly under a low-vacuum background, the carbon contaminants on the bump surfaces in SAB process was removed, and the required bonding pressure or temperature to achieve a high shear strength and bond yield is lower than that in TCB process.
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Ikuo Shohji, Hirohiko Watanabe, Takeshi Okashita, Tsutomu Osawa
2008 Volume 49 Issue 7 Pages
1513-1517
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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The impact properties of solder ball joints with Sn-Ag-Cu-Ni-Ge lead-free solders and Cu electrodes were investigated in the aged conditions at 393 K. The impact properties evaluated was compared with Sn-Ag and Sn-Ag-Cu solder joints. The impact properties of Sn-Ag-Cu-Ni-Ge joints were superior to those of Sn-Ag and Sn-Ag-Cu joints. In the cases of Sn-Ag and Sn-Ag-Cu joints, fracture mainly occurred in the intermetallic compounds (IMC) layer formed in the joint interface regardless of aging treatment. On the contrary, main fracture mode was solder fracture in as-reflow Sn-Ag-Cu-Ni-Ge joints. Although the main fracture mode gradually changed from solder fracture to IMC fracture upon aging, Sn-Ag-Cu-Ni-Ge joints had excellent impact reliability compared with Sn-Ag and Sn-Ag-Cu joints even after aging at 393 K for 1000 h.
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Hiroshi Nishikawa, Akira Komatsu, Tadashi Takemoto
2008 Volume 49 Issue 7 Pages
1518-1523
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: May 14, 2008
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Among various lead-free alloys, Sn-Ag(-Cu) system solders are considered the most promising lead-free solders for both wave and reflow soldering technology. Moreover, to improve the characteristics of lead-free solders, the effect of the addition of minor elements to lead-free solders on the properties of solder and interfacial reactions have been studied. The purpose of this research was to investigate the addition of Ni or Co to the Sn-Ag solder on the microstructure and the joint strength of the interface with metallization layer of the substrate. As a metallization layer of the substrate, bare Cu and electroless Ni-P plating were used. For the reflow process, test samples were heated in a radiation furnace at 523 K for 60 s, and for the aging process, some samples were heat-treated in an oil bath at 423 K for 168 h, 504 h and 1008 h. Results show the addition of Ni or Co was effective for the IMC formation and growth at the interface with a Cu pad during reflow and aging process, and the addition of Co, except Ni, affected the pull strength of the solder joint with electroless Ni-P plating during aging process.
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Yoshihiko Kanda, Yoshiharu Kariya, Yusuke Mochizuki
2008 Volume 49 Issue 7 Pages
1524-1530
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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Effect of holding time and temperature on the fatigue life of micro Sn-Ag-Cu solder joint has been studied with waveform of triangle and trapezoid wave at 298 K and 398 K. Both the microstructural coarsening and the crack propagation occurred simultaneously and therefore the cyclic load decreased rapidly in the trapezoidal wave at 398 K compared with the other conditions. Therefore, under the condition of waveform that includes holding time at high temperature, it is necessary to define fatigue life by considering crack length, although the load drop life definition is typically employed for the low cycle fatigue evaluation. The fatigue life of Sn-Ag-Cu micro solder joints is not strongly affected by temperature and holding time when the crack length is considered to define fatigue life. This is different form the trends in large scale bulk specimen and is attributed to the peculiar microstructure of the Sn-Ag-Cu.
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Seong-Jun Kim, Keun-Soo Kim, Sun-Sik Kim, Chung-Yun Kang, Katsuaki Sug ...
2008 Volume 49 Issue 7 Pages
1531-1536
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: May 31, 2008
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Melting range, microstructure, mechanical properties and spreadabililty of Zn-(4∼6 mass%)Al-(1∼6 mass%)Cu alloys were investigated. Liquidus temperature was targeted between 655 and 675 K, and solidus temperature was targeted to 645 K. The liquidus temperature of the Zn-Al-Cu solders increased with Cu contents, but it decreased with Al contents. Microstructures of the Zn-Al-Cu solders consisted of primary ε-phase (CuZn
4), η-phase (Zn matrix), α-η eutectic phase (Zn-Al eutectic) and ε-η eutectic phase (Zn-Cu eutectic), irrespective of the Al and Cu contents. Increasing the Al and Cu contents, hardness and tensile strength increased, but elongation decreased. The Al content played an important role in improving the spread ratio, the Cu content had no significant influence on the spread ratio.
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Yusuke Akada, Hiroaki Tatsumi, Takuto Yamaguchi, Akio Hirose, Toshiaki ...
2008 Volume 49 Issue 7 Pages
1537-1545
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: May 01, 2008
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We have proposed a novel bonding process using silver nanoparticles, which can be alternative to lead-rich high melting point solders. The bonding mechanism of silver metallo-organic nanoparticles to bulk materials (gold and copper) is discussed based on the observations of the bonded interface using Transmission Electron Microscope (TEM). At the interface of sintered silver and bulk gold, the crystal orientation of silver corresponded to that of gold. It is thought that the epitaxial layer of silver formed through silver nanoparticles being oriented in the direction of the gold crystal. At the interface of sintered silver and bulk copper, no epitaxial layer of silver on the copper crystal formed. Though the appearance of the crystal structure of silver/copper interface is different from that of the silver/gold interface, copper as well as gold are coherent with silver, and have been successfully bonded using the silver nanoparticles.
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Noriko Nitta, Yukari Ohoka, Koichi Sato, Qiu Xu, Yoshihiko Hayashi, To ...
2008 Volume 49 Issue 7 Pages
1546-1549
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 11, 2008
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Cellular defect structure forms on GaSb, InSb and Ge surfaces irradiated with energetic ions. These structures are generated after void formation via the movement of point defects induced by ion irradiation. In this transmission electron microscopic study, void formation by thin foil irradiation (irradiation after polishing for transmission electron microscopy (TEM)) was compared with void formation by bulk irradiation (cross-sectioning after ion irradiation), in order to investigate the effect of surface sinks for the point defects. The voids formed in GaSb and InSb by thin foil irradiation with 60 keV Sn
+ at a temperature of 100–150 K were smaller than those formed by bulk irradiation. The diameters and densities of the voids increased rapidly as the ion dose increased from 1×10
14 to 2×10
14 ions/cm
2 under both types of irradiation. Amorphous halos were observed in the selected area diffraction patterns (SAED) of the thin foil irradiation specimens in addition to the main spots of the zincblende structure at a dose of 1×10
14 ions/cm
2. This finding contrasts with the polycrystalline ring patterns observed in the SAED of the bulk specimen under the same dose. It was concluded that the easy escape of interstitials to the surface assists both void formation and amorphization in thin foil irradiation.
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Shigenari Hayashi, Daniel J. Sordelet, Larry R. Walker, Brian Gleeson
2008 Volume 49 Issue 7 Pages
1550-1557
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: May 31, 2008
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Ternary interdiffusion coefficients in the γ-Ni and γ′-Ni
3Al phases of the Ni-Al-Pt system at 1150°C were experimentally determined by applying a Boltzmann-Matano method at a common composition in the time-invariant diffusion paths for a given two couples. The variation of the main-term interdiffusion coefficients of Al, \\ ilde
DAlAlNi, with increasing of Pt content was different for the γ and γ′ phases. In γ \\ ilde
DAlAlNi generally increased with increasing Pt content, but it decreased with increase in Pt in γ′ phase. By contrast, the main-term coefficients for Pt, \\ ilde
DPtPtNi, apparently increased monotonically with increasing Pt content in both phases, but there was little dependency on Al content. The cross-term interdiffusion coefficients, \\ ilde
DAlPtNi and \\ ilde
DPtAlNi, were negative in both γ and γ′, showing that the chemical interaction between Al and Pt in these phases is negative. \\ ilde
DAlPtNi values were larger than those of \\ ilde
DPtAlNi; however, there was no clear dependence of \\ ilde
DAlPtNi and \\ ilde
DPtAlNi on Pt and Al contents within the composition ranges studied. The cross-term interdiffusion coefficients were comparable to the main-term coefficients in γ and within an order of magnitude of each other in γ′. The significance of these findings are discussed and quantitatively assessed.
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Dong-Myoung Lee, Seung-Yong Shin, Ju-Hyun Sun, Jin-Kyu Lee, Chi-Hwan L ...
2008 Volume 49 Issue 7 Pages
1558-1562
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 04, 2008
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This paper investigates the effects of Ni addition on the glass forming ability (GFA) and mechanical properties in Cu
60−xNi
xZr
22Ti
18 (
x=0∼15) metallic glass alloys. Partial substitution of Cu by Ni in the alloys improved the GFA. By increasing Ni content
x from 0 to 6, the supercooled liquid region (Δ
Tx) and crystallization temperature (
Tx) were increased, whereas the liquidus temperature decreased to reach the lowest value at
x=6. The lowering of liquidus temperature improved the GFA, and the maximum GFA of 6 mm in diameter was obtained at
x=6. The compressive strength and micro hardness of the alloys were raised by increasing Ni content, and the Ni containing alloy showed some macroscopic plasticity after yielding.
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Yoshiaki Kashiwaya, Maki Iwasa, Kuniyoshi Ishii
2008 Volume 49 Issue 7 Pages
1563-1571
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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Diamond is the ultimate state of carbon crystal. However, a transformation from diamond to graphite during gasification occurs under oxidizing atmosphere. The gasification behaviors of diamond vary with the reaction gas composition and temperature.
There has been no kinetic study on the diamond gasification. Most of the interest in this area has been related to diamond growth.
The change of morphology of diamond surface and the crystallographic orientation between the diamond and the graphite formed was presented in a previous study.
In this study, the gasification of natural diamond was investigated using TG-DTA. Kinetic analysis was performed on the basis of Langmuir-Hinshelwood type equation, in which some rate constant was modified from the previous study for coke gasification. SEM observations of the diamond surface were carried out in order to clarify the change in surface morphology. Moreover, the simultaneous gasification of diamond and graphite was carried out in order to clarify the difference in reactivity between ordinary graphite and graphite formed on the diamond during gasification.
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Hitoshi Hashimoto, Zheng Ming Sun
2008 Volume 49 Issue 7 Pages
1572-1578
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: May 31, 2008
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TiC-Ti
3SiC
2 composites having the microstructure of fine Ti
3SiC
2 grains dispersed in TiC matrix were synthesized by two processes, that is, mechanical alloying of a powder blend of Ti, Si and C followed by hot-pressing (MA-HP process) and hot-pressing of a powder blend of Ti, Si and TiC (MIX-HP process). The microstructure, damage tolerance and 4-point flexural strength of the composites were investigated. It was found that more uniform dispersion of Ti
3SiC
2 grains in TiC matrix was achieved by MA-HP process than by MIX-HP process, while the flexural strength of the composites synthesized by MA-HP process was lower than that by MIX-HP process, which may be attributed to micropores formed in the composites synthesized by MA-HP process. Preferential orientation of Ti
3SiC
2(001) and TiC(111) occurred in the composites synthesized by MA-HP process. We proposed two mechanisms of the preferential orientation. We also found that the dispersion of Ti
3SiC
2 in TiC matrix is effective in improving the damage tolerance of the brittle TiC, evidenced by the fact that no cracks emanated from the corners of Vickers indentations at a load of 9.8 N.
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Yoshiaki Kashiwaya, Maki Iwasa, Kuniyoshi Ishii
2008 Volume 49 Issue 7 Pages
1579-1588
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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Recently, a property of diamond as a semiconductor is focused on by many researchers. For the mass production, it is important to develop the manufacturing process. As it is thought that the ionic milling process has limitations, the application of gasification reactions with oxidizing gases such as CO
2, H
2O and O
2 is the best option.
In this study, reaction behaviors of diamond at temperatures of more than 1273 K were investigated under a wide range of oxygen potentials, and the crystallographic relationship from diamond to graphite was clarified.
A graphite layer was formed on the surface of diamond under both Ar gas with an oxygen potential of less than 100 ppm, and a CO
2-Ar mixture (30 vol%). The Raman spectrum consisted of the amorphous carbon and graphite. However, the graphite formed differed from ordinary graphite in the reactivity. Furthermore, the crystallographic relationship between diamond and graphite was determined to be (111)
D||(002)
G.
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Yi Hsuan Tuan, Chih Lung Lin, Chuen Guang Chao, Tzeng Feng Liu
2008 Volume 49 Issue 7 Pages
1589-1593
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 11, 2008
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The as-quenched microstructure of the Fe-30%Mn-9%Al-5%Cr-0.7%C (in mass%) alloy was single-phase austenite. When the as-quenched alloy was aged at 550°C–750°C, fine (Fe,Mn)
3AlC carbides were formed within the austenite matrix. In addition, as the aging temperature increased, a M
7C
3 carbide + D0
3→M
7C
3 carbide + B2→M
7C
3 carbide + α (ferrite) phase transition had occurred on the grain boundaries. This grain boundary precipitation behavior has never before been observed in FeMnAlC and FeMnAlCrC alloy systems.
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Hanjung Kwon, Shinhoo Kang
2008 Volume 49 Issue 7 Pages
1594-1599
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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The effect of high-energy milling on the phase transformation and carbothermal reduction was examined using an oxide mixture, TiO
2-WO
3-NiO-C, with a process to synthesize (Ti,W)C cermets. Due to the high energy involved in the mill raw, anatase TiO
2 transformed first to TiO
2-II and then to rutile, while WO
3 transformed to a high-pressure WO
3-HP and hexagonal WO
3 phase. The co-existence of WO
3 and TiO
2 enhanced the formation of a nano-crystalline or amorphous phase. The (Ti,W)C phase was formed mainly at 1150°C from TiC and WC formed in the early stages. These results were further examined using XRD, the Rietveld method and mass spectroscopy.
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Duck Y. Hwang, Jin Y. Cho, Dong H. Lee, Bong Y. Yoo, Dong H. Shin
2008 Volume 49 Issue 7 Pages
1600-1605
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 04, 2008
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The effect of sodium stannate on Plasma electrolyte oxidation (PEO) process of AZ91 Mg alloy was systematically investigated. The oxide layer formed on an AZ91 Mg alloy created using an electrolyte containing sodium stannate formed a much thicker layer consisting of: MgO, SnO, Mg
2SiO
4, and MgF
2. The result of EDS analysis shows a tin enriched zone at the oxide layer/substrate interface. Corrosion resistance of the sample coated from the electrolyte containing sodium stannate was determined to be superior to that of the sample coated from the electrolyte without sodium stannate. As a result of salt spray test for 120 hrs, severe filiform corrosion is observed on the thin oxide layer of AZ91 Mg alloy without sodium stannate. However, the sample of the electrolyte containing sodium stannate shows localized pitting corrosion. Tin ions in the electrolyte influence on the growth rate of the oxide layer, especially resulting in a formation of dense barrier layer. The co-existence of dense MgO and SnO in the oxide layer could improve the corrosion resistance of the AZ91 Mg alloy.
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Qulan Zhou, Na Li, Xi Chen, Akio Yonezu, Tongmo Xu, Shien Hui, Di Zhan ...
2008 Volume 49 Issue 7 Pages
1606-1615
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 11, 2008
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When small droplets are formed in the wet steam stage of a steam turbine, they may impact the blade surface at a high velocity and repetitive impacts cause water drop erosion, which emerges as one of the primary reliability concerns of the turbine. We propose an effective numerical framework that couples fluid mechanics with solid mechanics. The movements of water drops in a blade channel are analyzed based on the solution of the flow field of water steam in turbine, and impact statistics such as impact frequency, velocity, and position are obtained as the working condition and particle size are varied. A nonlinear wave model is established for high velocity liquid-solid impact, from which the characteristic impact pressure in liquid and peak impact stress in solid are obtained; the solutions are then superimposed with the pathways of water particles, and a fatigue analysis is carried out to elucidate the mechanisms of water drop erosion. The lifetime map on a blade surface with two different materials (1Cr13 and Ti-6Al-4V) under typical working conditions are obtained, in terms of operation hours, and the most dangerous water drop erosion regions and operating conditions of the steam turbine are deduced.
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Yoshihiro Kobayashi, Makoto Kobashi, Naoyuki Kanetake
2008 Volume 49 Issue 7 Pages
1616-1620
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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Reactive infiltration of a blended powder preform containing TiN with molten aluminum was attempted at temperatures ranging from 1173 K to 1673 K in order to fabricate nitride ceramics composite. Titanium powder as an infiltration aid was mixed with TiN powder (particle sizes: 53 μm and 1.0∼1.5 μm) by various blending ratios. Spontaneous infiltration of the blended powder with molten aluminum occurred on condition that processing temperature and titanium content in the blended powder were high enough. Spontaneous infiltration took place when processing temperature was 1673 K (TiN: 53 μm) or processing temperature was over 1173 K (TiN: 1.0∼1.5 μm). It was confirmed that Al
3Ti and TiN were the main constituents after the infiltration was completed. SiC whisker was added in the blended perform powder (TiN: 1.0∼1.5 μm, Ti: <45 μm) by various blending ratios (4∼30 vol%). The results showed that SiC whiskers were successfully dispersed by up to 10 vol% in the Al
3Ti/TiN ceramics composite.
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A. K. M. Aziz Ahamed, Hiroshi Kato
2008 Volume 49 Issue 7 Pages
1621-1628
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 11, 2008
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Cold flakes, one of casting defects, were observed through acoustic microscopy in aluminum alloy die-cast plates (ADC12), and specimens having a cold flake of different sizes were prepared and subjected to the tensile testing. The tensile strength linearly decreased with the size of the cold flake, and the decreasing rate of the strength was greater for the specimen with the exposed cold flake than that with the embedded cold flake. The in-process ultrasonic measurement was carried out during tensile testing, and it was found that the oxide layer of the cold flake was detached from the matrix to form a crack before final failure. Then by using the linear fracture mechanics, the critical value
Kc* at failure was evaluated to be 8–10 MPa·m
1⁄2 from the tensile strength, which value was slightly lower than the fracture toughness of the matrix of 11–14 MPa·m
1⁄2.
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M. I. Khan, M. L. Kuntz, E. Biro, Y. Zhou
2008 Volume 49 Issue 7 Pages
1629-1637
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: May 31, 2008
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Integration of advanced high strength steels (AHSS) into the automotive architecture has brought renewed challenges for achieving acceptable welds. Resistance spot welding (RSW) is the primary method used in welding automotive structures, which has resulted in a demand to better understand RSW of AHSS. The varying alloy contents and processing techniques used in their production has further complicated this initiative. The current study examines resistance spot welding of AHSS including 590R, DP600, DP780 and TRIP780. HSLA material is also included to represent conventional high strength steels and benchmark AHSS performance. The mechanical properties and microstructure of these resistance welded steel alloys are detailed. Furthermore, a relationship between chemistries and fusion zone hardness is produced.
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Satoshi Akamaru, Yuji Honda, Akira Taguchi, Takayuki Abe
2008 Volume 49 Issue 7 Pages
1638-1643
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 04, 2008
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Flake-shaped fine particles were modified with a thin TiN layer by a hexagonal-barrel-sputtering technique. To determine the optimum sputtering conditions, TiN films were deposited on a glass substrate by the reactive sputtering technique by varying the values of N
2 percentage, total pressure, radio-frequency (RF) power, and substrate temperature. From the analysis of XRD patterns, it was determined that a N
2 percentage of 25%, a total pressure of 1.2 Pa, a RF power of 200 W, and room temperature were suitable for the preparation of TiN films. Under these optimized conditions, Al flakes were modified with a TiN by the barrel-sputtering technique. The results of optical microscopy, X-ray diffraction measurements, scanning electron microscopy, and energy-dispersive X-ray spectroscopy measurements revealed that the surface of each Al flake was successfully coated uniformly with a TiN layer.
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Shigeaki Sugiyama, Daiki Kudo, Hitoshi Taimatsu
2008 Volume 49 Issue 7 Pages
1644-1649
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 11, 2008
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Composites of WC and SiC whisker (0–30 vol% SiC) were prepared at 1550 to 1800°C by using a resistance-heated hot pressing technique called spark plasma sintering. The composites obtained were examined for reaction products and microstructure, and were characterized for mechanical properties. The addition of small amounts of SiC induced the marked grain growth of WC, and drove the densification of WC. Above 10 vol% SiC, dispersed SiC phases impeded the grain growth of WC. Increasing sintering temperature made SiC whiskers thick and lowered the aspect ratio of whiskers. The hardness of composites decreased with increasing average grain size of WC. The Young’s modulus of dense composites was decreased with the SiC content. The addition of 3 to 5 vol % SiC greatly increased the fracture toughness of WC.
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Kazunari Uchida, Naoto Shigenaka, Toshio Sakuma, Yuji Sutou, Kiyoshi Y ...
2008 Volume 49 Issue 7 Pages
1650-1655
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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Effects of pre-strain and heat treatment on shape recovery stress and phase transformation temperature in Ti-Ni-Nb shape memory alloys with various Nb content (6, 9, and 12 mol%) were investigated by tensile testing. The recovery stress of Ti-Ni-Nb alloys increased with increasing the pre-strain and then decreased after reaching the maximum recovery stress of around 450–500 MPa at about 9% pre-strain. Martensitic transformation temperatures (
Ms,
As,
Af) also increased with increasing the applied pre-strain, while the relation between
As and pre-strain did not depend on the Nb contents and Ni/Ti ratio. Moreover, the recovery stress in the Ti-Ni-Nb alloy heat treated at 673 and 773 K after solution treatment was slightly higher than that in the solution-treated alloy. These behaviors were examined relative to the increased defect density due to pre-straining and the elimination of defects by heat treatment.
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Yoshimitsu Okazaki
2008 Volume 49 Issue 7 Pages
1656-1660
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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The effects of cold drawing and annealing on the mechanical properties and microstructure of 0.06C and 0.12C-Co-Cr-Mo-Ni-Fe alloys were examined. The 0.2% proof strength (σ
0.2%PS) and ultimate tensile strength (σ
UTS) of the cold-drawn 0.06C alloy increased proportionally as the reduction in area increased, whereas the total elongation (T. E.) decreased linearly. The 45% cold-drawn alloys showed the following σ
0.2%PS, σ
UTS, T. E., and reduction of area (R. A.): for the 0.06C alloy 1174±125 MPa, 1549±23 MPa, 10±1%, and 36±5%; for the 0.12C alloy, 1223±57 MPa, 1623±23 MPa, 12±2%, and 44±4%, respectively. In the 45% cold-drawn 0.12C alloy, M
6C carbide precipitates were observed in the dislocation network, which was caused by cold drawing. M
6C carbide precipitates were also observed in the grain and grain boundary in the 0.06C and 0.12C alloys annealed from 950 to 1200°C. The matrix was the γ-phase; no ε- or σ-phase was observed. As annealing temperature increased, the σ
0.2%PS and σ
UTS of the annealed alloys decreased gradually, while the T. E. increased linearly. Approximately 70% T. E. was obtained by annealing at 1100°C for the 0.06C alloy, and at 1200°C for the 0.12C alloys.
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Ken’ichi Yokoyama, Katsutoshi Takashima, Jun’ichi Sakai
2008 Volume 49 Issue 7 Pages
1661-1666
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 04, 2008
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The susceptibility to hydrogen absorption and hydrogen thermal desorption of titanium alloys has been investigated in a neutral 2.0% NaF solution at 37°C under various applied cathodic potentials. Ti-0.2Pd, Ti-6Al-4V and Ti-11.3Mo-6.6Zr-4.3Sn alloys absorb hydrogen under less noble potentials than −1.5 V, −1.9 V and −1.4 V versus a saturated calomel electrode, respectively. The amounts of absorbed hydrogen of Ti-0.2Pd, Ti-6Al-4V and Ti-11.3Mo-6.6Zr-4.3Sn alloys under an applied potential of −2.0 V for 24 h are approximately 1200, 100 and 1100 mass ppm, respectively. Upon immersion in the 2.0% NaF solution under an applied potential, the hydrogen thermal desorption behavior of Ti-0.2Pd alloy differs from those immersed in acid fluoride solutions, whereas the hydrogen thermal desorption behaviors of Ti-6Al-4V and Ti-11.3Mo-6.6Zr-4.3Sn alloys are similar to those immersed in acid fluoride solutions. The present results indicate that in a neutral fluoride solution, the effects of an applied potential on the hydrogen absorption and desorption behaviors of Ti-6Al-4V alloy are considerably smaller than those of commercial pure titanium reported previously, Ti-0.2Pd and Ti-11.3Mo-6.6Zr-4.3Sn alloys.
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J. Y. Huang, M. C. Young, S. L. Jeng, J. J. Yeh, J. S. Huang, R. C. Ku ...
2008 Volume 49 Issue 7 Pages
1667-1674
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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The environmentally assisted cracking behavior of Inconel Alloy 52-A508 weldment under simulated BWR coolant conditions was studied. Fatigue and corrosion fatigue crack growth rates of the dissimilar metal weldments were observed to increase with crack extension under the nominally constant Δ
K loading mode. It can be accounted for by an increase in the tensile residual stress and a decrease in the crack closure effect with the weld depth. The tensile residual stress measured by hole-drilling strain gauges increased with the weld depth. After PWHT at 621°C for 24 h, the fatigue crack growth rate in the weld did not show to increase with crack length advancement. The crack closure effects in the weld were verified to decrease with the crack increment measured by the strain gauges in front of the crack tip.
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Lihua Zhang, Tsuyoshi Tosho, Noriyuki Okinaka, Tomohiro Akiyama
2008 Volume 49 Issue 7 Pages
1675-1680
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 11, 2008
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This paper describes the design of two- and three-stage cascaded oxide thermoelectric generators (TEGs) for high-temperature heat recovery using reported data to optimize energy conversion efficiency. We used the general intermetallic compounds Bi
2(Se,Te)
3 and (Bi,Sb)
2Te
3 for the low-temperature stages and oxides of TiO
1.1, La-doped SrTiO
3, Na
xCo
2O
4, and Al-doped ZnO for the higher-temperature stages. A two-stage TEG with TiO
1.1 as the
p-type material and La-doped SrTiO
3 as the
n-type material was found to have the highest efficiency at heat-source temperatures below 852 K, while the three-stage TEG was slightly more efficient than the two-stage TEG for heat-source temperatures above 852 K. For the three-stage TEG, the optimal boundary temperature of the second and third stages was calculated to be 698 K; at this temperature, the maximum energy conversion efficiency, 13.5%, was obtained at a heat-source temperature of 1223 K. The results showed that the designed two- and three-stage cascaded oxide TEGs have high potential for heat recovery from high-temperature waste.
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Etsuro Shibata, Shun Saito, Takashi Nakamura
2008 Volume 49 Issue 7 Pages
1681-1687
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 18, 2008
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Here we show the newly developed process of microbubble froth separation enhanced by ultrasonic irradiation for colloidal slurry. In this study, microbubbles were applied to the froth separation of dilute ferrihydrite colloidal suspension. Furthermore, enhancement of the microbubbles froth separation by controlling the motion, aggregation and clustering of microbubbles using the “Bjerknes force” in ultrasonic acoustic fields was investigated. The rate of microbubble froth separation of ferrihydrite colloidal slurry was increased by the ultrasonic irradiation and was more efficient than settling separation. Adjustment of the ultrasonic frequency is important for the microbubble froth separation. With a frequency of 38 kHz producing stronger primary and secondary Bjerknes forces, the motion and clustering of microbubbles are too extreme; the microbubbles abruptly aggregated to form clusters and rose rapidly without carrying the ferrihydrite colloidal particles. However, with ultrasonic irradiation at a frequency of 430 kHz, the motion of microbubbles was moderate and they aggregated widely. In this case, the clear froth separation of ferrihydrite colloidal slurry progressed rapidly, and its rate was increased with increasing output power of ultrasonic irradiation.
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Kazunori Asano, Hiroyuki Yoneda
2008 Volume 49 Issue 7 Pages
1688-1693
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: May 31, 2008
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Short alumina fiber- and
in situ Mg
2Si particle reinforced magnesium alloy composites were fabricated by squeeze casting. The
in situ Mg
2Si particles were formed during the infiltration with the melt into the preforms consisting of the fibers having Si particles attached to their surfaces. The microstructure of the composites and their tensile strength and Young’s modulus in the range from 293 K to 523 K were investigated. The effect of the Mg
2Si particles on the tensile properties was examined by comparison with the properties of the fiber-reinforced composite without the Mg
2Si particles. Fine Mg
2Si particles with a grain size of approximately 5 μm were formed due to the rapid solidification in the permanent mold. The dispersion of the Mg
2Si having a high Young’s modulus was found to be effective for improving Young’s modulus of the fiber-reinforced magnesium alloy composite. The experimental value of the composite was in good agreement with the calculated value based on a previously proposed model. The tensile strength of the composite with 18 vol% fibers and Mg
2Si particles was higher than that of the conventional fiber-reinforced composite at both room temperature and high temperature. Examination of the fracture surfaces indicated that stress transmission between the fiber and the matrix became easy due to the particles, which reduced the fiber-to-fiber contact.
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Jui-wen Liu, Shih-chin Lee, Chih-hao Yang
2008 Volume 49 Issue 7 Pages
1694-1697
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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Electrical, structural and optical properties of annealed transparent strontium copper oxide (SCO) films were studied in this paper. These SCO films were first deposited by reactive radio frequency magnetron sputtering technique on glass substrates at room temperature with ultra highly pure oxygen and a 100 W sputtering power, and then annealed at different temperatures ranging from 373 to 723 K in an atmosphere of oxygen controlled at 101 Pa. Results showed that the resistivity increased first as the annealing temperature raised from 373 to 473 K, and then decreased when annealed at 623 K. Carrier density of an annealed film increased from 7.09×10
20 cm
−3 to 1.21×10
21 cm
−3 as the annealing temperature increased. Results also showed that the resistivity of a SCO film was highly correlated to the carrier mobility. The highest carrier mobility observed by annealing a SCO film at 623 K was 4.0×10
−5 m
2 V
−1 S
−1. The optical transmittance of an annealed SCO film in the visible range at 550 nm fell between 52.6% and 58.2%. The Hall coefficient measured at room temperature indicated the nature of the annealed films was p-type.
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G. M. Xie, Z. Y. Ma, L. Geng
2008 Volume 49 Issue 7 Pages
1698-1701
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 11, 2008
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5 mm thick brass plates were successfully friction stir welded at the tool rotation rates from 400 to 1000 rpm for a constant traverse speed of 100 mm/min. The nugget zone (NZ) consisted of the incompletely and completely-recrystallized regions. With increasing rotation rates, the fraction of the non-recrystallized grains decreased and the size of the recrystallized grains increased. The hardness values in the NZs were higher than those in the parent material (PM). Increasing the rotation rate did not exert a noticeable effect on the tensile and yield strengths of the welds, but increased the elongation. The tensile and yield strengths of the welds reached up to ∼99 and 80% of the PM, respectively. The fracture occurred in the heat affected zone that had the lowest hardness.
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Yoon-Soo Lim, Hyun-Gil Kim, Yong-Hwan Jeong
2008 Volume 49 Issue 7 Pages
1702-1705
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 18, 2008
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The effect of Nb contents on the recrystallization behavior of a binary Zr-
xNb was studied. The specimens of Zr-
xNb alloys containing 0.2, 0.4, 0.8 and 1.0 mass % Nb were prepared under various heat-treatment conditions for a cold rolled sheet. The recrystallization behavior was evaluated by using a polarized optical microscope, TEM, and a Vickers hardness tester. The recrystallization temperature of the binary alloys was slightly increased with the Nb content. It was caused by an increment of the activation energy due to an increasing Nb content. The grain growth at the high temperature region was decreased with the Nb content, because the fraction of the beta-phase, which is determined by the Nb content, was increased by increasing the Nb content. Because the minimum hardness value was observed in the temperature range between 600 and 700°C, the annealing was performed in this range to obtain a good ductility in a high Nb-containing Zr alloy.
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Masato Ueda, Ryoichi Matsunaga, Masahiko Ikeda, Michiharu Ogawa
2008 Volume 49 Issue 7 Pages
1706-1709
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
Advance online publication: June 18, 2008
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The crystallization of chemically-synthesized TiO
2 gel films by hydrothermal treatment was investigated. Pure Ti substrates were chemically treated with H
2O
2/HNO
3 to form a TiO
2 gel layer. The specimens were then hydrothermally treated with distilled water or an aqueous NH
3 solution in an autoclave at 453 K. By using NH
3, an adhesive and sufficiently crystallized TiO
2 could be synthesized on the Ti surface. TiO
2 greatly enhanced the deposition of hydroxyapatite on the surface during immersion in simulated body fluid.
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Yasumasa Chino, Kensuke Sassa, Mamoru Mabuchi
2008 Volume 49 Issue 7 Pages
1710-1712
Published: July 01, 2008
Released on J-STAGE: June 25, 2008
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Mg-1.5 mass%Zn-0.2 mass%Ce alloy was hot-rolled at 723 K and its tensile properties and stretch formability were investigated by conducting tensile and Erichsen tests at room temperature. The rolled Mg-Zn-Ce alloy exhibits greater balance of tensile elongation and stretch formability than the commercial Mg alloy, and the balance almost corresponds to that of typical structural Al alloys. This may be attributed to a texture modification, resulting from a synergistic effect of Ce addition and high temperature rolling.
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