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Hiroshi Yasuhara, Masahiko Higuchi, Soh Ishii, Kenta Hongo, Yoshiyuki ...
2004 Volume 45 Issue 5 Pages
1402-1410
Published: 2004
Released on J-STAGE: June 24, 2005
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An orbital-dependent correlation energy functional
Ec to be accompanied by the exact exchange energy functional
Ex is proposed for applications of density-functional theory (DFT). The present
Ec comprises spin-antiparallel and spin-parallel contributions,
Ecσ−σ and
Ecσσ.
Ecσ−σ is a modification of the spin-antiparallel component of the Hartree energy functional with a factor of
gσ−σ (r, r′)−1 and
Ecσσ a modification of the spin-parallel component of the same energy functional with
gcσσ(r, r′) where
gσ−σ(r, r′) (or
gcσσ(r, r′)) is the spin-antiparallel (or the correlational part of the spin-parallel) coupling-constant-averaged pair correlation function. The present orbital-dependent
gσ−σ(r, r′) and
gcσσ(r, r′) fulfill the symmetric property, the Pauli principle and the sum rules. In the limit of uniform density the two correlation functions are reduced to the very accurate analogues of the electron liquid that involve long-, intermediate-, and short-range correlations as well as their exchange counterparts. It is stressed that the correlation energy functional
Ec in DFT should by its very nature be defined as a functional only of occupied Kohn-Sham orbitals and occupied Kohn-Sham energies for the purpose of employing the optimized potential method (OPM) to evaluate the correlation potential υ
c(r). The present scheme for
Ec, if applied to finite systems after making a suitable change in the treatment of long-range correlation, can give the correct asymptotic form of υ
c(r) of order
r−4 for large
r as well as the van der Waals potential.
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Soh Ishii, Kaoru Ohno, Yoshiyuki Kawazoe
2004 Volume 45 Issue 5 Pages
1411-1413
Published: 2004
Released on J-STAGE: June 24, 2005
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An
ab-initio calculation for a carbon oxide molecule using the Green's function approach within the
GW approximation was performed. We use an all-electron mixed-basis approach, where one wave function is expanded using both plane waves and atomic orbitals. This approach has an advantage to describe the wave function of a carbon and oxide, compared with a pseudopotential approach requiring higher cutoff energy. Obtaied
GW quasiparticle energies are in good agreement with avairable experimental value and previous
GW calculation.
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Hidekazu Ikeno, Isao Tanaka, Toru Miyamae, Takahiro Mishima, Hirohiko ...
2004 Volume 45 Issue 5 Pages
1414-1418
Published: 2004
Released on J-STAGE: June 24, 2005
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X-ray absorption near edge structure (XANES) at
L2,3-edge of 3
d transition elements is dominated by strong correlation effects among 2
p core hole and 3
d electrons. In the present study, we have performed systematic configuration interaction (CI) calculations in order to reproduce and interpret Fe-
L2,3 XANES of FeO, LaFeO
3 and SrFeO
3. Relativistic four components wave functions were obtained by solving Dirac equations with density functional theory. CI calculations were made using the relativistic molecular orbitals instead of atomic orbitals, which enables inclusion of the O-2
p orbital contributions through covalency. The oscillator strength of the electric dipole transition was then computed. Experimental XANES spectra of three compounds were satisfactorily reproduced by the theoretical spectra obtained for (FeO
6)
m− clusters in octahedral symmetry. Chemical shifts between compounds were quantitatively reproduced as well. Component analysis of CI was systematically made in order to analyze the origin of differences in spectral shapes.
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Takashi Sasaki, Yoshiyuki Egami, Atsushi Tanide, Tomoya Ono, Hidekazu ...
2004 Volume 45 Issue 5 Pages
1419-1421
Published: 2004
Released on J-STAGE: June 24, 2005
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We develop a method for high-speed and high-accuracy first-principles calculations to derive the ground-state electronic structure by directly minimizing the energy functional. Making efficient use of the advantages of the real-space finite-difference method, we apply arbitrary boundary conditions and employ spatially localized orbitals. These advantages enable us to calculate the ground-state electronic structure of a nanostructure sandwiched between crystalline electrodes. The framework of this method and numerical examples for metallic nanowires are presented.
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Akitaka Sawamura, Masanori Kohyama
2004 Volume 45 Issue 5 Pages
1422-1428
Published: 2004
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We propose a new way to reduce the number of iterations required to reach self-consistency in electronic-structure calculations in the framework of the plane-wave pseudopotential method. A prediction operator is derived from the procedure to solve the Kohn-Sham equation approximately on the basis of a second-variational approach, and then combined with a variant of Broyden's algorithm. The self-consistency is reached quite efficiently not only for semiconductor surfaces but also for intermetallic compounds either with large density of states around the Fermi level or near a threshold for the occurrence of the magnetic moment. When the magnetic moment emerges, it converges more smoothly with our prediction operator than otherwise.
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Hiroaki Kawamura, Vijay Kumar, Yoshiyuki Kawazoe
2004 Volume 45 Issue 5 Pages
1429-1432
Published: 2004
Released on J-STAGE: June 24, 2005
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Metal encapsulated silicon clusters M@Si
n (M = Ti and Cr and
n = 8−16) have been studied using
ab-initio ultrasoft pseudopotential method. Several structures for each cluster have been optimized to obtain the lowest energy isomers. Our results show that cage structures begin to form at the size of
n = 12 for Cr@Si
n and 13 for Ti@Si
n. For Ti@Si
n our results are in excellent agreement with the available experimental results. In smaller size, metal doped silicon clusters have basket structures to be of the lowest energy. The bonding nature in these clusters is discussed from the electronic charge distribution.
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Yoshiyuki Egami, Takashi Sasaki, Shigeru Tsukamoto, Tomoya Ono, Kouji ...
2004 Volume 45 Issue 5 Pages
1433-1436
Published: 2004
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We present first-principles calculations of electron conduction properties of monatomic sodium wires suspended between semi-infinite crystalline electrodes, using the overbridging boundary-matching method. We find that the conductances oscillate depending on the number of atoms in the wire,
Natom. Furthermore, the values of conductances are ∼3 G
0 (G
0 = 2
e2/
h) for the closed packed structure and ∼1 G
0 for single-row wires, which is in agreement with the experimental results of the conductance histogram.
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Sang Soo Han, Hyuck Mo Lee
2004 Volume 45 Issue 5 Pages
1437-1441
Published: 2004
Released on J-STAGE: June 24, 2005
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The closing mechanism of zigzag single-walled carbon nanotubes (SWCNT) was investigated using the molecular dynamics (MD) simulation at the experimental arcdischarge temperature of 3000 K. The (10,0) SWCNT with a diameter of 0.78 nm showed a dome-shape tip which evolved into a saddle-shaped cap that was caused by double heptagon-octagon pairs. In the case of (18,0) SWCNT with a diameter of 1.404 nm, a zipper-like closing mechanism was observed and the flat cap was obtained.
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Tae Yeon Kim, Sang Soo Han, Hyuck Mo Lee
2004 Volume 45 Issue 5 Pages
1442-1449
Published: 2004
Released on J-STAGE: June 24, 2005
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The molecular dynamics (MD) simulation employing a Tersoff potential was performed to examine the nanomechanical behavior of the β-SiC nanowire in tension. The elongation was much larger than that of the bulk β-SiC. We observed non-homogeneous deformation, and the fracture behavior was found to depend on size, orientation and temperature of the specimen. The Young's modulus calculated in this study generally decreased with temperatures and increased with the radius, namely, the diameter of the β-SiC nanowire as long as the length scale remained the same. The initial orientation was found to have a more serious effect on the Young's modulus than size and temperature. The [111] Young's modulus is much higher than that of the [001] orientation. The fracture of the β-SiC nanowire in the [001] orientation showed two different modes, which is brittle at 100 K and ductile at 300 and 500 K. The ductile fracture was accompanied by formation of an atomic chain. In the [111] orientation, it was always fractured in the ductile mode and thus an atomic chain was formed before rupture.
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Miou Furuya, Soh Ishii, Yoshio Takahashi, Shin-ichiro Nagasaka, Takehi ...
2004 Volume 45 Issue 5 Pages
1450-1451
Published: 2004
Released on J-STAGE: June 24, 2005
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Because it has been pointed out by Nagasaka
et al. that the optical absorption spectrum of copper atoms embedded in alkali-chloride crystals may depend on the position of the copper atoms, we calculate the relation between the optimal position and the total energy of copper atom embedded in NaCl crystal by means of the first-principles pseudopotential plane-wave-expansion method. These results shows that most stable position of embedded Cu
+ ion in these alkali halide system are not the substitutional on-center site but off-center site along ‹111› axis.
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Marcel H.F. Sluiter, Hitoshi Adachi, Rodion V. Belosludov, Vladimir R. ...
2004 Volume 45 Issue 5 Pages
1452-1454
Published: 2004
Released on J-STAGE: June 24, 2005
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Recently, for the first time a hydrate clathrate was discovered with hydrogen. Aside from the great technological promise that is inherent in storing hydrogen at high density at modest pressures, there is great scientific interest as this would constitute the first hydrate clathrate with multiple species per cage. The multiple cage occupancy is controversial, and reproducibility of the experiments has been questioned. Therefore, in this study we try to illucidate the stability of the hydrogen hydrate clathrate, and determine the thermodynamically most favored cage occupancy using highly accurate
ab initio computer simulations.
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Hiroshi Okuda, Shojiro Ochiai
2004 Volume 45 Issue 5 Pages
1455-1460
Published: 2004
Released on J-STAGE: June 24, 2005
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The effects of vacancy depletion and solute atom depletion on the microstructural evolution of the precipitation-free zone (PFZ) near the grain boundary have been examined by Monte Carlo simulations with Kawasaki dynamics. The solute depletion caused by a precipitation of stable phase at grain boundaries lead to a well-defined PFZ, whose width grew by a
t1/2 power law. The average size of precipitates near the PFZ boundary did not change significantly from that inside the grain. On the other hand, the vacancy depletion did not give a well-defined PFZ boundary, and the average size of precipitates changed gradually as a function of distance from the boundary.
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Masanori Kohyama, Koji Tanaka, Shingo Tanaka
2004 Volume 45 Issue 5 Pages
1461-1464
Published: 2004
Released on J-STAGE: June 24, 2005
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Relative stability between two types of reconstructed models of the {122} Σ = 9 coincidence boundary in cubic SiC has been examined by using the
ab initio pseudopotential method based on the density-functional theory. Results are compared with the high-resolution transmission electron microscopy (HRTEM) observation in SiC polycrystalline films. A zigzag model consisting of zigzag arrangement of two sets of five- and seven-membered rings is more stable than a straight model consisting of straight arrangement of five-, six- and seven-membered rings, because of larger bond stretching in the latter model. The former model requires a rigid-body translation parallel to the interface. This may cause large strain at the triple junction with the {111} Σ = 3 boundaries, although this can be avoided by introducing a step at the junction. The HRTEM observation has clearly shown the presence of the zigzag model and the step at the triple junction.
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Kazuaki Kobayashi, Masao Arai
2004 Volume 45 Issue 5 Pages
1465-1468
Published: 2004
Released on J-STAGE: June 24, 2005
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We have examined the lattice and electronic properties of a hypothetical compound of magnesium boride (MgB) with a hexagonal boron-nitride (
h-BN) type crystal structure using the first-principles molecular dynamics (FPMD) method. We found a lattice anomaly of MgB(
h-BN) under uniaxial
c-axis compression. Lattice constant
a contracts 0.0017 and 0.0051 nm under
c-axis compression with
Pz = 50 and 100 GPa, respectively. This contraction implies that the Poisson ratio of MgB(
h-BN) is negative.
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Cenk Kocer, Naoto Hirosaki, Shigenobu Ogata
2004 Volume 45 Issue 5 Pages
1469-1472
Published: 2004
Released on J-STAGE: June 24, 2005
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A derivative of the Si
3N
4 ceramic is the quaternary SiAlON solid solution. In this paper the characteristic stress-strain response of the β-and
c-SiAlON phases is investigated using an
ab initio computational procedure, for the γ
11 strain component, where different substitutions of the atomic pairs, Al-O, were performed. From the modeled data the ‘ideal’ strengths and other material constants were estimated for the two polymorphs. Estimates of the elastic constants were found to be in reasonable agreement with existing data.
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Koretaka Yuge, Atsuto Seko, Kengo Kobayashi, Tetsuyuki Tatsuoka, Shige ...
2004 Volume 45 Issue 5 Pages
1473-1477
Published: 2004
Released on J-STAGE: June 24, 2005
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The thermal vibrational effects on the nucleation free energy of the bcc-Cu precipitates in the Fe-Cu system have been explored. Thermal expansion coefficients of bcc-Fe have been correctly predicted by the quasi-harmonic approximation, using the phonon dispersions calculated on the basis of the density functional theory. The Einstein model with a temperature-dependent bulk modulus shows free energy values almost identical to the quasi-harmonic predictions. The vibrational contribution obtained from the Einstein model is reduced to 1.6 × 10
−21 J (10 meV), which is almost negligible for the free energy change of cluster nucleation.
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Tetsuo Mohri, Ying Chen
2004 Volume 45 Issue 5 Pages
1478-1484
Published: 2004
Released on J-STAGE: June 24, 2005
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L1
0-disorder phase boundaries for
Fe-Pd system are calculated by combining first-principles FLAPW electronic structure calculation with Cluster Variation Method. The total energy calculation at the ground state well predicted the global tendencies of the phase diagram. The calculated transition temperature of
L1
0-disorder based on the free energy formulated by Cluster Variation Method is in good agreement with experimental one. The incorporation of thermal vibration effects further improves the agreement. The shift of the congruent composition from the stoichiometry is, however, not realized by the present calculation.
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Yoshiyuki Nakata
2004 Volume 45 Issue 5 Pages
1485-1488
Published: 2004
Released on J-STAGE: June 24, 2005
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Lattice instability due to the formation of lattice displacement waves (LDW) was investigated in the B2 ordered structure of Ti-Ni shape memory alloys using first principle calculations. The modified B2 structure with this LDW of the 1/2(011)[011] phonon mode have structural similarity with the B19′ monoclinic structure, which is martensitic structure known to appear in Ti-Ni alloys at low temperatures. The shift to optimal lattice positions for Ti and Ni atoms is determined by the force acting on each nucleus. Ni and Ti atoms are displaced from their original positions in the B2 structure without any potential barrier. The atomic displacements without any potential barrier can lead to precursor phenomenon in advance of martensitic transformations.
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Hiroshi Ohtani, Ying Chen, Mitsuhiro Hasebe
2004 Volume 45 Issue 5 Pages
1489-1498
Published: 2004
Released on J-STAGE: June 24, 2005
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The phase separation of the B2 structure in the Co-Al and Ni-Al binary systems has been studied by combining
ab initio energetic calculations with the CALPHAD approach. The total energies of the ordered phases based on the bcc lattice were obtained using first-principle band-energy calculations. The cluster expansion method was applied to the results, and the free energies at finite temperatures were calculated for the bcc solid solution. The Co-Al and Ni-Al binary systems were analysed thermodynamically by considering the estimated metastable free energy of the bcc phase. The descriptions of the lattice stability parameters for each pure element were obtained chiefly from the Scientific Group Thermodata Europe (SGTE) datafile. The optimized parameters reasonably reproduced the characteristic features of these binary phase diagrams. The metastable (A2+B2) two-phase field forms in the Co-Al phase diagram, and this equilibrium is closely related to the anomaly in the phase boundaries of the binary system. On the other hand, the phase separation of the A2 and B2 structures are hindered by the presence of the D0
3 phase in the Ni-Al system. Ground state analysis was performed to clarify the difference in the behaviour of the B2 phase.
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Hiroshi Ohtani, Yoshiko Takeshita, Mitsuhiro Hasebe
2004 Volume 45 Issue 5 Pages
1499-1506
Published: 2004
Released on J-STAGE: June 24, 2005
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In the Fe-Be binary system, the solubility of Be in the α-Fe phase deviates significantly from the so-called Arrhenius equation near temperatures of 600°C. The metastable ordering of the bcc structure in this binary system is expected to play a key role in the phase boundary anomaly. Thus, a thermodynamic analysis of the Fe-Be binary system has been performed considering the ordering behaviour of the bcc phase. The total energies of the ordered structures based on the bcc lattice were obtained using
ab initio energetic calculations. The cluster expansion method was applied to the results, and the free energies at finite temperatures were calculated for the bcc solid solution. The formation energy of the ζ phase was also calculated using band-energy calculations. The results were analysed together with some experimental data using the sublattice model, and the equilibrium phase diagram was calculated. The results support the formation of a metastable (bcc + B2) two-phase region accompanied by an ordering of the bcc structure. This metastable ordering of the bcc phase was the dominant factor governing the anomalous change in the solubility of Be in the higher temperature range.
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Tatsuya Tokunaga, Koji Hashima, Hiroshi Ohtani, Mitsuhiro Hasebe
2004 Volume 45 Issue 5 Pages
1507-1514
Published: 2004
Released on J-STAGE: June 24, 2005
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A thermodynamic analysis has been carried out on the Ni-Si-Ti ternary system using the CALPHAD method. A regular solution approximation based on the sublattice model was adopted to describe the Gibbs energy for the individual phases in the binary and ternary systems. The thermodynamic parameters for each phase were evaluated using available experimental data on the phase boundaries and other related thermochemical properties. In addition to the experimental data, the enthalpy of formation for some binary and ternary compound phases as determined by ab initio calculations was incorporated in the present analysis. There was good agreement between the calculated and the experimental phase equilibria in the binary and ternary systems.
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Zhong Zeng, Jingqiu Chen, Hiroshi Mizuseki, Hiroki Sato, Kiyoshi Shima ...
2004 Volume 45 Issue 5 Pages
1515-1521
Published: 2004
Released on J-STAGE: June 24, 2005
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Czochralski crystal growth (CZ) is one of the most important single crystal growth techniques. A numerical study on LiCaAlF
6 (LiCAF) crystal in CZ is conducted, and three criteria, which concern with growth rate, interface shape and the instability of convection, for estimating an optimal crystal rotation are adopted. Based on a simplified CZ model with Marangoni convection included, the effect of the variable experimental parameters, such as crystal size and melt height
etc. on the optimal crystal rotation is investigated by means of the finite volume method.
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Zhong Zeng, Hiroshi Mizuseki, Jingqiu Chen, Kyoko Ichinoseki, Yoshiyuk ...
2004 Volume 45 Issue 5 Pages
1522-1527
Published: 2004
Released on J-STAGE: June 24, 2005
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Three-dimensional oscillatory thermocapillary convection in both cylindrical and concave non-cylindrical liquid bridge (
Pr = 7) under microgravity is investigated numerically by finite volume method. The pattern selection of convection is observed to depend on the shape of free surface. An explanation on the mechanism of convective instability and the nature of pattern selection are presented.
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Maricel Agop, Pavlos Ioannou, Dorina Luchian, Petru Nica, Cristina Rad ...
2004 Volume 45 Issue 5 Pages
1528-1534
Published: 2004
Released on J-STAGE: June 24, 2005
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One shows that the dendritic morphogenesis is induced by one-dimensional cnoidal thermal oscillation modes of the solid-liquid interface. Particularly, the one-dimensional
l-thermal antisoliton — one-dimensional
l-thermal soliton modes imposes laws characterizing dendritic branches growth. One deduces a relation between the dendritic growth speed and the dendritic tip radius that depends on the supercooling degree. Particularly one obtains the Oldsfield's relation. The variation of the fractal dimension with the supercooling degree specifies that the dendritic growth are two-dimensional projections of a higher-dimensional fractal.
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Liu Yang, Wu Feng
2004 Volume 45 Issue 5 Pages
1535-1538
Published: 2004
Released on J-STAGE: June 24, 2005
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The prediction for initial discharge capacity of AB
5-based alloy has tested by employing the simulated annealing method in artificial neural network (ANN). The parameters in cooling schedule were determined and their influences on network prediction performance were discussed. A practical cooling schedule was established and the network with better performances was obtained by associating simulated annealing algorithm with gradient descent algorithm.
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Toshikazu Akahori, Mitsuo Niinomi, Hisao Fukui, Akihiro Suzuki
2004 Volume 45 Issue 5 Pages
1540-1548
Published: 2004
Released on J-STAGE: June 24, 2005
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Plain and fretting fatigue properties of β type titanium alloy, Ti-29Nb-13Ta-4.6Zr, underwent various thermo-mechanical treatments were investigated in order to judge its potential for biomedical applications. Ti-29Nb-13Ta-4.6Zr aged directly at 723 K for 259.2 ks after cold rolling shows the greatest fatigue strength in both low cycle fatigue life and high cycle fatigue life regions, and the fatigue limit, which is around 770 MPa, is nearly equal to that of hot-rolled Ti-6Al-4V ELI conducted with aging, which is one of representative α + β type titanium alloys for biomedical applications. Fretting fatigue strength tends in proportion to Young's modulus. Fretting fatigue limits of the forged bar of Ti-29Nb-13Ta-4.6Zr conducted with solution treatment, and aging at 723 K after solution treatment are around two thirds and a half of plain fatigue limits, respectively, and those are around 180 MPa and 285 MPa, respectively. Passive current densities of the plate of Ti-29Nb-13Ta-4.6Zr conducted with a multi-step-thermo-mechanical treatment, where the cold rolling and solution treatment are repeated 4 times, in 0.5%HCl and Ringer's solutions are much smaller than that of Ti-29Nb-13Ta-4.6Zr conducted with general thermo-mechanical treatment, and the values are a little smaller than those of forged Ti-15Mo-5Zr-3Al conducted with annealing and hot rolled Ti-6Al-4V ELI conducted with aging.
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Ying Long Zhou, Mitsuo Niinomi, Toshikazu Akahori
2004 Volume 45 Issue 5 Pages
1549-1554
Published: 2004
Released on J-STAGE: June 24, 2005
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Ti−Hf alloys are expected to have lower modulus and higher strength than pure Ti since. Hf has been suggested to have the potential to enhance the strength and to reduce the Young's modulus of Ti alloys at the same time. In the present study, binary Ti−Hf alloys with Hf contents from 5 to 40 mass% were designed and fabricated. The effects of Hf content on the microstructures, dynamic Young's modulus and mechanical properties of Ti−Hf alloys were investigated with the aim of biomedical applications. The microstructures were examined using a scanning electron microscopy and an X-ray diffraction analysis. The experimental results indicate that all the studied Ti−Hf alloys exhibit lamellar HCP martensite (α′) structure under the given solution treatment, and increasing Hf content can gently reduce the Young's modulus but strongly enhance the strength of Ti−Hf alloys.
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Guo He, Masuo Hagiwara
2004 Volume 45 Issue 5 Pages
1555-1560
Published: 2004
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The microstructure and the compressive mechanical properties of the Ti-Cu-Fe-Sn-Nb alloys are significantly affected by the compositions. When the Cu in the alloys is more than 12 mol% and the Fe more than 10 mol%, the microstructure contains the dendritic
bcc β-Ti solid solution, the matrix phase and the eutectic structure. With decreasing the contents of Cu and Fe, the dendritic structure increases in volume fraction, while the matrix phase decreases and the eutectic structure vanishes away. Correspondingly, the yield strength and the Young's modulus decrease, but the plastic strain increases. At the higher contents of Cu and Fe, the alloys exhibit the yield strengths of 1442-1515 MPa and the Young's module of 90-101 GPa, but the small plastic strains. At the lower contents of Cu and Fe, the alloys exhibit the yield strengths of 1050-1321 MPa and the Young's module of 47-76 GPa, which are very attractive for the biomedical applications.
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Hidenori Era, Yasuyuki Mastushita, Mayumi Miura, Katsuhiko Kishitake
2004 Volume 45 Issue 5 Pages
1561-1565
Published: 2004
Released on J-STAGE: June 24, 2005
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Patients suffer considerable pain from fracture of placed implants. In order to reduce the number of fracturing failures in future and to obtain a better understanding of fracturing, a fractured implant has been investigated by means of radiography, scanning electron microscopy and transmission electron microscopy from a metallurgical viewpoint. The blade type implant of Ti-5V alloy has a virgin microstructure of a low density of dislocation with a dispersion of fine precipitates. Further dislocations and twins are introduced into the implant due to repeated loading in use, resulting in possessing a large amount of lattice defects until fracturing. The dislocations are considered to assist calcium penetration and to bring about intergranular fracturing near the surface of the implant. Striations are extensively observed at a center portion of the implant, indicating that the fracturing is caused by fatigue. Microscopic investigations reveal that the fracturing is initiated by some elements such as calcium in saliva in accordance with high density of lattice defects and developed through the fatigue by repeated loading.
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Masahiko Ikeda, Shin-ya Komatsu, Mitsuhide Ueda, Akihiro Suzuki
2004 Volume 45 Issue 5 Pages
1566-1570
Published: 2004
Released on J-STAGE: June 24, 2005
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Titanium and its alloys are one of very attractive metallic materials for health-care and welfare goods, because these alloys have high specific strength and high biocompatibility. However, high cost of Ti alloys is disadvantage in application to the health-care and welfare goods. To overcome high cost barrier of Ti alloys, Ti-4.3Fe-7.1Cr-3.0Al alloy was developed. This alloy has good tensile properties,
i.e. about 1 GPa as tensile strength, about 20% as elongation and about 50% as reduction in area, in solution treated state. It is very important that effect of cooling rate from solution treatment temperature on tensile properties is investigated, because diffusion coefficients of Fe and Cr in beta phase are higher than other beta stabilizers,
e.g. V and Mo. When a β stabilizer with higher diffusion coefficient is contained in β phase, isothermal ω precipitation that makes the alloy brittle becomes fast. To suppress isothermal ω precipitation, it is necessary to set the cooling rate higher than an appropriate value. In this study, the effect of cooling rate from solution treatment temperature on phase constitution and tensile properties was investigated by electrical resistivity and Vickers hardness measurement and tensile test in Ti-4.3Fe-7.1Cr-3.0Al alloy. In Ti-4.3Fe-7.1Cr-3.0Al alloy cooled by a cooling rate of 0.46 Ks
−1 or more, only β phase was identified by X-ray diffraction, while β and α phases were identified in the alloy cooled by furnace cooling,
i.e. 0.024 Ks
−1. Resistivity ratio remained almost constant between 0.46 Ks
−1 and 34.7 Ks
−1. In specimen cooled by 0.024 Ks
−1, resistivity ratio significantly decreased and HV drastically increased because of α phase precipitation. Tensile strength remained about 1020 MPa between 0.46 Ks
−1 and 34.7 Ks
−1. In specimen cooled by 0.024 Ks
−1, tensile strength slightly increased. Elongation remained almost constant between 0.85 Ks
−1 and 34.7 Ks
−1, and then decreased with decrease in cooling rate below 0.46 Ks
−1.
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Yoshito Takemoto, Ichiro Shimizu, Akira Sakakibara, Moritaka Hida, Yos ...
2004 Volume 45 Issue 5 Pages
1571-1576
Published: 2004
Released on J-STAGE: June 24, 2005
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Three kinds of titanium-molybdenum alloy, Ti-8Mo, Ti-14Mo and Ti-20Mo (mass%), quenched from 1223 K were investigated to clarify the tensile behavior and the cold workability using tensile test and conical cup test. In the quenched state Ti-14Mo showed the superior workability. Ti-20Mo has poor ductility in tensile test, but has relatively good formability in conical cup test. Both Ti-8Mo and Ti-14Mo became brittle through a cold rolling of 50% reduction in thickness; however Ti-20Mo did not change in workability by the cold rolling at all. Hardness remarkably increased with rolling reduction in Ti-8Mo and Ti-14Mo, but was almost constant in Ti-20Mo, especially with Ti-20Mo containing high oxygen. Microstructure of Ti-8Mo and Ti-14Mo rolled until seventy-odd percentage exhibited very fine structure and changed to α′ + β and β structure, respectively. On the other hand Ti-20Mo hardly changed in microstructure by a cold rolling besides the formation of some band-like products. The product was composed of single variant of commensurate ω-phase, whereas the matrix contained four variants of incommensurate ω-phase. It was suggested that the peculiar deformation mechanism of Ti-20Mo was concerned with stress induced transformation of the ω-phase.
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Jianrong Liu, Shouxin Li, Dong Li, Rui Yang
2004 Volume 45 Issue 5 Pages
1577-1585
Published: 2004
Released on J-STAGE: June 24, 2005
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The effects of aging on the room-temperature fatigue-crack growth (FCG) behavior of a newly developed high-temperature near-α titanium alloy (Ti-5.6Al-4.8Sn-2Zr-1.0Mo-0.32Si-0.8Nd) with both bimodal and lamellar microstructures were investigated. The results indicate that aging had a relatively small effect on the FCG behaviors of the concerned alloy. The effect of aging is more pronounced on the lamellar than on the bimodal microstructure. This effect reduces with aging time especially for the lamellar microstructure. TEM and SEM studies were performed to gain insight into the deformation behavior and crack propagation mechanisms of the alloy. Dependence of the FCG rates on aging treatment is rationalized by considering changes in crack path tortuosity, roughness-induced crack closure and deformation uniformity. Slip reversibility is also considered. The work suggests that the amount and size of α
2 particles based on Ti
3Al is mainly responsible for this dependence in the high Δ
K range.
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Junji Takeda, Mitsuo Niinomi, Toshikazu Akahori, Gunawarman
2004 Volume 45 Issue 5 Pages
1586-1593
Published: 2004
Released on J-STAGE: June 24, 2005
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The effects of contact pressure and surface roughness on fretting fatigue strength of Ti-4.5Al-3V-2Mo-2Fe conducted with annealing at 1123 K were investigated in this study. Fretting fatigue tests in low and high cycle fatigue life regions of the alloy were carried out at each contact pressure of 10, 15, 30, 45, 75, 105 and 153 MPa using relatively rough surface specimens with roughness number around 120∼140 nm. Furthermore, the fretting fatigue tests were also performed on the relatively smooth surface specimens with roughness number around 13.2∼32.2 nm at a selected contact pressure of 153 MPa. The fretting fatigue crack initiation mechanism is changed by contact pressure. At a contact pressure of 15 MPa, fretting fatigue life tends to be very low in each fatigue life region. The tangential force tends to increase with increasing contact pressure in each fatigue life region. Contrary to this trend, the tangential force coefficient tends to decrease with increasing contact pressure in each fatigue life region. The fretting fatigue life of the alloy with smooth surface is greater about 20% and 10% in low and high cycle fatigue life regions, respectively, than that of the alloy with relatively rough surface.
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Ervin Tal-Gutelmacher, Dan Eliezer
2004 Volume 45 Issue 5 Pages
1594-1600
Published: 2004
Released on J-STAGE: June 24, 2005
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Titanium base alloys are among the most important advanced materials for a wide variety of aerospace, marine, industrial and commercial applications, due to their high strength/weight ratio and good corrosion behavior. Although titanium is generally considered to be reasonably resistant to chemical attack, severe problems can arise when titanium base alloys come in contact with hydrogen containing environments. Titanium base alloys can pick up large amounts of hydrogen when exposed to these environments, especially at elevated temperatures. If the hydrogen remains in the titanium lattice, it may lead to severe degradation of the mechanical and fracture behavior of these alloys upon cooling. As a consequence of the different behavior of hydrogen in α and β phases of titanium (different solubility, different diffusion kinetics,
etc), the susceptibility of each of these phases to the various forms of and conditions of hydrogen degradation can vary markedly. This paper presents an overview of hydrogen interactions with titanium alloys, with specific emphasis on the role of microstructure on hydrogen-assisted degradation in these alloys.
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Tsuyoshi Mano, Osamu Sugiyama, Yoshio Shibuya, Hiroshi Nakayama, Osamu ...
2004 Volume 45 Issue 5 Pages
1601-1606
Published: 2004
Released on J-STAGE: June 24, 2005
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A double-layer film, in which the top layer was a diamond-like carbon (DLC) film and the bottom layer was a compositionally graded film of silicon and carbon compounds with decreasing C/Si atomic ratio to a substrate, was successfully formed on a Ti-6Al-4V substrate by an ionization deposition method. In the film deposition process, a benzene vapor was used for the DLC deposition as a source gas, and hexamethyldisiloxane and benzene vapors were used as source gasses for the compositionally graded film of silicon and carbon compounds. The results of ball-on-disk and scratching tests showed that the double-layer film with graded composition provided a low friction coefficient, high wear resistance and good adhesion with the Ti-6Al-4V substrate compared to a single-layer DLC film. The DLC-based double-layer film developed in this study is much effective in wide applications of the Ti-6Al-4V alloy for which the use to antifriction components has been difficult.
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Mitsunobu Iwasaki, Yoshiyuki Iwasaki, Hiroaki Tada, Seishiro Ito
2004 Volume 45 Issue 5 Pages
1607-1612
Published: 2004
Released on J-STAGE: June 24, 2005
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Thick anodic oxide film with high photocatalytic activity was prepared successfully in 1.5 kmol/m
3 H
2SO
4−0.3 kmol/m
3 H
2O
2 with 0.03—0.09 kmol/m
3 H
3PO
4 in a one-pot process. Increasing H
3PO
4 concentration in the range of 0—0.3 kmol/m
3 suppressed spark discharge, resulting in a higher anatase-to-rutile ratio and fewer lower-valent titanium oxides in the anodized films. The photocatalytically active films consisted of a mixture of anatase and rutile crystallites with a small amount of Ti
3+ ions, and had very rough surface with a large number of pores with a diameter on the order of micrometers. The film prepared in the 1.5 kmol/m
3 H
2SO
4−0.3 kmol/m
3 H
2O
2−0.03 kmol/m
3 H
3PO
4 dispersed with TiO
2 nanoparticles was the most active photocatalytically among the films obtained, and exhibited antibacterial activity.
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Kazumasa Nishio, Tomiko Yamaguchi, Hidenori Era, Mitsuaki Katoh
2004 Volume 45 Issue 5 Pages
1613-1619
Published: 2004
Released on J-STAGE: June 24, 2005
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Pure titanium has an excellent biocompatiblity in comparison with stainless steels and Ti-Al-V alloys. We would expect pure titanium to have application for artificial joints and artificial bones if the wear resistance of the pure titanium were to be improved. So the surface modification of the pure titanium was performed using YAG laser beam. The laser power was 1.5 kW and Ar was used as the shielding gas. The shielding gas flow rate was changed from 5 to 40 L/min with a constant laser torch traveling speed of 500 mm/min. First, we investigated effects of the shielding gas flow rate on the Vickers hardness of the laser melted zone. When the shielding gas flow rate decrease, the average hardness increases and the oxygen and nitrogen concentrations of the laser melted zone also increase. We made clear the relationship between the average hardness and the nitrogen equivalent in the laser melted zone as follows. When the square root of the nitrogen equivalent (
Neq =
N + O/2) was less than 0.1, a plot of the average hardness for the square root of the nitrogen equivalent reveals a linear relationship. However, the average hardness of the laser melted zone increased more than the value indicated by the linear relationship when the square root of the nitrogen equivalent was above 0.1. Next, metallurgical analyses of the laser melted zone were performed using an electron probe micro analyzer (EPMA), an X-ray diffraction method (XRD) and a transmission electron microscope (TEM), and effects of the behavior of oxygen and nitrogen on the hardness of the laser melted zone were studied. A uniform dislocation structures in the laser melted zone is observed over a wide area where there is the linear relationship between the hardness and the square root of the nitrogen equivalent. Lamellar structure, which alternated between two phases of αTi and TiN in the laser melted zone, was formed where the hardness is greater than those indicated by the linear relationship. One phase of TiN contained a large quantity of nitrogen, and the other phase of αTi contained little nitrogen. It is found that the lamellar structure composes of αTi and Ti-nitrides (TiN and TiN
0.26). It is also observed that a wide area of αTi possesses a twin structure with a high dislocation density.
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Atsushi Yumoto, Takahisa Yamamoto, Fujio Hiroki, Ichiro Shiota, Naotak ...
2004 Volume 45 Issue 5 Pages
1620-1623
Published: 2004
Released on J-STAGE: June 24, 2005
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The authors previously developed Supersonic Free-Jet PVD (SFJ-PVD) as a new coating method in which a coating film is formed by depositing nanoparticles at very high velocity onto a substrate. This SFJ-PVD provides a rapid deposition rate and produces a mixture of different kinds of nanoparticles formed in different evaporation chambers on the substrate. This paper describes the preparation of graded Al/AlTi, Ti-Al, and Ti-Al-N coating films with SFJ-PVD. Ti-50 at%Al film and graded Al/AlTi film are produced by depositing Al and Ti nanoparticles formed in different evaporation chambers with the controlled evaporation rates of Al and Ti. Ti-Al-N film is produced by depositing nanoparticles formed in the evaporation chamber with a controlled partial pressure of N
2 in an atmosphere of He. Mixing Ti and Al nanoparticles by depositing them onto a substrate produces
in-situ syntheses of γ-TiAl and α
2-Ti
3Al intermetallic compounds on the substrate regardless of the substrate temperature in these experimental conditions. A smooth, compact, and defect-free structure is formed both at the interface between the substrate and the coating films and inside the coating films. XRD analysis reveals the crystal structure of the Ti-Al-N film to be TiN, Ti
3Al
2N
2, Ti
3AlN, and AlN.
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Sengo Kobayashi, Arihiro Matsuzaki, Kiyomichi Nakai, Yoshimitsu Okazak ...
2004 Volume 45 Issue 5 Pages
1624-1628
Published: 2004
Released on J-STAGE: June 24, 2005
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Decomposition processes of β phase in a Ti-15Zr-4Nb-4Ta alloy during isothermal holding have been examined mainly by transmission electron microscopy. Specimens solution-treated at 1000°C in β phase field were held at temperatures between 400 and 600°C. α phase lath formed in β phase during isothermal holding at 600°C. After holding at 600°C for a short duration, remaining β phase, untransformed β phase into α phase at 600°C, was transformed into α′ martensite during quenching into ice-brine. As increasing holding time at 600°C, remaining β phase was transformed into α″ or athermal ω phases during quenching. After prolonged holding at 600°C, remaining β phase was not transformed during quenching. Enrichment of Nb, Ta and Zr into remaining β phase occurred with increasing holding time at 600°C, resulting in the variation of transformation of remaining β phase during quenching. Microstructures evolved at 400 and 500°C were almost same as those at 600°C.
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Yoshikazu Mantani, Yoshito Takemoto, Moritaka Hida, Akira Sakakibara, ...
2004 Volume 45 Issue 5 Pages
1629-1634
Published: 2004
Released on J-STAGE: June 24, 2005
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The orthorhombic α″ martensite was formed in Ti-8 mass%Mo alloy by quenching from 1223 K. The purpose of this study was to investigate phase transformation of the α″ martensite structure by isothermal aging. In differential scanning calorimetry curve of the quenched specimen, an exothermic peak that indicated decomposition from the α″ martensite to α and β phases was observed near 780 K, so that isothermal aging was performed at 723 K and 923 K for 9.0 ks. Optical microscopy, X-ray diffraction and transmission electron microscopy were performed to these specimens. Band-like products that were composed of the single variant of ω phase were observed in the quenched α″ martensite structure. On the other hand, (111)α″ twins were observed in the 723 K-aged α″ martensite structure. The quenched α″ martensite structure indicated low elastic incline and good ductility, whereas the 723 K-aged α″ martensite structure indicated high yield stress and brittleness. It was pointed out that the ω products were formed to relax the volume expansion from the β phase to the α″ martensite, and the (111)α″ twins were formed during the isothermal aging at 723 K with the extinction of the ω products.
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Takao Hanawa, Yuko Kohayama, Sachiko Hiromoto, Akiko Yamamoto
2004 Volume 45 Issue 5 Pages
1635-1639
Published: 2004
Released on J-STAGE: June 24, 2005
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The repassivation current of titanium was measured by a newly designed electrochemical cell that can bare a new metal surface momentarily for the determination of the effects of biological factors such as dissolved oxygen, inorganic ions, amino acids, and proteins, on time transient of repassivation current. For this purpose, saline with various concentrations of dissolved oxygen and Hanks' solution with and without amino acids and proteins were employed as electrolytes. Estimated peak current densities and total charges during repassivation were used for the evaluation of reppasivation current. As a result, dissolved oxygen did not influence the repassivation reaction of titanium. Inorganic ions and proteins accelerated the repassivation, while some amino acids delayed it. If these factors are combined, it is important to reveal which factor governs the reaction. Unfortunately, that problem could not be revealed by this study. The above findings may apply to the dissolution amount of metal ion from depassivated titanium in the human body.
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Tatsuaki Yoshihiro, Toshihiro Tsuchiyama, Setsuo Takaki
2004 Volume 45 Issue 5 Pages
1640-1645
Published: 2004
Released on J-STAGE: June 24, 2005
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The change in dispersion of TiB boride formed through the chemical reaction, Ti+CrB→Cr+TiB, was investigated in the Ti-Cr system powder compact containing CrB boride particles. EPMA analysis revealed that the shape of the TiB particles was granular type at first, but they began to divide into a large number of fine plate-like TiB particles at the sintering temperature (self-division phenomenon). Although this seems to be contrary to the Ostwald ripening mechanism, the phenomenon could be reasonably explained in terms of total interfacial energy in the system: Considering the grain boundary energy within the granular TiB and the low interfacial energy of coherent plate-like TiB/matrix interface, the total interfacial energy was found to be decreased through the self-division. It was concluded that the difference in the total interfacial energy works as driving force for the self-division phenomenon.
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Keitaro Yamashita, Akira Shimamoto
2004 Volume 45 Issue 5 Pages
1646-1652
Published: 2004
Released on J-STAGE: June 24, 2005
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The shape-memory effect of shape-memory alloy (SMA) and the character of the super elasticity are common and effective in today's usage. This paper advances these characteristics by discussing the research of an intelligent composite which functions in a wide-ranging ambient conditions TiNi type SMA fiber was used in the experiment and the embedded test piece was used in a polymer matrix. The influence factor of the actuator function by the shape-memory effect was evaluated in real-time by measuring the length change of the test piece during electric resistance heating. Using composite materials with the electric heating method resulted in a quantitative understanding of the primary factor influencing the shape recovery force. It has been understood that the shape recovery force is greatly influenced by the ambient temperature to which the composite material is applied, and this paper describes detailed information for the best composite materials and their condition characteristic mechanical control by the electric heating.
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Kouichi Watanabe, Toru Okabe
2004 Volume 45 Issue 5 Pages
1653-1659
Published: 2004
Released on J-STAGE: June 24, 2005
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This study theoretically examined the relationship between mold permeability and the casting pressure acting on the molten titanium in two types of pressure casting equipment [two-chamber and one-chamber] for preparing titanium dental castings in order to select the most effective investment material and optimal casting conditions. The casting pressure exerted on the melt can be defined as the pressure difference between the melting chamber and the mold cavity after the molten titanium drops and seals the entrance to the cavity sprue. Differential equations describing the pressure in the mold cavity were derived from the equation of the state of gas as a function of time. Analysis revealed that mold permeability and the operation of each casting unit affect how the casting pressure acts on the melt: a low-permeability mold is appropriate for the one-chamber type but intermediate permeability molds are desirable for the two-chamber type. Using the results of this study and published permeability data on investments, an optimum investment material can be selected for each type of equipment.
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Katsutoshi Ono
2004 Volume 45 Issue 5 Pages
1660-1664
Published: 2004
Released on J-STAGE: June 24, 2005
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Calciothermic reduction incorporated with electrolytic reclamation of calcium in a single reactor is a new method for extracting titanium from its oxide. Titanium dioxide is typically reduced in molten calcium chloride by calcium existing in this medium as soluble state, not by elemental calcium, to give also soluble calcium oxide and isolated granular sponge titanium to be recovered. This soluble calcium is reproduced simultaneously by electrolyzing the dissolved calcium oxide in the vicinity of the reduction zone of the reactor. In this paper, an outline of this advanced reactor is demonstrated especially from physico-chemical points of view with regard to the following items: (1) Thermochemistry of the CaCl
2-CaO-Ca melt, (2) The electrolytic dissolution of calcium into molten calcium chloride. (3) Measure of impurities control, (4) Calciothermic reduction of titanium dioxide in molten calcium chloride.
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Ryosuke O. Suzuki, Shinji Fukui
2004 Volume 45 Issue 5 Pages
1665-1671
Published: 2004
Released on J-STAGE: June 24, 2005
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Fundamental experiments are conducted to confirm the calcium reactivity with titanium oxide in the molten calcium chloride. The TiO
2 samples placed in the molten salt could be reduced without any electron supply to TiO
2. In the close vicinity of cathode, TiO
2 could be successfully reduced to α-Ti with 1600 mass ppm oxygen. However, the strong stirring of the melt disturbed the calcium distribution near the cathode and the reduction was incomplete. These findings supported the proposed mechanism that Ca deposited on the cathode and it dissolved immediately into the molten salt. The parasite reactions consumed the dissolved Ca quickly, and they suppressed the effective reduction and subsequent deoxidation.
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Yoshihiko Yokoyama, Kenzo Fukaura, Akihisa Inoue
2004 Volume 45 Issue 5 Pages
1672-1678
Published: 2004
Released on J-STAGE: June 24, 2005
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We examined Wöhler curves of Zr
50Cu
40Al
10 and Zr
50Cu
30Ni
10Al
10 bulk glassy alloys (BGAs) using a rotating-beam fatigue test to evaluate the effect of addition Ni on fatigue strength. As a result, we found that the fatigue limit was increased from 250 MPa to 500 MPa by adding 10 at% Ni instead of Cu to a Zr
50Cu
40Al
10 BGA. Zr
50Cu
40Al
10 BGAs exhibit wider fatigue-fractured region with striation-like marks than that of Zr
50Cu
30Ni
10Al
10 BGAs. Additive Ni element limits the fatigue-fractured region to half of the whole fractured surface. We also measured dimensions of fatigue-fracture area of Zr
50Cu
40Al
10 and Zr
50Cu
30Ni
10Al
10 BGAs to estimate the value of fatigue-fracture toughness. Especially, the fatigue fracture toughness decreases suddenly around 10
3 ∼ 10
4 cycles, similar to the Wöhler curves. The significant decrease of fatigue-fracture toughness originates from embrittlement/hardening in front of the fatigue crack tip during fatigue test.
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Catalina Picornell, Jaime Pons, Eduard Cesari
2004 Volume 45 Issue 5 Pages
1679-1683
Published: 2004
Released on J-STAGE: June 24, 2005
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Compression tests were performed at different temperatures in an 82.5%Cu-13.5%Al-4.0%Ni (mass %) single crystal, a composition giving the β′ (18R) thermally induced martensitic phase. In all cases, the non-twinned γ′ (2H) martensite was obtained after compression, so, the β′ → γ′ or β → γ′ martensitic transformations were induced, depending of the test temperature. The critical stress vs. temperature, σ
c−
T, relationship was established for both types of transformations, obtaining a negative slope
dσ
c/dT (considering compressive stresses as negative) for the austenite-martensite transformation and a small positive slope for the martensite-martensite. The experimental
dσ
c/dT values were compared with those calculated from the Clausius-Clapeyron type equation and reasonable good agreement between them was obtained. For these calculations, the entropy changes Δ
Sβ′−γ′ and Δ
Sβ−γ′ were directly obtained from the calorimetric runs performed after each mechanical test.
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Yu-Chung Chen, Yen-Hwei Chang, Bin-Siang Tsai
2004 Volume 45 Issue 5 Pages
1684-1686
Published: 2004
Released on J-STAGE: June 24, 2005
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Zn
2SnO
4, which has an inverse spinel structure, was adopted as the host material of a new green emitting phosphor. The photoluminescent (PL) properties of a series of europium-activated zinc stannate synthesized by vibrating milled solid state reaction have been investigated. One broaden emission band from the Zn
2SnO
4: Eu
2+ phosphor calcined at 1000°C to 1200°C for 3 h in air atmosphere is clearly observed at 525 nm under 374 nm UV ray excitation. The emission band from Zn
2SnO
4: Eu
3+ can also be observed under 464 nm-ray excitation. The reduction of Eu
3+ → Eu
2+ was firstly discovered in stannate phosphor of Zn
2SnO
4: Eu synthesized in air condition.
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Naoki Takata, Ken-ichi Ikeda, Fuyuki Yoshida, Hideharu Nakashima, Hiro ...
2004 Volume 45 Issue 5 Pages
1687-1692
Published: 2004
Released on J-STAGE: June 24, 2005
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In the present study, the crystal orientation and residual strains in hot rolled sheets, cold rolled foils, partially annealed foils, and additionally rolled foils of aluminum of 99.9% (3NAl) and 99.99% (4NAl) purity used for the fabrication of electrolytic capacitors, were evaluated by the SEM/EBSP method. The additionally rolled foils were annealed at 573 K and the behavior of the growth of cube-oriented grains and the grain boundary character were analyzed. In the hot rolled sheets and the partially annealed foils, cube-oriented grains in 4NAl were larger in number and size than those of 3NAl. From the result, it was clarified that purity of the aluminum affected the growth of cubeoriented grains during the thermo-mechanical treatment. In the additionally rolled foils annealed at 573 K, the growth of the cube-oriented grains in 4NAl was faster than that in 3NAl. In both 3NAl and 4NAl, the residual strains and the grain boundary character were similar. Accordingly, it is concluded that impurity in 3NAl could have segregated at the grain boundaries around cube-oriented grains and supressed the growth of cube-oriented grains.
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