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MATERIALS TRANSACTIONS Vol. 48 (2007), No. 11

ISIJ International
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オンライン版ISSN: 1347-5320
冊子版ISSN: 1345-9678
発行機関: The Japan Institute of Metals and Materials

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MATERIALS TRANSACTIONS Vol. 48 (2007), No. 11

Annealing Texture and Microstructure Evolution in Titanium during Grain Growth in an External Magnetic Field

Dmitri A. Molodov, Christian Bollmann, Peter J. Konijnenberg, Luis A. Barrales-Mora, Volker Mohles

pp. 2800-2808

抄録

The impact of a magnetic field (17T) on texture and microstructure evolution in cold rolled (75%) commercially pure titanium was investigated. The specifically oriented titanium sheet specimens were heat treated at 1023 K in a magnetic field of 17 T for 60, 120, 180 and 240 minutes. X-ray diffraction and EBSD measurements were utilized to characterize the crystallographic texture and the grain microstructure. The magnetic annealing resulted in an asymmetry of the two major texture components that constantly increased with annealing time. This effect is attributed to a magnetic driving force for grain growth arising from the anisotropic magnetic susceptibility of titanium. Complementary computer simulations of 2D grain growth were employed to analyze the effect of a magnetic field on texture and microstruture evolution. EBSD measurements as well as the computer simulations revealed that a magnetic field affects the grain growth kinetics. Grains with energetically preferred orientations grow faster and their fraction becomes larger than the fraction of more slowly growing grains with disfavored orientations.

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Effect of High Magnetic Field Annealing on Microstructure and Texture at the Initial Stage of Recrystallization in a Cold-Rolled Interstitial-Free Steel

Yan Wu, Xiang Zhao, Chang-Shu He, Yu-Dong Zhang, Liang Zuo, Claude Esling

pp. 2809-2815

抄録

The effects of magnetic field annealing on microstructure and texture evolution at the initial stage of recrystallization in as-annealed interstitial-free (IF) steel sheet were investigated by the orientation imaging microscopy (OIM) and microhardness testing. The magnetic field annealing was conducted in a 12-tesla magnetic field at 650°C for different time spans (0, 10 and 30 min) to obtain partially recrystallized microstructure in specimens. It was found that the magnetic field annealing retarded the recrystallization process, and favoured the development of ⟨110⟩ texture components at the initial stage of recrystallization. Additionally, it is worth noting that, in the case of annealing for 10 min, we observed more pronounced {111}⟨123⟩ component associated with coarse grains in the magnetic field annealed specimen, which may suggest that this component was favoured by the applied high magnetic field in the early stage of nucleation and growth.

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Effect of a High Magnetic Field on The Formation of Widmanstätten Ferrite in Fe-0.52C

Shou Jing Wang, Xiang Zhao, Yu Dong Zhang, Liang Zuo, Claude Esling

pp. 2816-2820

抄録

The influence of a high magnetic field on the formation of ferrite in high purity Fe-0.52C (mass%) during austenite to ferrite transformation was studied. Results show that magnetic field can reduce the amount of Widmanstätten ferrite by enhancing the transformation driving force and make the ferrite grains elongate and align along the field direction.

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Effect of Magnetic Field on γ-α Transformation in Fe-Rh Alloys

Sahar Farjami, Motohiro Yuge, Takashi Fukuda, Tomoyuki Terai, Tomoyuki Kakeshita

pp. 2821-2825

抄録

Effect of magnetic field on γ(austenite)↔α(ferrite) transformation has been studied by using Fe-xRh alloys with x=2, 5, 10 at%. In this system, the Curie temperature Tc of the α-phase is either above the γ↔α transformation temperature or below it depending on the Rh content. In the former case, the transformation temperature increases linearly with increasing magnetic field, while in the latter case, it increases almost proportional to square of magnetic field. Such difference has been discussed quantitatively on the basis of a Clausius-Clapeyron-like equation by using the magnetization and latent heat measured in the study.

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Thermodynamic Study of Magnetic Field-Enhanced Nanocrystallisation in Amorphous Fe-Si-B(-Nb-Cu)

Victoria A. Yardley, Sadahiro Tsurekawa, Hiromichi Fujii, Takashi Matsuzaki

pp. 2826-2832

抄録

Recent work has shown that annealing amorphous alloys under an applied magnetic field can enhance the fraction of nanocrystalline phase formed and induce a strong texture. This effect has been attributed to the displacement of thermodynamic equilibrium by the energetic contribution from the applied field. In the present paper, an attempt is made to test the validity of this proposition in the Fe-Si-B(-Nb-Cu) system using equilibrium calculations in the framework of the CALPHAD (CALculation of PHAse Diagrams) methodology and a simple estimate of the energy supplied by the field. However, it is found that the magnetic energy term thus obtained is too small to produce the observed change in nanocrystalline phase fraction. Possible reasons for this discrepancy are discussed.

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Effects of Magnetic Field and Deformation on Isothermal Martensitic Transformation in SUS304 and SUS304L Steels

Jae-hwa Lee, Takashi Fukuda, Tomoyuki Kakeshita, Koichi Kindo

pp. 2833-2839

抄録

Effects of external fields, such as temperature, magnetic field, stress and combination of these fields have been examined on martensitic transformation of SUS304 and SUS304L austenitic stainless steels. Following results are obtained: (i) No athermal martensitic transformation occurs in all the solution-treated and sensitized stainless steels. On the contrary, isothermal transformation occurs in the sensitized SUS304 (γ→α′) between about 150 K and 250 K. It also occurs in the solution-treated (γ→ε′→α′) and sensitized SUS304L (γ→ε′→α′ and γ→α′) between about 80 K and 160 K. The γ-phase in all the steels exhibits an antiferromagnetic transition at about 40 K. (ii) Magnetic field-induced martensitic transformation dose not occur in austenitic state of the solution-treated and sensitized SUS304 and SUS304L even when the pulsed magnetic field of up to 30 MA/m is applied in a wide temperature range between 4.2 K and 290 K. On the other hand, the solution-treated and sensitized SUS304L containing isothermally-induced ε′ martensite exhibit magnetic field-induced ε′ to α′ transformation at 4.2 K and 77 K. (iii) Deformation-induced γ→ε′→α′ martensite transformation easily occurs at 77 K for all the solution-treated and sensitized stainless steels. (iv) Magnetic field-induced ε′→α′ transformation does not occur in the ε′ martensite induced beforehand by deformation in all the steels.

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Phase Transformation and Magnetic Properties of Ferromagnetic Cu-Mn-Ga Alloys

Takuro Kushima, Koichi Tsuchiya, Yasukazu Murakami, Daisuke Shindo, Yoshikazu Todaka, Minoru Umemoto

pp. 2840-2846

抄録

Phase transformation, microstructure and magnetic properties were investigated for Cu-(11-14) mol%Mn-20 mol%Ga. The structures of the magnetic domains were also investigated by Lorentz microscopy and electron holography. Plate-like martensite phase(ζM, ordered hcp) was observed in as-quenched Cu-12 mol%Mn-20 mol%Ga. Phase transformation from ζM martensite to ζ phase(hcp) occurred at around 540 K on heating. The ζ phase decomposed into ζ″(ordered hcp) and β(bcc) phase at around 700 K, then became the single β phase at around 840 K. By subsequent slow cooling, ζ phase was observed at room temperature. The results obtained from Lorentz microscopy and electron holography revealed that the twin plates of ζM martensite and the magnetic domain have one-to-one correspondence, suggesting high magneto-crystalline anisotropy energy of the martensite phase. The saturation magnetization and the Curie temperature increased with Mn content.

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Control of Phase Transformation Temperatures by Substituents in Ni-Fe-Ga Ferromagnetic Shape Memory Alloys

Haruhiko Morito, Katsunari Oikawa, Asaya Fujita, Kazuaki Fukamichi, Kiyohito Ishida, Ryosuke Kainuma

pp. 2847-2850

抄録

The variations of the martensitic transformation starting temperature TMS and the Curie temperature TC in Ni-Fe-Ga alloys have been investigated by substituting with several kinds of the fourth elements. By partial substitution of Co or Cu for Ni, TC increases and TMS decreases. In particular, the increase of TC is remarkable in the Ni54−xCoxFe19Ga27 alloy, which is related to the strong Ni-Co and Co-Fe exchange interactions. For the Ni54Fe19−xMnxGa27 alloys, TC slightly increases with the increase of Mn content, in analogy with the Ni52FexMn21−xGa27 alloys. From the present study, it is demonstrated that both TC and TMS of the Ni-Fe-Ga alloys can be effectively controlled by selecting the substituents.

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Effects of a High Magnetic Field on Bainitic and Martensitic Transformations in Steels

Hideyuki Ohtsuka

pp. 2851-2854

抄録

Effects of magnetic fields on transformation temperature, transformation behavior and transformed structure have been investigated for bainitic transformation in an Fe-3.6Ni-1.45Cr-0.5C steel and for transformation to lath martensite in 18Ni maraging steel. Bs temperature was determined by observing the transformed structure and Ms temperature was measured from the cooling curve of the specimen. It was found that both Bs and Ms temperatures increase with increasing applied magnetic field. Bainitic transformation behavior is accelerated by the applied magnetic field. Elongated and aligned structures were observed for austenite to ferrite transformation in an Fe-0.4C alloy, but no elongation or alignment of transformed structure has been observed for transformations to bainite and lath martensite.

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Characterization of Surface Biocompatibility of Crystallographically Aligned Hydroxyapatite Fabricated Using Magnetic Field

Tomohiko Tanase, Jun Akiyama, Kazuhiko Iwai, Shigeo Asai

pp. 2855-2860

抄録

Hydroxyapatite (HAp) is the main mineral component of bone and is used as a raw material for artificial bones and teeth, and as an adsorbent in liquid chromatography, among its other uses. As a result of its anisotropic crystal structure, HAp shows adsorption behavior that depends on the crystal plane. However, the differences between the a-plane and the c-plane of the HAp crystal in terms of their bioactivity, cell-propagation behavior, etc., have not yet been fully clarified. In this study, we fabricated highly crystallographically aligned samples of HAp by using a 10-T magnetic field, and we studied the effects of the specific crystal plane of HAp on its bioactivity by immersing the samples in a simulated body fluid.
HAp is precipitated on both a-plane- and c-plane-aligned HAp sample surfaces. The rate of precipitation on a HAp sample immersed in the simulated body fluid depended on the crystal plane, especially during the first 24 h of immersion. Because the rate of precipitation on the c-plane is faster than on the a-plane, HAp is precipitated preferentially on the c-plane during the early stages of precipitation.

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Effect of Milling Treatment on Texture Development of Hydroxyapatite Ceramics by Slip Casting in High Magnetic Field

Yoshio Sakka, Kazuya Takahashi, Nobuyuki Matsuda, Tohru S. Suzuki

pp. 2861-2866

抄録

Hydroxyapatite (HAP, Ca10(PO4)6(OH)2) is a main component of bones and teeth, and a specific crystal orientation is required for biomaterial application. In this study, the effects of the processing parameters on the orientation, such as de-agglomeration by milling procedure, applied magnetic field and sintering temperatures, were examined. Using the de-agglomerated particle by a milling procedure, it is possible to control the particle orientation, but when using heavily agglomerated particles, it was impossible to control the particle orientation by applying a high magnetic field. Highly-textured HAP can be fabricated by slip casting using a well-dispersed suspension in a high magnetic field (above 4 T) followed by sintering above 1373 K.

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In-Situ Observation of Crystal Alignment under a Magnetic Field Using X-ray Diffraction

Takenori Kohama, Hiroki Takeuchi, Manabu Usui, Jun Akiyama, Mun-Gyu Sung, Kazuhiko Iwai, Shigeo Asai

pp. 2867-2871

抄録

The crystal alignment behavior of bismuth particles in the presence of an imposed static magnetic field was examined in situ by X-ray diffraction. Because the c-plane of a bismuth crystal is aligned perpendicular to the direction of a magnetic field, the temporal variation in the (110) peak intensity of bismuth was measured by X-ray diffraction to determine the crystal alignment. The alignment time decreased as the magnetic field strength increased. This tendency is similar to that calculated for the relaxation time. The difference in the magnetic susceptibility between the magnetically easy and hard axes is the driving force for the crystal alignment, and aggregation of the bismuth particles decreases this driving force. The effective difference in magnetic susceptibility for aggregated bismuth particles was estimated by measuring the alignment time of the particles under magnetic fields of various strengths. The estimated effective difference in magnetic susceptibility generally increases with a decreasing magnetic field strength. Furthermore, the interference to crystal rotation caused by the interaction between the induced current and the imposed magnetic field is negligible in this study. To decrease the strength of the magnetic field required for alignment of crystals, the number of small particles should be reduced.

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Crystal Alignment of Titanium under Simultaneous Imposition of Electric Current and Magnetic Field

Yasuhiko Sakaida, Kazuhiko Iwai, Shigeo Asai

pp. 2872-2876

抄録

It is well known that the transport of atoms, ions and holes in a material is induced by electromigration. This implies that electromigaration can control the structure of a material. In this study, an electric current was applied to a titanium sample that was subjected to a static magnetic field to investigate the effects of the electric current and the static magnetic field on crystal alignment in titanium.
An intensity ratio of (002) peak to (100) peak in XRD analysis was introduced as a crystal alignment index.
Because the magnetic susceptibility of titanium in the c-axis is larger than what it is in the a-axis, titanium crystals having a c-axis parallel to the magnetic field are stable from the viewpoint of magnetization energy. However, the numbers of these crystals decreased after the experiment. On the other hand, the c-axis of the titanium crystals aligned themselves itself to become perpendicular to the direction of flow of the electric current to reduce the Joule loss in the sample, because the specific resistance in the c-axis was larger than that in the a-axis. This agrees with the experimental result.
Therefore, in this experiment the titanium crystals in the sample aligned themselves to reduce the Joule loss even though the magnetic energy was larger than the thermal fluctuation in this experiment.

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Effect of High Magnetic Field on Ferrite Materials Obtained by Calcination of Layered Double Hydroxide

Hideaki Murase, Hideyuki Yasuda, Atsushi Nakahira

pp. 2877-2882

抄録

In this paper, the effect of high magnetic field on the development of property were investigated by calcination of MgFe-LDH (CO3) as a precursor of ferrite material under applied field of 10 T. Obtained products were identified by X-ray diffraction analysis (XRD) and their microstructures were observed using scanning electron microscopy (SEM). Furthermore, their magnetic properties were evaluated by a superconducting quantum interference device (SQUID). It was observed that the particle size of mixed oxide prepared by calcination under 10 T was homogeneous and small. Saturation magnetization of mixed oxide synthesized under 10 T was higher than that of zero field. Therefore, it was found that calcination due to imposition of high magnetic field affected phase transition to mixed oxide and provided enhancement of its property.

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Fabrication of Textured α-SiC Using Colloidal Processing and a Strong Magnetic Field

Tohru S. Suzuki, Tetsuo Uchikoshi, Yoshio Sakka

pp. 2883-2887

抄録

In general, the mechanical and physical properties of a crystal depend on the direction of the crystal axis. The controlled development of the crystallographic texture in ceramics is very useful for improvement of their properties. The preparation of the textured SiC polycrystal was achieved by colloidal processing in a strong magnetic field. The c-axis of the SiC was parallel to the direction of the applied magnetic field. The bending strength of the textured SiC depends on the crack-growth direction.

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In Situ Microscopic Observations of Magnetic Field Effects on the Growth of Silver Dendrites

Noriyuki Hirota, Soma Hara, Yoshio Sakka

pp. 2888-2892

抄録

The effect of magnetic fields on electroless silver deposition was investigated through in situ microscopic observation using a periscope system developed on the basis of a confocal scanning laser microscope. At the growth front of a silver dendrite, under a 12 T magnetic field applied perpendicularly to the sample plane, a straight silver branch was grown for a while; then, a given length of the branch at the neighbor of the tip started moving rapidly and was bent in an integrated manner. As a result of the process, a dense silver dendrite in the shape of a vortex was formed. When the sample space was narrowed, the branch did not bend due to the increase in the static friction between the branch and the glass plates. Judging from these observations, the mechanism underlying the formation of a dense vortex dendrite was thought to be the effect of the Lorentz force acting on the branch due to the electric current flowing through the branch itself accompanied by the silver deposition and the copper dissolution reactions. Furthermore, the reason that the silver dendrite grown under high magnetic fields looked denser by macroscopic observation was investigated by evaluating the reaction amount and the microstructure of the silver branch. No significant difference was observed in the reaction amount between the experiments with and without magnetic fields. On the other hand, the microstructures of the silver branch were significantly different from each other. The silver branch grown under high magnetic fields had a low-density structure, which seems to account for its denser appearance in the macroscopic observation. This low-density structure may be formed because of the interference of the static crystal growth due to the rapid bend of the silver branches.

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Efficiency of Magnetic Alignment Found in Various Paramagnetic and Diamagnetic Solids Detected by Simple Rotational Oscillation of Sample in Microgravity

Chiaki Uyeda, Shun Kano, Keiji Hisayoshi, Akio Nakanishi, Kenji Kimoto

pp. 2893-2897

抄録

Oscillation of magnetically stable-axis with respect to a static field below 20 kOe occurred for various solids without spontaneous magnetic moment. The oscillation was caused by anisotropy of magnetic susceptibility Δχ. According to theoretical consideration on the origin of diamagnetic and paramagnetic anisotropy, Δχ values of ordinary solid is expected to range over 6 orders of magnitude. These Δχ values can be obtained from period of the above-mentioned oscillation; small Δχ values were detectable because effect of restoration torque of a fiber that suspended the sample was excluded in the measurement. Δχ above 1×10−9 emu/g were detected at terrestrial gravity in a field below B=20 kOe. The fiber itself was excluded by floating a sample in microgravity, for the purpose of detecting Δχ below 1×10−9 emu/g. Alignment of micron-sized crystals dispersed in fluid at room temperature is achieved below 2 Tesla for most of the solids since their Δχ value is above 1×10−9 emu/g. Efficiency of magnetic alignment is enhanced considerably for ordinary oxide when resultant Δχ is increased by paramagnetic impurity ions up to level of 10−5 emu/g.

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Microstructure, Recrystallization, and Mechanical Property Evolutions in the Heat-Affected and Fusion Zones of the Dissimilar Stainless Steels

Chih-Chun Hsieh, Dong-Yih Lin, Ming-Che Chen, Weite Wu

pp. 2898-2902

抄録

The purpose of this study was to discuss the microstructure, recrystallization, and mechanical property evolutions in the heat-affected zones and fusion zones during dissimilar stainless steels welding. The morphology, quantity and chemical composition of the δ-ferrite were analyzed by using optical microscopy (OM), scanning electron microscopy (SEM), energy dispersive spectrometer (EDS) and electron probe micro-analyzer (EPMA), respectively. The recrystallization phenomenon was evident with the second pass heat-affected zone (HAZ-2) and indicated equiaxed grains after second pass welding. The contents of δ-ferrite exhibited the highest value of all situations in the first pass fusion zone (FZ-1) during the first pass welding. Furthermore, the solidification mode of fusion zones transformed from massive as well as acicular δ-ferrite into lathy and skeletal structures as increased the welding pass number from 1 to 3.

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Effect of Iron and/or Carbon on the Grain Refinement of Mg-3Al Alloy

Jun Du, Jian Yang, Mamoru Kuwabara, Wenfang Li, Jihua Peng

pp. 2903-2908

抄録

The effect of iron on the grain refinement of Mg-3Al alloy modified with and without carbon powder has been investigated in the present study. Significant grain refinement could be obtained for Mg-3 mass%Al alloy modified with either Fe or carbon. The Al-C-O and Al-Fe particles were observed which should be the potent nuclei for Mg grains. The high segregating power of Fe was also proved as an important factor which determines the grain size of Mg-Al alloys. Refining efficiency could be further obtained by the combination of Fe and carbon. Both Al-C-O-Fe-rich and Al-Fe-rich intermetallic particles were observed in the samples modified by the combination of Fe and carbon. The Al-C-O-Fe-rich intermetallic particles should play a very positive role in grain refining for Mg-Al alloys. The combination of Al-C-O-Fe and Al-Fe intermetallic compounds produced more powerful nuclei for Mg grains, and thus caused grain refinement.

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Fatigue Strength of Friction-Welded 6061 Aluminum Alloy Joints

Yoshiaki Yamamoto, Hiizu Ochi, Takeshi Sawai, Hiroshi Yamaguchi, Koichi Ogawa

pp. 2909-2913

抄録

The Ono’s rotary bending fatigue test and the cantilever rotary bending fatigue test were carried out on friction-welded 6061 aluminum alloy joints, and the relationship between the deformation heat input in the upset stage or the upset burn-off length and fatigue strength was examined. In the Ono’s type test, sound joints, which fractured in the heat affected zone in the tensile test, fractured in the heat affected zone also and the fatigue limit of these joints was slightly lower than that of 6061 aluminum alloy base metal. This is because joints fractured in the softened area in both tensile test and Ono’s type test using smoothed test specimens. While, in the cantilever type test, the fatigue limit of sound joints was a little more than or a little less than that of 6061 aluminum alloy base metal. It seems that a weld and a structure at the weld interface affected fatigue strength in the cantilever type test using notched test specimens. Judging from the fatigue limit obtained, sound joints could be produced when either the deformation heat input in the upset stage or the upset burn-off length exceeded a certain value.

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Superplasticity of Cu-Al-Mn-Ni Shape Memory Alloy

Toshihiro Omori, Naoki Koeda, Yuji Sutou, Ryosuke Kainuma, Kiyohito Ishida

pp. 2914-2918

抄録

The microstructure and superplastic behavior at 450°C and 500°C in Cu-Al-Mn-based shape memory alloys were investigated using optical microscopy and a tensile test. It was found that a fine α (fcc) + β (bcc) two-phase structure with a grain size of 3 μm in diameter can be obtained in Cu-Al-Mn-Ni alloy by annealing at 600°C. The flow stress of Cu-Al-Mn-Ni alloy depends on the strain rate and the strain rate sensitivity is over 0.3 with an elongation of over several hundred percent, which shows that the Cu-Al-Mn-Ni shape memory alloy exhibits superplasticity. For the test temperature at 500°C and a strain rate of 5×10−4 s−1, a maximal elongation of 1150% was obtained. The formation of cavity stringers lying parallel to the tensile axis was observed and the size of the cavity was larger as the specimen was more highly deformed.

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On the Serrated Behavior during Plastic Deformation of a Zr-Based Bulk Metallic Glass

Hongqi Li, Peter K. Liaw, Hahn Choo

pp. 2919-2922

抄録

The uniaxial compression tests were conducted on an amorphous Zr-based alloy at room temperature. The results show that this alloy exhibited the typical features of metallic glasses and the stress-strain curve is extensively serrated within the plastic regime. The analysis reveals that for all the shear band events, the maximum stresses remained approximately constant during the course of plastic deformation, and the minimum stresses began to decrease when the deformation enters the late stage. This phenomenon is probably associated with the different shear-banding behaviors within various deformation stages. Calculations find that the stress accumulation sections in the stress-strain curve are parallel to each other, indicating that such reloading processes are elastic in nature. Therefore, there are elastic and plastic sections in the stress-strain curve. Further analysis discloses that the plastic strain component carried by each shear band event increases with the applied strain within the late deformation stage.

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Theory of Shear Banding in Metallic Glasses and Molecular Dynamics Calculations

Futoshi Shimizu, Shigenobu Ogata, Ju Li

pp. 2923-2927

抄録

The aged-rejuvenation-glue-liquid (ARGL) shear band model has been proposed for metallic glasses (Acta Mater. 54 (2006) 4293), based on small-scale molecular dynamics simulations up to 20,000 atoms and thermomechanical analysis. The model predicts the existence of a critical lengthscale ∼10 nm, above which melting could occur in shear-alienated glass. Large-scale molecular dynamics simulations with up to 5 million atoms have directly verified this prediction. When the applied stress exceeds the glue traction (computed separately before in a shear cohesive zone, or an amorphous-amorphous “generalized stacking fault energy” calculation), we indeed observe maturation of the shear band embryo into bona fide shear crack, accompanied by melting. In contrast, when the applied stress is below the glue traction, the shear band embryo does not propagate, becomes diffuse, and eventually dies. Thus this all-important quantity, the glue traction which is a property of shear-alienated glass, controls the macroscopic yield point of well-aged glass. We further suggest that the disruption of chemical short-range order (“chemical softening”) governs the glue traction microscopically. Catastrophic thermal softening occurs only after chemical alienation and softening in our simulation, after the shear band embryo has already run a critical length.

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Effects of Alloying Additions and Material Microstructure on the Accuracy of the Predictive Law of Creep Crack Growth for W-Strengthened 9–12%Cr Ferritic Heat-Resistant Steel

Ryuji Sugiura, A. Toshimitsu Jr. Yokobori, Shinjyu Takamori, Masaaki Tabuchi, Akio Fuji, Mitsuo Yoda, Kenichi Kobayashi, Takeo Yokobori

pp. 2928-2936

抄録

The life of creep crack growth for W-strengthened 9–12%Cr steel is sensitive to the alloying additions and to differences in material microstructure, such as lath martensitic structure and grain size caused by differences in cooling rates in the steel ingots during the manufacturing process, which results in the large scatter of experimental data from the law of creep crack growth life. In the present study, creep crack growth tests were conducted using W-strengthened 9–12%Cr steels with various contents of alloying additions and the dimensions of micro-nano structures. The effects of the composition of alloying additions and material microstructures on the life of creep crack growth for W-strengthened 9–12%Cr steel were clarified.

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Development of a New Method for Manufacturing Iron Foam Using Gases Generated by Reduction of Iron Oxide

Taichi Murakami, Kensuke Ohara, Takayuki Narushima, Chiaki Ouchi

pp. 2937-2944

抄録

A new method for manufacturing iron foam using CO and CO2 as foaming gases was studied. This method consists of three stages: (1) mixing powders of pure iron, graphite, and hematite; (2) preparing the precursor by cold pressing the mixed powders; and (3) foaming by heating the precursor at temperatures between the liquidus and solidus in the Fe–C binary system. Molten iron containing carbon is foamed by gases generated by a reduction reaction. Optimizations of both the composition of the precursor and the heating conditions are required to produce the iron foam with high porosity. It was found that the content and powder size of hematite in the precursor significantly affect the porosity and pore diameter of the iron foam. Iron foam with a porosity of 55% and average pore diameter of around 500 μm is obtained by heating the precursor of Fe-3.1 mass%C-1.0 mass%Fe2O3 at 1543 K.

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Density and Hardness Gradients of Functionally Graded Material Ring Fabricated from Al-3 mass%Cu Alloy by a Centrifugal In-Situ Method

Yoshimi Watanabe, Hisashi Sato, Tetsuro Ogawa, Ick-Soo Kim

pp. 2945-2952

抄録

In present study, the Al-Al2Cu functionally graded material (FGM) ring was fabricated from Al-3 mass%Cu initial master alloy by the centrifugal in-situ method. In the case of Al-3 mass%Cu alloy, the density of the primary α-Al crystal is larger than that of the molten Al alloy. Therefore, the solid α-Al phase migrates towards the outer periphery of the ring when the centrifugal force is applied in the early stage of solidification. Consequently, since the Cu concentration within the FGM ring monolithically increases towards the ring’s inner position, the FGM ring, whose density increases toward inner region, can be successfully fabricated by the centrifugal in-situ method from dilute Al-Cu alloy. It is also found that the hardness increases towards the inner region of the ring within the Al-Al2Cu FGM ring. The hardness of the fabricated specimens at the inner region of the ring increases in a large scale by the heat treatments, since Guinier-Preston (GP) zones would be formed by aging.

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Microstructure and Electrical Conductivity of BaRuO3 Thin Films Prepared by Laser Ablation

Akihiko Ito, Hiroshi Masumoto, Takashi Goto

pp. 2953-2959

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BaRuO3 (BRO) thin films were prepared by laser ablation at substrate temperature (Tsub) ranging from room temperature to 973 K in a high vacuum (10−6 Pa) and in O2 at oxygen pressures (PO2) of 0.13 to 130 Pa. The relationship between deposition conditions, microstructure, binding state and electrical conductivity was investigated. 9R-type BRO thin film with well-crystallized fine grains was obtained at PO2=13 Pa and Tsub>773 K. BaRu6O12 was co-deposited with BRO at P=10−6 Pa and Tsub>573 K. The electrical conductivity (σ) of the BRO thin films positively correlated with Tsub and PO2. Highly conductive (σ>104 S·m−1) BRO thin films showed metallic conduction whereas less conductive (σ<104 S·m−1) BRO thin films showed semiconducting behavior. BRO thin film prepared at PO2=13 Pa and Tsub=773 K exhibited a maximum σ of 7.7×104 S·m−1 at room temperature.

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Physical Properties of Ceramic Layer Prepared by SHS in Centrifugal Field

Jaeryeong Lee, M. T. Le, H. S. Chung

pp. 2960-2963

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The inner surface of a steel pipe could be lined with ceramics by means of a SHS reaction under centrifugal force. Some physical characteristics of the ceramic layer were investigated with the change of filling ratio (thermit mixture, Fe2O3 and Al) and the addition of silica.
Two compositions, α-Al2O3 and FeAl2O4, were detected in the dispersed phase. The size of alumina grains became larger towards the pipe innermost side at high mixture filling ratios. Additionally, it was found that amorphous silicate materials formed by the addition of silica makes the layer dense significantly. The apparent density and hardness of the ceramic layer were improved from 2.9 g/cm3 and 1,430 Hv to 3.7 g/cm3 and 1,700 Hv with the effect of additive, silica.

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Hydrogenation Induced Bending Motion of Composite Device of La-Ni Alloy Film Deposited on Copper Foil

Yoshitake Nishi, Haru-Hisa Uchida, Kenichi Numazaki

pp. 2964-2968

抄録

In order to obtain a large movement with high power and responsiveness, a hydrogenation operated bimetal device made of La-Ni alloy film deposited on a thin copper (Cu) substrate foil, has been successfully developed. The sample of La-Ni film deposited on the Cu thin foil exhibits about 50% larger bending displacement than that on a thick sheet of polyimide substrate within 50 s. The influence of load on bending motion has also been investigated. The moving yield of the La-Ni film deposited on the Cu thin foil is larger than that on a polyimide thick sheet.

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Influence of Elastic Tensile Stress on Electrical Resistivity of Carbon Fiber

Yoshitake Nishi, Mitsuru Hirano

pp. 2969-2972

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An influence of elastic tensile stress on electrical resistivity of carbon fiber has been investigated as a basic research to develop a strain sensor. The initial elastic stress reversibly decreases the electrical resistivity, although the large stress causing irreversible deformation increases the resistivity. In addition, a linear relationship between initial stress and reduced electrical resistivity is obtained in the initial elastic stress zone. As the initial elastic stress probably enhances the periodicity of graphite structure, decreasing in the electrical resistivity with tensile elastic stress is explained.

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Effect of Chromium Content on Corrosion Behaviors of Fe-9Al-30Mn-(3,5,6.5,8)Cr-1C Alloys

Cheng Shun Wang, Cheng Yao Tsai, Chuen Guang Chao, Tzeng Feng Liu

pp. 2973-2977

抄録

The corrosion behaviors of the as-quenched austenitic Fe-9%Al-30%Mn-(3,5,6.5,8)%Cr-1%C (in mass%) alloys in 3.5% NaCl solution have been examined. Passivation could be observed for all of the four alloys. The corrosion potential (Ecorr) and pitting potential (Epp) increased pronouncedly as Cr content increased from 3 to 5%, and decreased as Cr content up to 6.5 and 8%. The decrease of Ecorr and Epp of alloys containing 6.5 and 8% Cr was due to the formation of (Fe,Mn,Cr)7C3 carbides within the austenite matrix and on the grain boundaries. The present result indicates that the Fe-9%Al-30%Mn-5%Cr-1%C alloy exhibited the highest corrosion resistance in 3.5% NaCl solution. It is worthy to note that the corrosion behaviors of the austenitic FeAlMnCrC alloys with higher Cr (≥3%) content have never been reported in previous literature.

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Effects of Chemical and Heat Treatments on Surface Characteristics and Biocompatibility of Titanium-Niobium Alloys

Kuo-Chih Feng, En-Yu Wu, Yung-Ning Pan, Keng-Liang Ou

pp. 2978-2985

抄録

Alkali solution- and heat-treatments were employed to modify the surfaces of Ti-6Al-4V, Ti-40Nb-1Hf and Ti-30Nb-1Fe-1Hf alloys, and then the surface characteristics and the biocompatibility of the treated alloys were analyzed. The formation of porous surfaces that contain numerous nano-pores and irregular cracks, together with the increase in hydroxyl, TiO2 and Nb2O5 contents in the surface layer of the treated Ti-40Nb-1Hf and Ti-30Nb-1Fe-1Hf alloys, have been found to enhance biocompatibility which was evaluated by the osteoblast cell culture in vitro. In addition, the biocompatibility of both Ti-40Nb-1Hf and Ti-30Nb-1Fe-1Hf alloys are comparable to that of Ti-6Al-4V alloy. Alkali solution- and heat-treatments are believed to enhance bone-bonding ability of both Ti-40Nb-1Hf and Ti-30Nb-1Fe-1Hf alloys, and therefore are useful for surface modification practice.

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Formation and Mechanical Properties of Mg97Zn1RE2 Alloys with Long-Period Stacking Ordered Structure

Yoshihito Kawamura, Michiaki Yamasaki

pp. 2986-2992

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We investigated the formation and mechanical properties of Mg97Zn1RE2 alloys with long-period stacking ordered (LPSO) structures by examining RE = Y, La, Ce, Pr, Sm, Nd, Gd, Dy, Ho, Er, Tb, Tm and Yb. The LPSO phase developed for RE = Y, Dy, Ho, Er, Gd, Tb and Tm. LPSO Mg-Zn-RE alloys are either type I, in which the LPSO phase forms during solidification: Mg-Zn-Y, Mg-Zn-Dy, Mg-Zn-Ho, Mg-Zn-Er and Mg-Zn-Tm, or type II, in which the LPSO phase is nonexistent in as-cast ingots but precipitates with soaking at 773 K: Mg-Zn-Gd and Mg-Zn-Tb. The criteria for REs that form an LPSO phase in Mg-Zn-RE alloys are discussed. Mg-Zn-RE alloys with an LPSO phase, which were worked by hot extrusion, include high strength both at ambient and elevated temperatures, and good ductility. Their tensile yield strength, ultimate strength and elongation were 342–377 MPa, 372–410 MPa and 3–9%, respectively at ambient temperature, and 292–310 MPa, 322–345 MPa and 4–13% at 473 K. The LPSO Mg-Zn-RE alloys are promising candidates for lightweight structural materials.

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Formation of (B2+D03) Two-Phase Microstructure in a Fe-23 Al-7 Ti Alloy

Chun-Wei Su, Chuen-Guang Chao, Tzeng-Feng Liu

pp. 2993-2996

抄録

As-quenched microstructure of the Fe-23 at% Al-7 at% Ti alloy was a mixture of (A2+D03) phases. When the as-quenched alloy was aged at 1073 K for moderate times, D03 domains grew preferentially along ⟨100⟩ directions and extremely fine B2 particles occurred at a/2⟨100⟩ anti-phase boundaries (APBs). After prolonged aging at 1073 K, the B2 particles would grow to occupy the whole a/2⟨100⟩ APBs. Consequently, the stable microstructure of the alloy at 1073 K was a mixture of (B2+D03) phases.

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Quantitative Prediction of Voids Formation in a Growing Cobaltous Oxide Scale at 1373 K

Kojiro Akiba, Mitsutoshi Ueda, Kenichi Kawamura, Toshio Maruyama

pp. 2997-3006

抄録

Quantitative prediction of voids formation is demonstrated for CoO scale formed at 1373 K. Calculations of ion fluxes and their divergence in CoO scales can predict the void formation in the scale which mostly occurs in the vicinity of the metal/oxide interface. The volume fraction of voids is found to be maximum at the initial surface. These predictions are in good agreement with the observed morphology of CoO scale obtained in high temperature oxidation of cobalt at 1373 K.

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Effect of Low Temperature Aging on Superelastic Behavior in Biocompatible β TiNbSn Alloy

F. Nozoe, H. Matsumoto, T. K. Jung, S. Watanabe, T. Saburi, S. Hanada

pp. 3007-3013

抄録

Superelasticity of β Ti-16 at%Nb-4.8 at%Sn alloy consisting of non- (or minimal-) cytotoxic elements was investigated for biomedical applications as functions of deformation temperature and aging heat treatment after quenching. As-quenched Ti-16Nb-4.8Sn having Af (the reverse martensitic transformation finish temperature) of 266 K exhibits superelasticity at human body temperature (310 K) with an elastic recovery strain of 3.2%. Af decreases with increasing aging temperature in the range of 353 to 423 K or with increasing aging time at 423 K. It is confirmed from TEM observation and Young’s modulus measurements that ω transformation occurs on aging at 423 K for 500 h. Stress for inducing martensitic transformation, σM, increases with aging. Stress-strain curves showing superelasticity are quite similar to each other when as-quenched or aged samples are deformed at such temperatures that they have the same σM. It is concluded that maximum superelastic recovery strain can be obtained at intended temperature, e.g. human body temperature, in β Ti-Nb-Sn alloys by aging at relatively low temperatures.

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Deformation Fracture Characteristics of Microelectronic Sn-3.0Ag-0.5Cu-xNi Solders

Fei-Yi Hung, Truan-Sheng Lui, Li-Hui Chen, Cheng-Wei Chan

pp. 3014-3020

抄録

The effect of Ni content on the microstructure, as well as the tensile and vibration fracture mechanisms of a potential lead-free solder, Sn-3.0Ag-0.5Cu-xNi (0.02, 0.07, 0.1, 0.2 and 0.3 mass%), are examined in this study. The results show that both Sn-Ni-Cu and Sn-Cu-Ni-Ag intermetallic compounds (IMC) increased with increasing the Ni content. The IMCs mostly formed in the eutectic zones and a few in proeutectic Sn-rich phases. Notably, the Ni content of the bar-like Sn-Ni-Cu compounds was higher than that of the particle-like Sn-Cu-Ni-Ag compounds. In addition, the tensile deformed resistance of Sn-3.0Ag-0.5Cu-xNi solders decreased when the Ni content was increased. Adding Ni obtained finer structures, however the hard massive Sn-Ni-Cu in the eutectic zone deteriorated the tensile deformation resistance. For the lower Ni content specimens, the 0.07Ni specimen not only possessed finer structures but a large number of compounds which congregated were able to increase the crack tortuosity, which in turn increased the crack propagation resistance and the vibration life.

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A Theoretical Approach of the Heat Transfer in Nanofluids

P. Vizureanu, M. Agop

pp. 3021-3023

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Using the fractal space-time theory (scale relativity theory), the dynamics of the fluid/nano-particle interface was analyzed. In the general case, the heat transfer through the interface reproduces a d.c. or an a.c. Josephson effects of thermal type, while in the linear approximation, the standard form of heat transfer is given. Consequently, a negative differential thermal conductance appears and an increase in of heat transfer in nanofluids results.

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FeSiBP Bulk Metallic Glasses with Unusual Combination of High Magnetization and High Glass-Forming Ability

Akihiro Makino, Takeshi Kubota, Chuntao Chang, Masahiro Makabe, Akihisa Inoue

pp. 3024-3027

抄録

Among many kinds of bulk metallic glasses (BMGs), Fe-based BMGs with good magnetic properties, high strength and low materials cost should have great potential for wide variety of applications. However, the glass-forming metal elements such as Al, Ga, Nb, Mo, Y and so forth in the Fe-based BMGs significantly decrease saturation magnetization (Js) which is a essential property as soft magnetic materials and also increase the material cost.
The coexistence of high Fe content and high glass-forming ability (GFA) has been earnestly desired from academia to industry. We report a novel Fe76Si9B10P5 (at%) bulk metallic glass with unusual combination of high Js of 1.51 T due to high Fe content and high GFA leading to a glassy rod with a diameter of 2.5 mm despite not-containing any glass-forming metal elements. This alloy composed of familiar and low-priced elements, also exhibiting very excellent magnetic softness and rather high strength, has a great advantage for engineering and industry, and thus should make a contribution to conservation of earth resources and environment through energy saving.

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Influence of Precipitate and Martensite Lath on the Magnetic Properties in Creep Damaged 11Cr-3.45W Steel

Chung Seok Kim, Sook In Kwun

pp. 3028-3030

抄録

The influence of microstructure on the magnetic properties was experimentally investigated to estimate the creep damage in ferritic 11Cr-3.45W steel as an applicable research for the structural health monitoring. The microstructure showed significant changes in precipitate size (dp), precipitate number (N), dislocation density (ρ) and martensite lath width (ω) during creep. The magnetic coercivity decreased with creep duration and depended strongly on precipitate number and lath width. However, the magnetic saturation and remanence did not change after 500 h creep duration. The correlation between the microstructural changes and coercivity was discussed.

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Fabrication of New Cu34Pd2Zr48Ag8Al8 Bulk Glassy Alloy with a Diameter of 30 mm

Qingsheng Zhang, Wei Zhang, Akihisa Inoue

pp. 3031-3033

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Glass-forming ability (GFA) of Cu36−xPdxZr48Ag8Al8 alloys was examined with the aim of developing a bulk glassy alloy with large critical diameter. It was found that the addition of 2 at% Pd significantly improved the GFA of the Cu36Zr48Ag8Al8 alloy. The fully glassy alloy rod with a diameter of 30 mm was successfully fabricated for the Cu34Pd2Zr48Ag8Al8 alloy using a copper mold casting method. The further increase of Pd content causes the decrease in the GFA. For the Cu36−xPdxZr48Ag8Al8 alloys, the Tg and Tx increase monotonously with increasing Pd content, while Tl shows a minimum value at 2 at% Pd, resulting in a maximum γ (=Tx⁄(Tg+Tl)) value at 2 at% Pd. The increase of γ parameter may be the reason for the significant improvement of the GFA of the quinary alloy.

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