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-¿º¬¡¡ÀµÏÂ; &br;
&color(blue){''"Åà·ë¤µ¤ì¤¿¹ç¶âÁÈÀ®¤æ¤é¤®¤Ë»ÙÇÛ¤µ¤ì¤ë̵³È»¶Åù²¹¥ª¥á¥¬ÊÑÂÖ¤ª¤è¤ÓưŪ¸¶»Ò¥·¥ã¥Ã¥Õ¥ê¥ó¥°,"''}; &br;
ºàÎÁ, Vol. 72, No. 9 (2023), pp. 638-641. &br;

-M. Tane, H. Nishio, D. Egusa, T. Sasaki, E. Abe, E. Miyoshi, S. Higashino; &br;
&color(blue){''"Effects of aluminum and oxygen additions on quenched-in compositional fluctuations, dynamic atomic shuffling, and their resultant diffusionless isothermal ¦Ø transformation in ternary Ti–V-based alloys with bcc structure,"''}; &br;
Acta Materialia, Vol. 255 (2023), 119034 (13 pages).  &br;

-S. Higashino, £Ù. Takeuchi, M. Miyake, T. Sakai, T. Ikenoue, M. Tane, T. Hirato; &br;
&color(blue){''"Toward Tungsten Electrodeposition at Moderate Temperatures Below 100¡ëC Using Chloroaluminate Ionic Liquids,"''}; &br;
Journal of The Electrochemical Society, Vol. 170 (2023), 052501 (7 pages). &br;

-R. Liu, S. Higashino, K. Hagihara, L. Zhang, T. Sekino, M. Tane &br;
&color(blue){''"Change in elastic properties during room-temperature aging in body-centered cubic Mg–Li and Mg–Li–Al single crystals"''}; &br;
Journal of Materials Science & Technology, Vol. 109 (2022), pp. 49-53. &br;

-S. Higashino, Y. Takeuchi, M. Miyake, T. Sakai, T. Ikenoue, M. Tane, T. Hirato; &br;
&color(blue){''"Tungsten (II) chloride hydrates with high solubility in chloroaluminate ionic liquids for the electrodeposition of Al–W alloy films"''}; &br;
Journal of Electroanalytical Chemistry, Vol. 912 (2022), 116238 (10 pages). &br;

-R. Liu, M. Tane, H. Kimizuka, Y. Shirakami, K. Ikeda, S. Miura, K. Morita, T.S. Suzuki, Y. Sakka, L. Zhang, T. Sekino; &br;
&color(blue){''"Elastic isotropy originating from heterogeneous interlayer elastic deformation in a Ti3SiC2 MAX phase with a nanolayered crystal structure"''}; &br;
Journal of the European Ceramic Society, Vol. 41 (2021), pp. 2278-2289. &br;

-N.L. Okamoto, S. Kasatani, M. Luckabauer, R. Enzinger, S. Tsutsui, M. Tane, T. Ichitsubo; &br;
&color(blue){''"Evolution of microstructure and variations in mechanical properties accompanied with diffusionless isothermal ¦Ø transformation in ¦Â-titanium alloys"''}; &br;
Physical Review Materials, Vol. 4 (2020), 123603 (10 pages). &br;

-N.L. Okamoto, S. Kasatani, M. Luckabauer, M. Tane, T. Ichitsubo; &br;
&color(blue){''"Effects of solute oxygen on kinetics of diffusionless isothermal ¦Ø transformation in ¦Â-titanium alloys "''}; &br;
Scripta Materialia, Vol. 188 (2020), pp. 88-91.  &br;

-¿º¬¡¡ÀµÏÂ; &br;
&color(blue){''"½¸¹çÁÈ¿¥¤òÍ­¤¹¤ë¿·ë¾½ºàÎÁ¤ÎXÀþ±þÎÏ¥Õ¥¡¥¯¥¿¡¼¤ËµÚ¤Ü¤¹·ë¾½ÇÛ¸þÅÙ¡¤·ë¾½Î³·Á¾õ¤ª¤è¤ÓÃÆÀ­°ÛÊýÀ­¤Î±Æ¶Á"''}; &br;
Å´¤È¹Ý, Vol. 105, Issue 11 (2019), pp. 1080-1089. &br;

-M. Tane, H. Nishiyama, A. Umeda, N.L. Okamoto, K. Inoue, M. Luckabauer, Y. Nagai, T. Sekino, T. Nakano, T. Ichitsubo; &br;
&color(blue){''"Diffusionless isothermal omega transformation in titanium alloys driven by quenched-in compositional fluctuations"''}; &br;
Physical Review Materials, Vol. 3 (2019), 043604 (9 pages). &br;

-M. Tane, H. Okuda, F. Tanaka; &br;
&color(blue){''"Nanocomposite microstructures dominating anisotropic elastic modulus in carbon fibers"''}; &br;
Acta Materialia, Vol. 166 (2019), pp. 75-84. &br;

-T. Mayama, M. Tane, Y. Tadano; &br;
&color(blue){''"Superior energy absorption in porous magnesium: contribution of texture development triggered by intra-granular misorientations"''}; &br;
Acta Materialia, Vol. 165 (2019), pp. 62-72. &br;

-M. Tane, S. Suzuki, M. Yamasaki, Y. Kawamura, K. Hagihara, H. Kimizuka; &br;
&color(blue){''"Insignificant elastic-modulus mismatch and stress partitioning in two-phase Mg–Zn–Y alloys comprised of ¦Á-Mg and long-period stacking ordered phases"''}; &br;
Materials Science & Engineering A, Vol. 710 (2018), pp. 227-239. &br;

-N. Kamiuchi, K. Sun, R. Aso, M. Tane, T. Tamaoka, H. Yoshida, S. Takeda; &br;
&color(blue){''"Self-activated surface dynamics in gold catalysts under reaction environments"''}; &br;
Nature Communications, Vol. 9 (2018), 2060 (6 pages). &br;

-N. Oka, M. Ishimaru, M. Tane, Y. Sina, C. McHargue, K. Sickafus, E. Alves ; &br;
&color(blue){''"Formation of metastable phases in Zr-ion irradiated Al2O3 upon thermal annealing"''}; &br;
Microscopy, Vol. 66, Issue 6 (2017), pp. 388-396. &br;

-M. Tane, K. Yamori, T. Sekino, T. Mayama; &br;
&color(blue){''"Impact of grain shape on the micromechanics-based extraction of single-crystalline elastic constants from polycrystalline samples with crystallographic texture"''}; &br;
Acta Materialia, Vol. 122 (2017), pp. 236-251. &br;

-M. Tane, H. Kimizuka, T. Ichitsubo; &br;
&color(blue){''"Two distinct crystallization processes in supercooled liquid"''}; &br;
The Journal of Chemical Physics, Vol. 144, Issue 19 (2016), 194505 (10 pages). &br;

-M. Tane, K. Hagihara, M. Ueda, T. Nakano, Y. Okuda; &br;
&color(blue){''"Elastic-modulus enhancement during room-temperature aging and its suppression in metastable Ti–Nb-based alloys with low body-centered cubic phase stability"''}; &br;
Acta Materialia, Vol. 102 (2016), pp. 373-384. &br;

-M. Tane, H. Kimizuka, K. Hagihara, S. Suzuki, T. Mayama, T. Sekino, Y. Nagai; &br;
&color(blue){''"Effects of stacking sequence and short-range ordering of solute atoms on elastic properties of Mg–Zn–Y alloys with long-period stacking ordered structures"''}; &br;
Acta Materialia, Vol. 96 (2015), pp. 170-188. &br;

-K. Hagihara, M. Yamasaki, M. Honnami, H. Izuno, M. Tane, T. Nakano, Y. Kawamura; &br;
Crystallographic nature of deformation bands shown in Zn and Mg-based long-period stacking ordered (LPSO) phase
&color(blue){''"Crystallographic nature of deformation bands shown in Zn and Mg-based long-period stacking ordered (LPSO) phase"''}; &br;
Philosophical Magazine, Vol. 95, Issue 2 (2015), pp. 132-157. &br;

-M. Tane, T. Mayama, A. Oda, H. Nakajima; &br;
Effect of crystallographic texture on mechanical properties in porous magnesium with oriented cylindrical pores 
&color(blue){''"Effect of crystallographic texture on mechanical properties in porous magnesium with oriented cylindrical pores"''}; &br;
Acta Materialia, Vol. 84 (2015), pp. 80-94. &br;

-R. Nakamura, T. Toda, S. Tsukui, M. Tane, M. Ishimaru, T. Suzuki, H. Nakajima; &br;
Diffusion of oxygen in amorphous Al2O3, Ta2O5, and Nb2O5
&color(blue){''"Diffusion of oxygen in amorphous Al2O3, Ta2O5, and Nb2O5"''}; &br;
Journal of Applied Physics, Vol. 116, Issue 3 (2014), 033504 (8 pages).¡¡ &br;

-M. Tane, F. Zhao, Y.H. Song, H. Nakajima; &br;
Formation mechanism of a plateau stress region during dynamic compression of porous iron: Interaction between oriented cylindrical pores and deformation twins
&color(blue){''"Formation mechanism of a plateau stress region during dynamic compression of porous iron: Interaction between oriented cylindrical pores and deformation twins"''}; &br;
Materials Science & Engineering A, Vol. 591 (2014), pp. 150-158. &br;

-M. Tane, Y. Okuda, Y. Todaka, H. Ogi, A. Nagakubo; &br;
Elastic properties of single-crystalline ¦Ø phase in titanium
&color(blue){''"Elastic properties of single-crystalline ¦Ø phase in titanium"''}; &br;
Acta Materialia, Vol. 61, Issue 20 (2013), pp. 7543-7554. &br;

-M. Tane, Y. Nagai, H. Kimizuka, K. Hagihara, Y. Kawamura; &br;
Elastic properties of an Mg–Zn–Y alloy single crystal with a long-period stacking ordered structure 
&color(blue){''"Elastic properties of an Mg–Zn–Y alloy single crystal with a long-period stacking ordered structure"''}; &br;
Acta Materialia, Vol. 61, Issue 17 (2013), pp. 6338-6351. &br;

-T. Ide, M. Tane, H. Nakajima; &br;
Effect of solidification condition and alloy composition on formation and shape of pores in directionally solidified Ni-Al alloys
&color(blue){''"Effect of solidification condition and alloy composition on formation and shape of pores in directionally solidified Ni-Al alloys"''}; &br;
Metallurgical and Materials Transactions A, Vol. 44, Issue 9 (2013), pp. 4257-4265. &br;

-F. Yang, M. Tane, J.P. Lin, Y.H. Song, H. Nakajima; &br;
Pore formation and compressive deformation in porous TiAl–Nb alloys containing directional pores 
&color(blue){''"Pore formation and compressive deformation in porous TiAl–Nb alloys containing directional pores"''}; &br;
Materials & Design, Vol. 49 (2013), pp. 755-760. &br;

-M. Tane, T. Nakano, S. Kuramoto, M. Niinomi, N. Takesue, H. Nakajima; &br;
¦Ø Transformation in cold worked Ti–Nb–Ta–Zr–O Alloys with low body-centered cubic phase stability and its correlation with their elastic properties
&color(blue){''"¦Ø Transformation in cold worked Ti–Nb–Ta–Zr–O Alloys with low body-centered cubic phase stability and its correlation with their elastic properties"''}; &br;
Acta Materialia, Vol. 61, Issue 1 (2013), pp. 139-150. &br;

-M. Vesenjak, A. Kovačič, M. Tane, M. Borovinšek, H. Nakajima, Z. Ren; &br;
Compressive properties of lotus-type porous iron
&color(blue){''"Compressive properties of lotus-type porous iron"''}; &br;
Computational Materials Science, Vol. 65 (2012), pp. 37-43. &br;

-S.-H. Lee, M. Todai, M. Tane, K. Hagihara, H. Nakajima, T. Nakano; &br;
Biocompatible low Young¡Çs modulus achieved by strong crystallographic elastic anisotropy in Ti–15Mo–5Zr–3Al alloy single crystal
&color(blue){''"Biocompatible low Young¡Çs modulus achieved by strong crystallographic elastic anisotropy in Ti–15Mo–5Zr–3Al alloy single crystal"''}; &br;
Journal of the Mechanical Behavior of Biomedical Materials, Vol. 14 (2012), pp. 48-54.  &br;

-Y.H. Song, M. Tane, H. Nakajima; &br;
Dynamic and quasi-static compression of porous carbon steel S30C and S45C with directional pores
&color(blue){''"Dynamic and quasi-static compression of porous carbon steel S30C and S45C with directional pores"''}; &br;
Materials Science & Engineering A, Vol. 534 (2012), pp. 504-513. &br;

-Y.H. Song, M. Tane, H. Nakajima; &br;
Peculiar formation mechanism of a plateau stress region during dynamic compressive deformation of porous carbon steel with oriented cylindrical pores
Acta Materialia, Vol. 60, Issue 3 (2012), pp. 1149-1160. &br;

-T. Fiedler, C. Veyhl, I.V. Belova, M. Tane, H. Nakajima, T. Bernthaler, M. Merkel, A. Öchsner, G.E. Murch; &br;
On the anisotropy of lotus-type porous copper
Advanced Engineering Materials, Vol. 14, Issue 3 (2012), pp. 144-152. &br;

-R. Nakamura, M. Ishimaru, A. Hirata, K. Sato, M. Tane, H. Kimizuka, T. Shudo, T.J. Konno, H. Nakajima; &br;
Enhancement of nanovoid formation in annealed amorphous Al2O3 including W
Journal of Applied Physics, Vol. 110, Issue 6 (2011), 064324 (7 pages). &br;

-M. Tane, T. Nakano, S. Kuramoto, M. Hara, M. Niinomi, N. Takesue, T. Yano, H. Nakajima; &br;
Low Young¡Çs modulus in Ti–Nb–Ta–Zr–O alloys: Cold working and oxygen effects
Acta Materialia, Vol. 59, Issue 18 (2011), pp. 6975-6988. &br;

-M. Tane, S. Nakano, R. Nakamura, H. Ogi, M. Ishimaru, H. Kimizuka, H. Nakajima; &br;
Nanovoid formation by change in amorphous structure through the annealing of amorphous Al2O3 thin films
Acta Materialia, Vol. 59, Issue 11 (2011), pp. 4631-4640. &br;

-Y.H. Song, M. Tane, H. Nakajima; &br;
Appearance of a plateau stress region during dynamic compressive deformation of porous carbon steel with directional pores
Scripta Materialia, Vol. 64, Issue 8 (2011), pp. 797-800. &br;

-T.B. Kim, M. Tane, S. Suzuki, H. Utsunomiya, T. Ide, H. Nakajima; &br;
Strength and pore morphology of porous aluminum and porous copper with directional pores deformed by equal channel angular extrusion
Materials Science & Engineering A, Vol. 528, Issue 6 (2011), pp. 2363-2369. &br;

-M. Tane, R. Okamoto, H. Nakajima; &br;
Anisotropic tensile deformation of lotus-type porous copper
Materials Science Forum, Vol. 695 (2011), pp. 545-548. &br;

-T.B. Kim, M. Tane, S. Suzuki, T. Ide, H. Utsunomiya, H. Nakajima; &br;
Improvement of strength of lotus-type porous aluminum through ECAE process
Materials Science Forum, Vol. 695 (2011), pp. 263-266. &br;

-M. Tane, S. Akita, T. Nakano, K. Hagihara, Y. Umakoshi, M. Niinomi, H. Mori, H. Nakajima; &br;
Low Young¡Çs modulus of Ti–Nb–Ta–Zr alloys caused by softening in shear moduli c' and c44 near lower limit of body-centered cubic phase stability
Acta Materialia, Vol. 58, Issue 20 (2010), pp. 6970-6978.  &br;

-T. B. Kim, M. Tane, S. Suzuki, H. Nakajima; &br;
Pore morphology of porous Al-Ti alloys fabricated by continuous casting in hydrogen atmosphere
Materials Transactions, Vol. 51, Issue 10 (2010), pp. 1871-1877. &br;

-M. Tane, R. Okamoto, H. Nakajima; &br;
Tensile deformation of anisotropic porous copper with directional pores
Journal of Materials Research, Vol. 25, Issue 10 (2010), pp. 1975-1982. &br;

-M. Tane, T. Kawashima, H. Yamada, K. Horikawa, H. Kobayashi, H. Nakajima; &br;
Strain rate dependence of anisotropic compression behavior in porous iron with unidirectional pores
Journal of Materials Research, Vol. 25, Issue 6 (2010), pp. 1179-1190. &br;

-Y.H. Song, M. Tane, T. Ide, Y. Seimiya, B.Y. Hur, H. Nakajima; &br;
Fabrication of Al-3.7 pct Si-0.18 pct Mg foam strengthened by AlN particle dispersion and its compressive properties
Metallurgical and Materials Transactions A, Vol. 41, Issue 8 (2010), pp. 2104-2111. &br;

-²¬ËÜ Íý²Â, ¿º¬ ÀµÏÂ, ÃæÅè ±Ñͺ; &br;
¥¢¥³¡¼¥¹¥Æ¥£¥Ã¥¯¥¨¥ß¥Ã¥·¥ç¥óË¡¤òÍѤ¤¤¿¥í¡¼¥¿¥¹·¿¥Ý¡¼¥é¥¹Æ¼¤ÎÊÑ·ÁµóÆ°¤Î²òÀÏ
Ƽ¤ÈƼ¹ç¶â, Vol. 49, Issue 1 (2010), pp. 190-193. &br;

-M. Tane, T. Kawashima, K. Horikawa, H. Kobayashi, H. Nakajima; &br;
Dynamic compression behavior of lotus-type porous iron
Materials Science Forum, Vol. 658 (2010), pp. 193-196. &br;

-Y.H. Song, M. Tane, T. Ide, Y. Seimiya, H. Nakajima; &br;
Effect of foaming temperature on pore morphology of Al/AlN composite foam fabricated by melt foaming method
Materials Science Forum, Vol. 658 (2010), pp. 189-192. &br;

-M. Tane, H. Nakajima; &br;
Elastic and plastic deformation behaviors of lotus-type porous copper
Materials Science Forum, Vol. 658 (2010), pp. 332-335. &br;

-M. Tane, H. Nakajima; &br;
Fabrication of lotus-type porous aluminum utilizing decomposition of moisture
Materials Transactions, Vol. 50, Issue 6 (2009), pp.1477-1481. &br;

-T. Ide, M. Tane, H. Nakajima; &br;
Compressive deformation behavior of porous ¦Ã-TiAl with directional pores
Materials Science and Engineering A, Vol. 508, Issue 1-2 (2009), pp. 220-225. &br;

-M. Tane, S. Akita, T. Nakano, K. Hagihara, Y. Umakoshi, M. Niinomi, H. Nakajima; &br;
Peculiar elastic behavior of Ti–Nb–Ta–Zr single crystals
Acta Materialia, Vol. 56, Issue 12 (2008), pp. 2856-2863. &br;

-M. Tane, H. Nakajima; &br;
Fabrication of porous magnesium with directional pores through use of hydrogen thermally decomposed from MgH2 powders during unidirectional solidification
Journal of Materials Research, Vol. 23, Issue 3 (2008), pp. 849-855. &br;

-H. Seki, M. Tane, H. Nakajima; &br;
Fatigue crack initiation and propagation in lotus-type porous copper
Materials Transactions, Vol. 49, Issue 1 (2008), pp. 144-150. &br;

-M. Sugiyama, S.K. Hyun, M. Tane, H. Nakajima; &br;
Fabrication of lotus-type porous NiTi shape memory alloys using the continuous zone melting method and tensile property
High Temperature Materials and Processes,Vol. 26, Issue 4 (2007), pp. 297-301. &br;

-H. Seki, M. Tane, H. Nakajima; &br;
Effects of anisotropic pore structure and fiber texture on fatigue properties of lotus-type porous magnesium
Journal of Materials Research, Vol. 22, Issue 11 (2007), pp. 3120-3129. &br;

-M. Tane, H. Nakajima; &br;
Effective-mean-field theory for electrical conductivity of multiphase composite materials
Japanese Journal of Applied Physics, Vol. 46, Issue 8A (2007), pp. 5221-5225. &br;

-ÀÐËÜ ÂîÌé, ÃæÌî µ®Í³, ´¨ ÃλÒ, Â綶 ˧É×, ƣë ¾Ä, ÇÏ±Û Í¤µÈ, ÉþÉô ͧ°ì, Èõ¸ý ͵°ì, ¿º¬ ÀµÏÂ, ÃæÅè ±Ñͺ; &br;
À¸ÂκàÎÁºÇŬ·Á¾õÀ߷פΤ¿¤á¤Î¶â°¥¤¥ó¥×¥é¥ó¥È¼þ°Ï¤Ê¤é¤Ó¤Ë°ìÊý¸þÀ­¹¦ÆâÉô¤ËƳÆþ¤µ¤ì¤ë¿·À¸¹ü¤Î¹ü¼Áɾ²Á
ÆüËܶⰳزñ»ï, Vol. 71, Issue 4 (2007), pp. 432-438. &br;

-H. Seki, M. Tane, M. Otsuka, H. Nakajima; &br;
Effects of pore morphology on fatigue strength and fracture surface of lotus-type porous copper
Journal of Materials Research, Vol. 22, Issue 5 (2007), pp. 1331-1338. &br;

-T. Kujime, M. Tane, S. K. Hyun, H. Nakajima; &br;
Three-dimensional image-based modeling of lotus-type porous carbon steel and simulation of its mechanical behavior by finite element method
Materials Science and Engineering A, Vol. 460-461 (2007), pp. 220-226. &br;

-M. Tane, T. Ichitsubo, M. Hirao, H. Nakajima; &br;
Extended mean-field method for predicting yield behaviors of porous materials
Mechanics of Materials, Vol. 39, Issue 1 (2007), pp. 53-63. &br;

-T. Nakano, T. Tachibana, K. Hagihara, Y. Umakoshi, T. Ide, M. Tane, H. Nakajima; &br;
Microstructure and deformation behavior of lamellar Ti-rich TiAl crystal with lotus-type aligned pores
Materials Science Forum, Vol. 561-565 (2007), pp. 383-386. &br;

-H. Seki, M. Tane, H. Nakajima; &br;
Fatigue strength of lotus-type porous magnesium
Materials Science Forum, Vol. 561-565 (2007), pp. 1681-1684. &br;

-H. Nakajima, S. K. Hyun, S. K. Park, M. Tane; &br;
Fabrication of lotus-type porous metals by continuous zone melting and continuous casting techniques
Materials Science Forum, Vol. 539-543 (2007), pp. 187-192. &br;

-T. Ide, M. Tane, H. Nakajima; &br;
Fabrication of lotus-type porous NiAl and Ni3Al intermetallic compounds
Solid State Phenomena, Vol. 124-126 (2007), pp. 1721-1724. &br;

-J. S. Park, S. K. Hyun, M. Tane, H. Nakajima; &br;
Pore morphology of lotus-type porous copper fabricated by continuous casting technique
Solid State Phenomena, Vol. 124-126 (2007), pp. 1725-1728. &br;

-´Ø ¹¨ÈÏ, ¿º¬ ÀµÏÂ, ÃæÅè ±Ñͺ, ÂçÄÍ Àµµ×; &br;
¥í¡¼¥¿¥¹·¿¥Ý¡¼¥é¥¹Æ¼¤ÎÈèÏ«¶¯Å٤˵ڤܤ¹µ¤¹¦Î¨¤ª¤è¤Óµ¤¹¦·ÂʬÉۤαƶÁ
Ƽ¤ÈƼ¹ç¶â, Vol. 46, Issue 1 (2007), pp. 90-94. &br;

-M. Tane, S. K. Hyun, H. Nakajima; &br;
Evaluation of elastic and thermoelastic properties of lotus-type porous metals via effective-mean-field theory
Scripta Materialia, Vol. 54, Issue 4 (2006), pp. 545-552. &br;

-T. Ide, M. Tane, T. Ikeda, S. K. Hyun, H. Nakajima; &br;
Compressive properties of lotus-type porous stainless steel
Journal of Materials Research, Vol. 21, Issue 1 (2006), pp. 185-193. &br;

-Z. K. Xie, M. Tane, S. K. Hyun, Y. Okuda, H. Nakajima; &br;
Vibration-damping capacity of lotus-type porous magnesium
Materials Science and Engineering A, Vol. 417, Issue 1-2 (2006), pp. 129-133. &br;

-A. Öchsner, M. Tane, H. Nakajima; &br;
Prediction of the thermal properties of lotus-type and quasi-isotropic porous metals: Numerical and analytical methods
Materials Letters, Vol. 60, Issue 21-22 (2006), pp. 2690-2694. &br;

-T. Ide, M. Tane, S. K. Hyun, H. Nakajima; &br;
Fabrication of lotus-type porous Ni3Al with and without boron
Materials Transactions, Vol. 47, Issue 9 (2006), pp. 2116-2119. &br;

-J. S. Park, S. K. Hyun, H. Sueno, M. Tane, H. Nakajima, Y. S. Um, B. Y. Hur, F. Ono; &br;
Effect of pore morphology on compressive yield strength of lotus-type porous copper with various specimen sizes
Materials Transactions, Vol. 47, Issue 9 (2006), pp. 2208-2212. &br;

-M. Tane, H. Nakajima; &br;
Influence of ultrasonic agitation on pore formation and growth during unidirectional solidification of water-carbon dioxide solution
Materials Transactions, Vol. 47, Issue 9 (2006), pp. 2183-2187. &br;

-H. Sueno, M. Tane, J. S. Park, S. K. Hyun, H. Nakajima; &br;
Size effects on tensile strength of lotus-type porous copper
Materials Transactions, Vol. 47, Issue 9 (2006), pp. 2203-2207. &br;

-T. Nakano, T. Kan, T. Ishimoto, Y. Ohashi, W. Fujitani, Y. Umakoshi, T. Hattori, Y. Higuchi, M. Tane, H. Nakajima; &br;
Evaluation of bone quality near metallic implants with and without lotus-type pores for optimal biomaterial design
Materials Transactions, Vol. 47, Issue 9 (2006), pp. 2233-2239. &br;

-H. Seki, S. Yamazaki, M. Otsuka, M. Tane, S. K. Hyun, H. Nakajima; &br;
Effect of porosity on fatigue strength of lotus-type porous copper
Materials Science Forum, Vol. 510-511 (2006), pp. 966-969. &br;

-M. Tane, S. K. Hyun, H. Nakajima; &br;
Extended effective-mean-field analysis for electrical conductivity of lotus-type porous nickel
Materials Science Forum, Vol. 512 (2006), pp. 331-336. &br;

-H. Nakajima, S. K. Hyun, M. Tane, T. Nakahata; &br;
Fabrication and properties of porous materials with directional elongated pores 
Materials Science Forum, Vol. 512 (2006), pp. 295-300. &br;

-S. K. Hyun, T. Ikeda, M. Tane, H. Nakajima; &br;
Fabrication and tensile properties of lotus-type porous iron and SUS304L stainless steel
Materials Science Forum, Vol. 512 (2006), pp. 337-341. &br;

-M. Tane, S. K. Hyun, H. Nakajima; &br;
Anisotropic electrical conductivity of lotus-type porous nickel 
Journal of Applied Physics, Vol. 97, Issue 10 (2005), 103701 (4 pages). &br;

//#11
-M. Tane, T. Ichitsubo, S. K. Hyun, H. Nakajima; &br;
Anisotropic yield behavior of lotus-type porous iron: Measurements and micromechanical mean-field analysis
Journal of Materials Research, Vol. 20, Issue 1 (2005), pp. 135-143. &br;

//#10
-M. Tane, S. K. Hyun, T. Ichitsubo, H. Nakajima; &br;
Micromechanical mean-field analysis for stress-strain curve of lotus-type porous iron
Materials Science Forum, Vol. 486-487 (2005), pp. 489-492. &br;

//#9
-M. Tane, T. Ichitsubo; &br;
Effective-mean-field approach for macroscopic elastic constants of composites
Applied Physics Letters, Vol. 85, Issue 2 (2004), pp. 197-199. &br;

//#8
-M. Tane, T. Ichitsubo, H. Nakajima, S. K. Hyun, M. Hirao; &br;
Elastic properties of lotus-type porous iron: acoustic measurement and extended effective-mean-field theory
Acta Materialia, Vol. 52, Issue 17 (2004), pp. 5195-5201. &br;

//#7
-M. Tane, T. Ichitsubo, M. Hirao, T. Ikeda, H. Nakajima; &br;
Elastic constants of lotus-type porous magnesium: Comparison with effective-mean-field theory
Journal of Applied Physics, Vol. 96, Issue 7 (2004), pp. 3696-3701. &br;

//#6
-M. Tane, T. Ichitsubo, M. Hirao, R. Takeda, T. Ikeda, H. Nakajima; &br;
Temperature dependence of elastic constants of lotus-type porous copper
Materials Letters, Vol. 58, Issue 11 (2004), pp. 1819-1824. &br;

//#5
-M. Tane, T. Ichitsubo, H. Ogi, M. Hirao; &br;
Elastic property of aged duplex stainless steel
Scripta Materialia, Vol. 48, Issue 3 (2003), pp. 229-234. &br;

//#4
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ÆüËܶⰳزñ»ï, Vol. 67, Issue 9 (2003), pp. 417-419. &br;

//#3
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Ƽ¤ÈƼ¹ç¶â, Vol. 42, Issue 1 (2003), pp. 83-86. &br;

//#2
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ÆüËܶⰳزñ»ï, Vol. 66, Issue 11 (2002), pp. 1073-1077. &br;

//#1
-T. Ichitsubo, M. Tane, H. Ogi, M. Hirao, T. Ikeda, H. Nakajima; &br;
Anisotropic elastic constants of lotus-type porous copper: Measurements and micromechanics modeling
Acta Materialia, Vol. 50, Issue 16 (2002), pp.4105-4115. &br;