–xŒûŸŽO HORIGUCHI Katsumi

y¶”NŒŽ“úz

1964”N(º39)12ŒŽ24“ú

yê–啪–ìz

Þ—¿ƒVƒXƒeƒ€•]‰¿Šw

yŒ¤‹†•ª–ìz

  • Þ—¿—ÍŠwi‘Y«—ÍŠwC—nÚ”j‰ó—ÍŠwj
  • Þ—¿ŽŽŒ±E•]‰¿i”j‰óèՐ«ŽŽŒ±C‹­Ž¥êÞ—¿ŽŽŒ±j
  • \‘¢Þ—¿ˆê”ʁiŠj—Z‡˜Fƒvƒ‰ƒYƒ}‘ÎŒüÞ—¿C‹É’ቷÞ—¿j

yŒ¤‹†‰Û‘èz

  • ‹­Ž¥ê‰º‚É‚¨‚¯‚é\‘¢Þ—¿‚Ì—ÍŠw“I‹““®‚ÉŠÖ‚·‚錤‹†
  • Šj—Z‡—p’´“`“±ƒ}ƒOƒlƒbƒgÞ—¿ƒVƒXƒeƒ€‚̋ɒቷ”j‰ó‚¨‚æ‚Ñ•ÏŒ`‚ÉŠÖ‚·‚錤‹†
  • ‘@ˆÛ‹­‰»ƒvƒ‰ƒXƒ`ƒbƒNÏ‘wÞ—¿‚̃Nƒ‰ƒCƒIƒƒJƒjƒbƒNƒX‚ÉŠÖ‚·‚錤‹†

y—ª—ðz

1985”N(º60) 3ŒŽ“Œ‹žH‹Æ‚“™ê–åŠwZ@‹@ŠBHŠw‰È@‘²‹Æ

1987”N(º62) 3ŒŽŽR—œ‘åŠw@HŠw•”@‹@ŠBHŠw‰È@‘²‹Æ

1989”N(•½Œ³) 3ŒŽ“Œ–k‘åŠw@‘åŠw‰@HŠwŒ¤‹†‰È@‹@ŠBHŠw‘æ“ñêU@”ŽŽm‰Û’ö‘OŠú2”N‚̉ےö@C—¹@HŠwCŽm

1989”N(•½Œ³) 4ŒŽ“Œ‹ž“s—§H‹Æ‚“™ê–åŠwZ@‹@ŠBHŠw‰È@•Žè

1992”N(•½ 4) 4ŒŽ“Œ–k‘åŠw@HŠw•”@Þ—¿‰ÁHŠw@•Žè

1997”N(•½ 9) 4ŒŽ“Œ–k‘åŠw@‘åŠw‰@HŠwŒ¤‹†‰È@Þ—¿‰ÁHƒvƒƒZƒXŠwêU@•Žè

2004”N(•½16) 8ŒŽ“Œ–k‘åŠw@‘åŠw‰@HŠwŒ¤‹†‰È@Þ—¿ƒVƒXƒeƒ€HŠwêU@•‹³Žö

2006”N(•½18) 4ŒŽ’·–ìH‹Æ‚“™ê–åŠwZ@“dŽq§ŒäHŠw‰È@•‹³Žö

yŠw‰ïEŽÐ‰ïŠˆ“®z

1992”N(•½ 4)11ŒŽ`1996”N(•½ 8) 3ŒŽ“ú–{•¡‡Þ—¿Šw‰ï“Œ–kŽx•”•]‹cˆõ

1996”N(•½ 8) 1ŒŽ`1998”N(•½10) 3ŒŽÎ–û‘ã‘Ö“dŒ¹—pV‘fÞŽŽŒ±E•]‰¿•û–@•W€‰»’²¸Œ¤‹†ˆÏˆõ‰ï@‹É’ቷÞ—¿•ª‰È‰ïˆÏˆõ

1997”N(•½ 9) 4ŒŽ`1998”N(•½10) 3ŒŽJIS Z 2283u‹à‘®Þ—¿‚̉t‘̃wƒŠƒEƒ€’†‚Ì’áƒTƒCƒNƒ‹”æ˜JŽŽŒ±•û–@vŒ´ˆÄì¬ˆÏˆõ‰ïˆÏˆõ

1997”N(•½ 9) 4ŒŽ`1998”N(•½10) 3ŒŽJIS Z 2284u‹à‘®Þ—¿‚̉t‘̃wƒŠƒEƒ€’†’e‘Y«”j‰ó‚¶‚ñ(èÕ)«JICŽŽŒ±•û–@vŒ´ˆÄì¬ˆÏˆõ‰ï@ƒTƒuƒŠ[ƒ_

1998”N(•½10) 4ŒŽ`2002”N(•½10) 3ŒŽÎ–û‘ã‘Ö“dŒ¹—pV‘fÞŽŽŒ±E•]‰¿•û–@•W€‰»’²¸Œ¤‹†ˆÏˆõ‰ï@‘Ûƒ‰ƒEƒ“ƒhƒƒrƒ“ƒeƒXƒg•ª‰È‰ï@‹É’ቷÞ—¿ƒ[ƒLƒ“ƒOƒOƒ‹[ƒvˆÏˆõ

1998”N(•½10) 4ŒŽ`ƒxƒ‹ƒTƒCƒ†ƒTƒ~ƒbƒg‚ÉŠî‚­VÞ—¿‚Æ•W€‚ÉŠÖ‚·‚鍑Û‹¤“¯Œ¤‹†(VAMAS : Versailles Project on Advanced Materials and Standards), ‘æ17ì‹Æ•”‰ï(‹É’ቷ\‘¢Þ—¿), D•¨ƒKƒ‰ƒX\ƒGƒ|ƒLƒVÏ‘wÞ—¿‚̋ɒቷ‘wŠÔ‚¹‚ñ’f‹­“x•]‰¿, H‹Æ—pƒƒ`ƒ^ƒ“‚̋ɒቷE‹­Ž¥êˆø’£«•]‰¿, ƒI[ƒXƒeƒiƒCƒgŒnƒXƒeƒ“ƒŒƒX|‚̋ɒቷˆø’£“Á«•]‰¿, D•¨ƒKƒ‰ƒX\ƒGƒ|ƒLƒVÏ‘wÞ—¿‚̋ɒቷˆø’£“Á«•]‰¿

2004”N(•½16) 9ŒŽ“ú–{‹@ŠBŠw‰ï2004”N“x”NŽŸ‘å‰ïƒI[ƒKƒiƒCƒYƒhƒZƒbƒVƒ‡ƒ“uS-08 ‹É’ቷE’´“d“±Þ—¿ƒVƒXƒeƒ€‚Ì‹­“xE‹@”\“Á«vƒI[ƒKƒiƒCƒU[

yŠ‘®Šw‰ïz

“ú–{‹@ŠBŠw‰ïA“ú–{‹à‘®Šw‰ïA’ቷHŠw‹¦‰ï

yŠwˆÊ˜_•¶z

“Œ–k‘åŠwF•½¬16”N3ŒŽ10“ú@”ŽŽmiHŠwj@H‘æ2102†
Magnetic Field Effects on Deformation and Fracture Behavior of Ferromagnetic Plates under Bending
(‹­Ž¥«•½”‚̋Ȃ°•ÏŒ`E”j‰ó‹““®‚É‹y‚Ú‚·Ž¥ê‚̉e‹¿)

yÜ”±z

  • “ú–{‹@ŠBŠw‰ï”©ŽRÜ, º˜a‚U‚O”N‚SŒŽ
  • ‘æ‚S‚Q‰ñi•½¬‚P‚S”N“xjŒ´“cŒ¤‹†§—ãÜ, •½¬‚P‚S”N‚P‚OŒŽ
    u’´“`“±‰ž—p‹@ŠíM—Š«EˆÀ‘S«•]‰¿‚Ì‚½‚ß‚Ì‹­Ž¥ê”j‰ó—ÍŠw“IŒ¤‹†v

yŠO•”Šl“¾Ž‘‹à(Œ¤‹†‘ã•\ŽÒ)z

1.@•½¬4”N“x@‰ÈŠwŒ¤‹†”ï•â•‹à@§—㌤‹†(A)@900ç‰~
@‹­Ž¥ê‰º‚É‚¨‚¯‚é‚«—ô‚ð—L‚·‚é\‘¢Þ—¿‚Ì”MÕŒ‚‰ž“š‚ÉŠÖ‚·‚闝˜_“IŒ¤‹†
2.@•½¬5”N“x@à’c–@l“Œ“d‹L”O‰ÈŠw‹ZpŒ¤‹†Š‘ÛŒð—¬‰‡•@350ç‰~
@‘æ1‰ñJoint Mechanics and Meeting of ASMEEASCEESESoÈ
3.@•½¬5”N“x@‰ÈŠwŒ¤‹†”ï•â•‹à@§—㌤‹†(A)@900ç‰~
@‹­Ž¥ê‰º‚É‚¨‚¯‚é\‘¢Þ—¿‚Ì”MÕŒ‚”j‰ó‚ÉŠÖ‚·‚闝˜_“IŒ¤‹†
4.@•½¬6”N“x@‰ÈŠwŒ¤‹†”ï•â•‹à@§—㌤‹†(A)@900ç‰~
@‹­Ž¥«”‚̎¥‹C’e«—ÍŠw“I‹““®‚ÉŠÖ‚·‚錤‹†
5.@•½¬7, 8”N“x@‰ÈŠwŒ¤‹†”ï•â•‹à@ŽŽŒ±Œ¤‹†(B)(2)@5,200ç‰~
@‹É’ቷ‚É‚¨‚¯‚é—nÚ•”‚Ì”j‰ó‹­“x“Á«•]‰¿ƒVƒXƒeƒ€‚ÌŠJ”­
6.@•½¬9, 10”N“x@‰ÈŠwŒ¤‹†”ï•â•‹à@§—㌤‹†(A)@2,100ç‰~
@‚Ђ¸‚݃Q[ƒW–@‚ð—p‚¢‚½Ž¥‹C’e«‰ž—ÍŠg‘åŒW”‚̉ðÍ•û–@
7.@•½¬17, 18”N“x@‰ÈŠwŒ¤‹†”ï•â•‹à@Šî”ÕŒ¤‹†(C)(ˆê”Ê)@3,500ç‰~
@¬Œ^ØŒ‡‚«‹È‚°ŽŽŒ±‚É‚æ‚é’´“d“±‰ž—p‹@ŠíÞ—¿ƒVƒXƒeƒ€‚̋ɒቷ”j‰ó‹­“x“Á«•]‰¿

yŒ¤‹†˜_•¶z

[1] Y. Shindo, H. Tamura and K. Horiguchi, gTransient Response of Cracked Materials in a Strong Magnetic Fieldh, Fusion Engineering and Design, Vol. 9(1989), pp. 81-85.
[2] Y. Shindo, K. Horiguchi and A. A. F. van de Ven, gBending of a Magnetically Saturated Plate with a Crack in a Uniform Magnetic Fieldh, International Journal of Applied Electromagnetics in Materials, Vol.1, No. 2, 3, 4(1990), pp. 135-146.
[3] i“¡—T‰p, –xŒûŸŽO, g‹È‚°‚ðŽó‚¯‚éŠÑ’Ê‚«—ô‚ð—L‚·‚é_‚ç‚©‚¢‹­Ž¥«”‚̎¥‹C’e«‘ŠŒÝŠ±Âh, “ú–{‹@ŠBŠw‰ï˜_•¶W(A•Ò), 56Šª, 524†(1990), pp. 783-790.
[4] Y. Shindo and K. Horiguchi, gDynamic Bending of Cracked Soft Ferromagnetic Plate in Uniform Magnetic Fieldh, Theoretical and Applied Fracture Mechanics, Vol.15, No.3(1991), pp. 207-217.
[5] K. Horiguchi, Y. Shindo, K. Kimura and A. A. F. van de Ven, gMagnetic Fracture Mechanics Analysis of a Martensitic Stainless Steel Plateh, Mechanics of Electromagnetic Materials and Structures, AMD-Vol.161, MD-Vol.42(Edited by J. S. Lee, G. A. Maugin and Y. Shindo), The American Society of Mechanical Engineers, New York (1993), pp. 77-85.
[6] ¬–x’q”V, –xŒûŸŽO, i“¡—T‰p, ’†“ˆG•v, ’ҁ@”ŽŽj, g‹É’ቷ‰º‚É‚¨‚¯‚éƒI[ƒXƒeƒiƒCƒgŒnƒXƒeƒ“ƒŒƒX|JN1ˆ³‰„Þ‚Ì”j‰óèՐ«•]‰¿h, ’ቷHŠw, 29Šª, 8†(1994), pp. 396-403.
[7] i“¡—T‰p, ¬–x’q”V, –xŒûŸŽO, ŽR“c‰pˆê, ’†“ˆG•v, ’ҁ@”ŽŽj, gƒI[ƒXƒeƒiƒCƒgŒnƒX ƒeƒ“ƒŒƒX|JJ1’b‘¢Þ‚Ì4.2K‚É‚¨‚¯‚é”j‰óèՐ«‚¨‚æ‚Ñ‚«—ôi“W‚É”º‚¤”­”ME‰·“xã¸h, “ú–{‹à‘®Šw‰ïŽC59Šª, 8†(1995), pp. 793-798.
[8] Y. Shindo, K. Horiguchi, T. Kobori, H. Nakajima and H. Tsuji, gEffects of Specimen Thickness and Side-Groove on Fracture Toughness of JN1 Austenitic Stainless Steel Rolled Plate at Liquid Helium Temperatureh, Advances in Cryogenic Engineering, Vol. 42A (1996), pp. 345-352.
[9] Y. Shindo, K. Sanada and K. Horiguchi, gFracture Behavior of G-10 Woven Glass-Epoxy Laminates at Low Temperaturesh, Advances in Cryogenic Engineering, Vol. 42A (1996), pp. 129-136.
[10] ^“c˜aº, i“¡—T‰p, –xŒûŸŽO, gD•¨ƒKƒ‰ƒX|ƒGƒ|ƒLƒVÏ‘wÞ—¿G-10‚̋ɒቷ”j‰ó‹y‚Ñ”­”ME‰·“xã¸h, ’ቷHŠw, 31Šª, 10†(1996), pp. 540-546.
[11] ‰¤ , i“¡—T‰p, –xŒûŸŽO, ^“c˜aº, g‹É’ቷ‚É‚¨‚¯‚éD•¨ƒKƒ‰ƒX|ƒGƒ|ƒLƒVÏ‘wÞ—¿G-10CR‚Ì—¼–ʃmƒbƒ`‘wŠÔ‚¹‚ñ’f‹­“xh, ’ቷHŠw, 32Šª, 1†(1997), pp. 18-24.
[12] i“¡—T‰p, ‚‹´’m‹M, –xŒûŸŽO, ¬–x’q”V, ^“c˜aº, gƒI[ƒXƒeƒiƒCƒgŒnƒXƒeƒ“ƒŒƒX|JJ1‹ÉŒú‹¤‹à—nÚÞ‚̋ɒቷ”j‰óèՐ«‹y‚Ñ”­”ME‰·“xã¸h, —nÚŠw‰ï˜_•¶W, 15Šª, 2†(1997) , pp. 370-375.
[13] i“¡—T‰p, ŽR“c‰pˆê, ã“c ®, –xŒûŸŽO, gƒI[ƒXƒeƒiƒCƒgŒnƒXƒeƒ“ƒŒƒX|’b‘¢Þ‚̋ɒቷ”j‰ó‚¨‚æ‚Ñ”­”ME‰·“xã¸‚ÉŠÖ‚·‚éŽÀŒ±E—LŒÀ—v‘f‰ðÍh, “ú–{‹@ŠBŠw‰ï˜_•¶W(A•Ò), 63Šª, 611†(1997), pp. 1442-1447.
[14] Y. Shindo, T. Shindo and K. Horiguchi, gScattering of Flexural Waves by a Through Crack in a Soft Ferromagnetic Plate in a Uniform Magnetic Fieldh, Theoretical and Applied Mechanics, Vol. 47(1998), pp. 135-146.
[15] Y. Shindo, R. Wang, K. Horiguchi and S. Ueda, gCryomechanics and Double-Notch Interlaminar Shear Strength of G-10CR Glass-Cloth/Epoxy Laminatesh, Advances in Cryogenic Engineering, Vol. 44A(1998), pp. 167-174.
[16] –xŒûŸŽO, i“¡—T‰p, gŽ¥ê“à‚É‚¨‚¯‚éƒtƒFƒ‰ƒCƒgŒnƒXƒeƒ“ƒŒƒX|•½”‚̋Ȃ°ŽŽŒ±‚ÆŽ¥‹C’e«‰ðÍh, “ú–{‹@ŠBŠw‰ï˜_•¶W(A•Ò), 64Šª, 621†(1998), pp. 1296-1301.
[17] ^“c˜aº, i“¡—T‰p, –xŒûŸŽO, “ŒŠC—ѐm, g77K‚É‚¨‚¯‚éD•¨ƒKƒ‰ƒX[ƒGƒ|ƒLƒVÏ‘wÞ—¿G-11‚Ì”j‰ó“Á«‚¨‚æ‚ѐ¡–@Œø‰Êh, “ú–{‹à‘®Šw‰ïŽ, 62Šª, 3†(1998), pp. 232-237.
[18] –xŒûŸŽO, i“¡—T‰p, ¬–x’q”V, ‚‹´’m‹M, gƒCƒ“ƒRƒlƒ‹625Œn—n‰ÁÞ‚ð—p‚¢‚½ CSUS-JN1‹ÉŒú’b‘¢Þ—nÚ•”‚̋ɒቷ”j‰óèՐ«‚¨‚æ‚Ñ’f”M”­”Mh, “ú–{‹@ŠBŠw‰ï˜_•¶W(A•Ò), 64Šª, 620†(1998), pp. 904-911.
[19] ‰¤ , i“¡—T‰p, –xŒûŸŽO, gƒVƒ‡[ƒgƒr[ƒ€–@‚É‚æ‚éD•¨ƒKƒ‰ƒX[ƒGƒ|ƒLƒVÏ‘wÞ—¿G-10CR‚̋ɒቷ‘wŠÔ‚¹‚ñ’f‹­“xh, ’ቷHŠw, 33Šª, 5†(1998), pp. 306-314.
[20] Y. Shindo, K. Horiguchi and T. Shindo, gMagneto-Elastic Analysis of a Soft Ferromagnetic Plate with a Through Crack under Bendingh, International Journal of Engineering Science, Vol. 37, No. 6(1999), pp. 687-702.
[21] Y. Shindo, R. Wang, K. Horiguchi and S. Ueda, gTheoretical and Experimental Evaluation of Double-Notch Shear Strength of G-10CR Glass-Cloth/Epoxy Laminates at Cryogenic Temperaturesh, Trans. ASME, Journal of Engineering Materials and Technology, Vol. 121, No. 3(1999), pp. 367-373.
[22] Y. Shindo, H. Tokairin, K. Sanada, K. Horiguchi and H. Kudo, gCompression Behavior of Glass-Cloth/Epoxy Laminates at Cryogenic Temperaturesh, Cryogenics, Vol. 39, No. 10(1999), pp. 821-827.
[23] i“¡—T‰p, “ŒŠC—ѐm, ^“c˜aº, –xŒûŸŽO, H“¡Os, gD•¨ƒKƒ‰ƒX|ƒGƒ|ƒLƒVÏ‘wÞ—¿‚̋ɒቷˆ³k“Á«h, ’ቷHŠw, 34Šª, 1†(1999), pp. 15-22.
[24] i“¡—T‰p, Žü‹½ ’q, –xŒûŸŽO, ^–싱‹K, g¬Œ^ƒpƒ“ƒ`ŽŽŒ±‚É‚æ‚éŠj—Z‡˜F’´“`“±ƒ}ƒOƒlƒbƒg—p\‘¢Þ—¿‚¨‚æ‚Ñ—nÚ•”‚̋ɒቷ”j‰óèՕ]‰¿h, ’ቷHŠw, 34Šª, 12†(1999), pp. 729-735.
[25] Y. Shindo, A. Ogihara and K. Horiguchi, gDynamic Bending of a Magnetically Saturated Plate with a Through Crack in a Uniform Magnetic Fieldh, Theoretical and Applied Mechanics, Vol. 49(2000), pp. 69-81.
[26] Y. Shindo, T. Shindo and K. Horiguchi, gScattering of Flexural Waves by a Cracked Mindlin Plate of Soft Ferromagnetic Material in a Uniform Magnetic Fieldh, Theoretical and Applied Fracture Mechanics, Vol. 34, No. 2(2000), pp. 167-184.
[27] Y. Shindo, K. Horiguchi, T. Sugo and Y. Mano, gFinite Element Analysis and Small Punch Testing for Determining the Cryogenic Fracture Toughness of Austenitic Stainless Steel Weldsh, ASTM Journal of Testing and Evaluation, Vol. 28, No. 6(2000), pp. 431-437.
[28] Y. Shindo, K. Horiguchi and R. Wang, gCryomechanics and Short-Beam Interlaminar Shear Strength of G-10CR Glass-Cloth/Epoxy Laminatesh, Advances in Cryogenic Engineering, Vol. 46A(2000), pp. 167-174.
[29] Y. Shindo, Y. Mano, K. Horiguchi and T. Sugo, gFinite Element Analysis and Notch Tensile Testing for Determining the Cryogenic Fracture Toughness of Structural Alloysh, Advances in Cryogenic Engineering, Vol. 46A(2000), pp. 41-48.
[30] i“¡—T‰p, ^–싱‹K, –xŒûŸŽO, Žü‹½ ’q, g—LŒÀ—v‘f–@‚¨‚æ‚ѐ،‡‚«ˆø’£ŽŽŒ±‚É‚æ‚éƒCƒ“ƒRƒlƒ‹625Œn—n‰ÁÞ‚ð—p‚¢‚½CSUS-JN1‹ÉŒú’b‘¢Þ—nÚ•”‚̋ɒቷ”j‰óèՐ«•]‰¿h, “ú–{‹à‘®Šw‰ïŽ, 64Šª, 1†(2000), pp. 56-61.
[31] i“¡—T‰p, ‰¤ , –xŒûŸŽO, H“¡Os, gDCBŽŽŒ±‚¨‚æ‚Ñ—LŒÀ—v‘f–@‚É‚æ‚éD•¨ƒKƒ‰ƒX|ƒGƒ|ƒLƒVÏ‘wÞ—¿‚̋ɒቷƒ‚|ƒhI‘wŠÔ”j‰óèՐ«h, ’ቷHŠw, 35Šª, 2†(2000), pp. 72-78.
[32] i“¡—T‰p, H“¡Os, –xŒûŸŽO, ŒF’J i, g’[–ʐ،‡‚«‹È‚°ŽŽŒ±‚¨‚æ‚Ñ—LŒÀ—v‘f–@‚É‚æ‚éD•¨ƒKƒ‰ƒX|ƒGƒ|ƒLƒVÏ‘wÞ—¿‚̋ɒቷƒ‚|ƒhII‘wŠÔ”j‰óèՐ«h, “ú–{‹à‘®Šw‰ïŽ, 64Šª, 6†(2000), pp. 423-428.
[33] ŒF’J i, i“¡—T‰p, –xŒûŸŽO, gD•¨ƒKƒ‰ƒX|ƒGƒ|ƒLƒVÏ‘wÞ—¿‚̋ɒቷˆø’£“Á«h, ’ቷHŠw, 35Šª, 10†(2000), pp. 482-491.
[34] K. Horiguchi, Y. Shindo and A. Ogihara, gFracture Mechanics of Ferromagnetic Elastic Plates in a Uniform Magnetic Fieldh, Physical Mesomechanics, Vol. 4, No. 3(2001), pp. 99-104.
[35] Y. Shindo, Y. Mano, K. Horiguchi and T. Sugo, gCryogenic Fracture Toughness Determination of a Structural Alloy Weldment by Notch Tensile Measurement and Finite Element Analysish, Trans. ASME, Journal of Engineering Materials and Technology, Vol. 123, No. 1(2001), pp. 45-50.
[36] Y. Shindo, R. Wang and K. Horiguchi, gAnalytical and Experimental Studies of Short-Beam Interlaminar Shear Strength of G-10CR Glass-Cloth/Epoxy Laminates at Cryogenic Temperaturesh, Trans. ASME, Journal of Engineering Materials and Technology, Vol. 123, No. 1(2001), pp. 112-118.
[37] Y. Shindo, K. Horiguchi, R. Wang and H. Kudo, gDouble Cantilever Beam Measurement and Finite Element Analysis of Cryogenic Mode I Interlaminar Fracture Toughness of Glass-Cloth/Epoxy Laminatesh, Trans. ASME, Journal of Engineering Materials and Technology, Vol. 123, No. 2(2001), pp. 191-197.
[38] Y. Shindo, M. Oka and K. Horiguchi, gAnalysis and Testing of Indentation Fracture Behavior of Piezoelectric Ceramics under an Electric Fieldh, Trans. ASME, Journal of Engineering Materials and Technology, Vol. 123, No. 3(2001), pp. 293-300.
[39] T. Takeda, Y. Shindo, S. Kumagai, F. Narita and K. Horiguchi, gThermal-Mechanical Response of Cracked Woven Glass/Epoxy Laminates in a Tension Field at Low Temperatureh, Physical Mesomechanics, Vol. 4, No. 4(2001), pp. 97-104.
[40] Y. Shindo and K. Horiguchi, gMagnetic Fracture Mechanics of Ferromagnetic Platesh, International Journal of Applied Electromagnetics and Mechanics, Vol. 15(2001/2002), pp. 275-281.
[41] –xŒûŸŽO, i“¡—T‰p, g‚Ђ¸‚݃Q[ƒW‚É‚æ‚é‚«—ô‚ð—L‚·‚é“«•½”‚̎¥‹Cƒ‚[ƒƒ“ƒgŠg‘åŒW”•]‰¿h, “ú–{‹@ŠBŠw‰ï˜_•¶W(A•Ò), 67Šª, 655†(2001), pp. 569-573.
[42] Y. Shindo, H. Murakami, K. Horiguchi and F. Narita, gEvaluation of Electric Fracture Properties of Piezoelectric Ceramics Using the Finite Element and Single-Edge Precracked Beam Methodsh, Journal of the American Ceramic Society, Vol. 85, No. 5(2002), pp. 1243-1248.
[43] Y. Shindo, K. Horiguchi and S. Kumagai, gMode I and Mode II Interlaminar Fracture Toughness of Glass-Cloth/Epoxy Laminates at Cryogenic Temperaturesh, Advances in Cryogenic Engineering, Vol. 48A (2002), pp. 245-252.
[44] Y. Shindo, K. Horiguchi, T. Ogata, A. Nyilas, Z. Zhang and K. Humer, gResults of a VAMAS Round Robin on the Cryogenic Interlaminar Shear Strength Determination of G-10CR Glass-Cloth/Epoxy Laminatesh, Advances in Cryogenic Engineering, Vol. 48A(2002), pp. 229-236.
[45] K. Horiguchi and Y. Shindo, gValidation of a Small Punch Testing Technique to Characterize the Cryogenic Fracture Properties of Austenitic Stainless Steel Weldsh, Advances in Cryogenic Engineering, Vol. 48A(2002), pp. 178-185.
[46] S. Kumagai, Y. Shindo and K. Horiguchi, gTensile Testing and Damage Analysis of Woven Glass-Cloth/Epoxy Laminates at Low Temperatureh, Advances in Cryogenic Engineering, Vol. 48A(2002), pp. 269-276.
[47] K. Horiguchi, Y. Shindo, H. Kudo and S. Kumagai, gEnd-Notched Flexure Testing and Analysis of Mode II Interlaminar Fracture Behavior of Glass-Cloth/Epoxy Laminates at Cryogenic Temperaturesh, ASTM Journal of Composites Technology and Research, Vol. 24, No. 4(2002), pp. 239-245.
[48] ŒF’J i, i“¡—T‰p, –xŒûŸŽO, ŽlŒË‘åŠó, gD•¨’Y‘f‘@ˆÛ‹­‰»ƒvƒ‰ƒXƒ`ƒbƒNÏ‘wÞ—¿‚̋ɒቷ—ÍŠw“Á«•]‰¿h, “ú–{‹à‘®Šw‰ïŽ, 66Šª, 6†(2002), pp. 657-661.
[49] A. Ogihara, Y. Shindo and K. Horiguchi, gFlexural Waves Scattering by a Through Crack in a Magnetically Saturated Mindlin Plate under a Uniform Magnetic Fieldh, European Journal of Mechanics|A/Solids, Vol. 22, No. 1(2003), pp. 163-178.
[50] K. Horiguchi and Y. Shindo, gExperimental and Theoretical Results for Bending of a Soft Ferromagnetic Plate in a Transverse Magnetic Fieldh, Acta Mechanica, Vol. 162, No.1-4(2003), pp. 185-194.
[51] Y. Yamaguchi, K. Horiguchi, Y. Shindo, D. Sekiya and S. Kumagai, gFracture and Deformation Properties of Ni-Fe Superalloy in Cryogenic High Magnetic Field Environmentsh, Cryogenics, Vol. 43, No. 8(2003), pp. 469-475.
[52] S. Kumagai, Y. Shindo, K. Horiguchi and T. Takeda, gMechanical Characterization of CFRP Woven Laminates between Room Temperature and 4 Kh, JSME International Journal, Series A, Vol. 46, No.3(2003), pp. 359-364.
[53] Y. Shindo, F. Narita, K. Horiguchi, Y. Magara and M. Yoshida, gElectric Fracture and Polarization Switching Properties of Piezoelectric Ceramic PZT Studied by the Modified Small Punch Testh, Acta Materialia, Vol. 51, No. 16(2003), pp. 4773-4782.
[54] K. Horiguchi and Y. Shindo, h Mechanics of Cracked Ferromagnetic Plates in a Magnetic Fieldh, Mechanics of Electromagnetic Material Systems and Structures, Edited by Y. Shindo, WIT Press, Southampton, Boston (2003), pp. 41-53.
[55] F. Narita, Y. Shindo and K. Horiguchi, hElectroelastic Fracture Mechanics of Piezoelectric Ceramicsh, Mechanics of Electromagnetic Material Systems and Structures, Edited by Y. Shindo, WIT Press, Southampton, Boston (2003), pp. 89-101.
[56] Y. Shindo and K. Horiguchi, gCryogenic Fracture and Adiabatic Heating of Austenitic Stainless Steels for Superconducting Fusion Magnetsh, Science and Technology of Advanced Materials, Vol. 4, No. 4(2003), pp. 319-326.
[57] M. Yoshida, F. Narita, Y. Shindo, M. Karaiwa and K. Horiguchi, gElectroelastic Field Concentration by Circular Electrodes in Piezoelectric Ceramicsh, Smart Materials and Structures, Vol. 12, No. 6(2003), pp. 972-978.
[58] S. Kumagai, Y. Shindo, K. Horiguchi and F. Narita, gExperimental and Finite-Element Analysis of Woven Glass-Cloth/Epoxy Laminate Tensile Specimen at Room and Low Temperaturesh, Mechanics of Advanced Materials and Structures, Vol. 11, No. 1(2004), pp. 51-56.
[59] K. Yoshimura, Y. Shindo, K. Horiguchi and F. Narita, gTheoretical and Experimental Determination of Magnetic Stress Intensity Factors of a Crack in a Double Cantilever Beam Specimenh, Fatigue & Fracture of Engineering Materials & Structures, Vol. 27, No. 3(2004), pp. 213-218.
[60] Y. Shindo, M. Yoshida, F. Narita and K. Horiguchi, gElectroelastic Field Concentrations Ahead of Electrodes in Multilayer Piezoelectric Actuators : Experiment and Finite Element Simulationh, Journal of the Mechanics and Physics of Solids, Vol. 52, No. 5(2004), pp. 1109-1124.
[61] Y. Shindo, K. Horiguchi, S. Kumagai and D. Shinohe, gEffect of Mixed-Mode Ratio on Cryogenic Interlaminar Fracture Toughness of Woven Fabric Glass/Epoxy Laminatesh, Advances in Cryogenic Engineering, Vol. 50A(2004), pp. 224-231.
[62] Y. Shindo, Y. Yamaguchi and K. Horiguchi, gSmall Punch Testing for Determining the Cryogenic Fracture Properties of 304 and 316 Austenitic Stainless Steels in a High Magnetic Fieldh, Cryogenics, Vol. 44, No. 11(2004), pp. 789-792.
[63] Y. Shindo, D. Sekiya, F. Narita and K. Horiguchi, gTensile Testing and Analysis of Ferromagnetic Elastic Strip with a Central Crack in a Uniform Magnetic Fieldh, Acta Materialia, Vol. 52, No. 15(2004), pp. 4677-4684.
[64] K. Horiguchi and Y. Shindo, gA Strain Gage Method for Determination of Magnetic-Moment Intensity Factors in Through-Cracked Soft Ferromagnetic Platesh, Journal of Applied Physics, Vol. 96, No. 10(2004), pp. 5860-5865.
[65] Y. Shindo and K. Horiguchi, gFracture Behavior of Thick-Section Weldment in Fe-12Cr-12Ni-10Mn-0.24N Stainless Steel at Liquid Helium Temperatureh, Metallurgical and Materials Transactions A, Vol. 35A, No. 12(2004), pp. 3797-3802.
[66] Y. Shindo, D. Sekiya, F. Narita and K. Horiguchi, gMagnetic Stress Intensity Factors for Two Symmetric Edge Cracks in a Soft Ferromagnetic Elastic Strip under Tensionh, JSME International Journal, Vol. 48, No. 1(2005), pp. 7-13.
[67] Y. Shindo, K. Horiguchi and J. Yamada, gSpecimen Size Effects in the Cryogenic Fracture Toughness Testing of Fe-12Cr-12Ni-10Mn-0.24N Stainless Steelh, Fusion Engineering and Design, Vol. 73, No. 1(2005), pp. 1-7.
[68] K. Horiguchi and Y. Shindo, gFracture and Adiabatic Heating of Thick-Section Weldment in Fe-24Cr-15Ni-4Mn-0.32N Stainless Steel with Ni-Base Filler Metals at 4 Kh, ASTM Journal of Testing and Evaluation, Vol. 33, No. 4(2005), pp. 227-232.
[69] Y. Shindo, D. Shinohe, S. Kumagai and K. Horiguchi, gAnalysis and Testing of Mixed-Mode Interlaminar Fracture Behavior of Glass-Cloth/Epoxy Laminates at Cryogenic Temperatures, Trans. ASME, Journal of Engineering Materials and Technology, Vol. 127, No. 4(2005), 468-475.
[70] Y. Shindo, F. Narita, K. Horiguchi, S. Takano, T. Takeda and S. Sanada, gTensile Behavior and Damage/Acoustic Emission Characteristics of Woven Glass Fiber Reinforced/Epoxy Composite Laminates at Cryogenic Temperaturesh, Advances in Cryogenic Engineering, Vol. 52A(2006), pp. 249-256.
[71] Y. Shindo, T. Komatsu, F. Narita and K. Horiguchi, gMagnetic Stress Intensity Factor for an Edge Crack in a Soft Ferromagnetic Elastic Half-Plane under Tensionh, Acta Mechanica, in press.
[72] Y. Shindo, A. Inamoto, F. Narita and K. Horiguchi, gMode I Fatigue Delamination Growth in GFRP Woven Laminates at Low Temperaturesh, Engineering Fracture Mechanics, in press.

y‘Û‰ï‹c”­•\z

(1) Y. Shindo and K. Horiguchi, gSingular Moments in a Cracked Soft Ferromagnetic Plate under Bendingh, First International Symposium on Applied Electromagnetics in Materials(October 3-5, 1988, Tokyo, Japan), Applied Electromagnetics in Materials, Edited by K. Miya, Pergamon Press (1989), pp. 35-46.
(2) Y. Shindo and K. Horiguchi, gMagnetoelastic Wave Scattering in a Cracked Ferromagnetic Plateh, IUTAM Symposium on Elastic Waves and Ultrasonic Nondestructive Evaluation (July, 30-August 3, 1989, Boulder, Colorado, USA), Elastic Waves and Ultrasonic Nondestructive Evaluation, S. K. Datta, J. D. Achenbach and Y. S. Rajapakse (Editors), Elsevier Science Publishers B. V. (North-Holland) (1990), pp. 451-452.
(3) K. Horiguchi and Y. Shindo, gMechanical Behavior of a Soft Ferromagnetic Plate in a Magnetic Fieldh, 10th ASCE Engineering Mechanics Conference(May 21-24, 1995, Boulder, Colorado, USA), Proceedings of 10th Conference, Volume 2(edited by Stein Sture) , American Society of Civil Engineers(1995), pp. 911-914.
(4) K. Horiguchi, Y. Shindo, T. Kobori and T. Takahashi, gFracture Toughness and Temperature Rise of Thick Section Weldment in Forged JN1 Type Austenitic Stainless Steel Plate with Inconel 625 Type Filler Metals at Liquid Helium Temperatureh, Asian Pacific Conference for Fracture and Strength '96(July 23-26, 1996, Kyongju, Korea), Proceedings of Asian Pacific Conference for Fracture and Strength '96, (1996), pp. 901-906.
(5) Y. Shindo, T. Takahashi, K. Horiguchi and T. Kobori, gFracture Properties of Thick Section Weldment in Forged JJ1 Type Austenitic Stainless Steel Plate at 4Kh, 6th International Welding Symposium of Japan Welding Society, The Role of Welding Science and Technology in the 21st Century(November 19-21, 1996, Nagoya, Japan), Proceedings of the 6th International Welding Symposium of Japan Welding Society, Vol. 2(Edited by Prof. M. Ushio), Japan Welding Society(1996), pp. 821-826.
(6) Y. Shindo, K. Horiguchi, K. Sanada, T. Kobori, H. Nakajima and H. Tsuji, gCryogenic Effects on the Fracture Behavior of Forged JJ1 Type Austenitic Stainless Steel Plateh, Sixteenth International Cryogenic Engineering Conference/International Cryogenic Materials Conference (May 20-24, 1996, Kitakyusyu, Japan), Proceedings of the Sixteenth International Cryogenic Engineering Conference/International Cryogenic Materials Conference, Part 3 (Editors T. Haruyama, T. Mitsui, K. Yamafuji), Elsevier Science (1997), pp. 1887-1890.
(7) Y. Shindo, K. Sanada and K. Horiguchi, gNonlinear Fracture Behavior of G-10 Woven Glass-Epoxy Laminates at Liquid Nitrogen Temperatureh, Sixteenth International Cryogenic Engineering Conference/International Cryogenic Materials Conference (May 20-24, 1996, Kitakyusyu, Japan), Proceedings of the Sixteenth International Cryogenic Engineering Conference/International Cryogenic Materials Conference, Part 3 (Editors T. Haruyama, T. Mitsui, K. Yamafuji), Elsevier Science (1997), pp. 1981-1984.
(8) K. Sanada, Y. Shindo, H. Tokairin and K. Horiguchi, gSize Effect and Fracture Characteristics of G-10 Woven Glass-Epoxy Laminates at 77Kh, International Conference on Materials and Mechanics f97, On The Role of "Materials, Mechanical Behavior and Fracture" in ¥Energy ¥Transportation ¥Electronic devices ¥Advanced materials(July 20-22, 1997, Tokyo, Japan), Proceedings of ICM & M' 97 (JSME), Editor-in-Chief Haruo Nakamura, The Japan Society of Mechanical Engineers (1997), pp. 67-72.
(9) Y. Shindo, M. Oka, K. Horiguchi and F. Narita, gAnalytical and Experimental Evaluation of Single-Edge Precracked Beam Specimens of Piezoelectric Ceramicsh, International Conference of Role of Mechanics for Development of Science and Technology(June 13-16, 2000, Xifan, China), Role of Mechanics for Development of Science and Technology, Vol. II( Edited by G. C. Sih), Tsinghua University Press(2000), pp. 863-872.
(10) Y. Shindo, K. Horiguchi, H. Murakami and F. Narita, gSingle-Edge Precracked Beam Test and Electric Fracture Mechanics Analysis for Piezoelectric Ceramicsh, SPIEfs 2000 Symposium on Smart Materials and MEMS, Conference 4235, Smart Structures and Devices(December 13-15, 2000, Melbourne, Australia), Smart Structures and Devices, Vol. 4235, D. K. Sood, R. A. Lawes and V. V. Varadan(Chairs/Editors), The International Society for Optical Engineering (2001), pp. 311-320.
(11) Y. Shindo, F. Narita, K. Horiguchi, Y. Magara and M. Yoshida, gEvaluation of Electric Fracture and Deformation Properties of Piezoelectric Ceramics Using Finite Element and Modified Small Punch Test Techniquesh, International Conference on New Challenges in Mesomechanics (August 26-30, 2002, Aalborg, Denmark), New Challenges in Mesomechanics, Vol.2, Editors R. Pyrz, J. SchjOdt-Thomsen, J. C. Rauhe, T. Thomsen and L. R. Jensen, (2002), pp. 349-355.
(12) K. Horiguchi, Y. Shindo, D. Sekiya and F. Narita, gMagnetic Stress Intensity Factors for Center-Cracked Plate Specimens under Tensionh, Mesomechanics 2003 (August 26-28, 2003, Tokyo, Japan), Mesomechanics of Computation and Design of Use-Specific Materials, Edited by G. C. Sih, S. Sakai and V. E. Panin, (2003), pp. 348-355.
(13) D. Sekiya, Y. Shindo, F. Narita and K. Horiguchi, gAnalysis of Tensile Testing of a Soft Ferromagnetic Elastic Strip Containing a Central Crack under a Magnetic Fieldh, XXI International Congress of Theoretical and Applied Mechanics (August 15-21, 2004, Warsaw, Poland), ICTAM04 Abstracts Book and CD-ROM Proceedings, Edited by W. Gutkowski & T. A. Kowalewski, (2004), pp. 262-263.
(14) Y. Shindo, S. Takano, F. Narita and K. Horiguchi, gTensile and Damage Behavior of Plain Weave Glass/Epoxy Composites at Cryogenic Temperaturesh, 15th International Toki Conference gFusion & Advanced Technologyh (December 6-9, 2005, Toki, Japan), Abstract Booklet, (2005), p. 19.

y’˜‘z

1. “Œ–k‘åŠw ƒ}ƒeƒŠƒAƒ‹EŠJ”­Œn •Ò, ŽÀŒ±@Þ—¿‰ÈŠw,“à“c˜V’ß•Þ, (1996), •ª’SŽ·•M, u‡U-14 ˆø’£ŽŽŒ±‚É‚æ‚é‹@ŠB“I«Ž¿‚Ì‘ª’è, pp.116-119v, u‡U-15 ƒVƒƒƒ‹ƒs[ÕŒ‚ŽŽŒ±‚É‚æ‚é’ቷÆ«‚Ì•]‰¿, pp.120-124v.

y‘àz

1. i“¡—T‰p, –xŒûŸŽO, g‹­Ž¥«”‚̎¥‹C’e«˜_“ü–åh, ‹@ŠB‚ÌŒ¤‹†, 41Šª, 8†(1989), pp. 893-897.
2. i“¡—T‰p, –xŒûŸŽO, gŠj—Z‡˜F’´“`“±ƒ}ƒOƒlƒbƒg—p\‘¢Þ—¿—nÚ•”‚̋ɒቷ”j‰ó—ÍŠwh, —nÚŠw‰ï˜_•¶W, 14Šª, 1†(1996), pp. 204-209.
3. i“¡—T‰p, –xŒûŸŽO, gŠj—Z‡—p’´“d“±ƒ}ƒOƒlƒbƒg\‘¢Þ—¿‚¨‚æ‚ѐ݌vŠî€h, —nÚŠw‰ï˜_•¶W, 21Šª, 1†(2003), pp. 185-190.

y‚»‚Ì‘¼z

1. JIS Z 2283 ‹à‘®Þ—¿‚̉t‘̃wƒŠƒEƒ€’†‚Ì’áƒTƒCƒNƒ‹”æ˜JŽŽŒ±•û–@, “ú–{‹KŠi‹¦‰ï, (1998), Œ´ˆÄì¬ˆÏˆõ‰ïˆÏˆõ.
2. JIS Z 2284 ‹à‘®Þ—¿‚̉t‘̃wƒŠƒEƒ€’†’e‘Y«”j‰ó‚¶‚ñièՁj«JICŽŽŒ±•û–@, “ú–{‹KŠi‹¦‰ï, (1998), Œ´ˆÄì¬ˆÏˆõ‰ïƒTƒuƒŠ[ƒ_.



‘—§’·–썂ê@“dŽq§ŒäHŠw‰È@•‹³Žö@–xŒûŸŽO