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(1) 吉原　浩 (2013). 3点曲げショートビームシア試験による中密度繊維板(MDF)の層間せん断強さの測定および非対称4点曲げ試験の結果との比較，日本機械学会論文集A編，79(1), 105-109.

(2) 中尾哲也，吉原　浩，緒方祐介 (2013). 切欠きを持つアガチス材の曲げ強度，森林バイオマス利用学会誌， 8(1), 29-32.

(3) Hiroshi Yoshihara (2013). Mode II critical stress intensity factor of medium-density fiberboard measured by asymmetric four-point bending tests and analyses of kink crack formation. BioResources, 7(2), 1771-1789.

(4) Hiroshi Yoshihara (2013). Initiation and propagation fracture toughness of solid wood under the mixed Mode I/II condition examined by mixed-mode bending test. Engineering Fracture Mechanics, 104, 1-15.

(5) Hiroshi Yoshihara and Hiroki Kondo (2013). Effect of specimen configuration and lamination construction on the measurement of the in-plane shear modulus of plywood obtained by asymmetric four-point bending test. BioResources, 8(3), 3858-3868.

(6) Hiroshi Yoshihara (2013). Comments on “Discussion of: “Mode II fracture mechanics properties of wood measured by the asymmetric four-point bending test using a single-edge-notched specimen of Hiroshi Yoshihara Engng. Fract. Mech. 75 (2008) 4727–4739” by van der Put [Engng. Fract. Mech. 90 (2012) 172-179]”. Engineering Fracture Mechanics, 112-113, 181-188.

(7) Hiroshi Yoshihara (2013). Flatwise Young’s modulus and flatwise shear modulus of plywood measured by flexural vibration test. Holzforschung, 67(6), 683-690.

(8) Hiroshi Yoshihara (2013). Comparison of results obtained by static 3- and 4-point bending and flexural vibration tests on solid wood, MDF, and 5-plywood. Holzforschung, 67(8), 941-948.

(9) Hiroshi Yoshihara (2014). Plasticity analysis of the strain in the tangential direction of solid wood subjected to compression load in the longitudinal direction. BioResources, 9(1), 1097-1110.

(10) 吉原　浩，吉延匡弘 (2014). ３点および逆対称４点曲げショートビームシア試験による５プライ合板の層間せん断強さの測定，木材工業, 69(5), 204-207.

(11) Hiroshi Yoshihara and Hikaru Mizuno (2014). Mode I critical stress intensity factor of medium-density fiberboard measured by the single-edge-notched bending test. Drvna industrija, 65(2), 99-104.

(12) Hiroshi Yoshihara and Masahiro Yoshinobu (2014). Off-axis tensile strength and evaluation of the in-plane shear strength of paper. Holzforschung, 68(5), 583-590.

(13) Hiroshi Yoshihara and Masahiro Yoshinobu (2014). Effects of specimen configuration and measurement method of strain on the characterization of tensile properties of paper. Journal of Wood Science, 60(4), 287-293.

(14) Hiroshi Yoshihara and Masahiro Yoshinobu (2014). Effect of specimen configuration on the measurement of off-axis logarithmic decrement of solid wood measured by longitudinal and flexural vibration tests. Holzforschung, 68(7), 839-841.

(15) 中尾哲也，吉原　浩 (2014).切欠きと水平き裂を持つアガチス材の５点曲げ試験より求めた応力拡大係数，森林バイオマス利用学会誌，9(2), 61-64.

(16) Hiroshi Yoshihara and Masahiro Yoshinobu (2015). Measurement of the in-plane shear modulus of medium-density fibreboard by torsional and flexural vibration tests. Measurement, 60, 33-38.

(17) Hiroshi Yoshihara and Masahiro Yoshinobu (2015). In-plane shear strength of paper obtained by asymmetric four-point bending test. Holzforschung, 69(1), 41-52.

(18) 吉原　浩，吉延匡弘 (2015). 数理塑性理論によるコピー用紙の引張負荷における応力−ひずみ関係の解析，木材学会誌，61(2), 74-81.

(19) Hiroshi Yoshihara and Masahiro Yoshinobu (2015). Young’s modulus and shear modulus of solid wood measured by the flexural vibration test of the specimens with large height/length ratios. Holzforschung, 69(4), 493-499.

(20) 吉原　浩，吉延匡弘 (2015). 手動式つかみ具およびタブを使用したコピー用紙の引張特性の簡便な評価，材料，64(5), 350-355.

(21) Hiroshi Yoshihara (2015). Mode II fracture mechanics properties of solid wood measured by a three-point eccentric end-notched flexure test. Engineering Fracture Mechanics, 141, 140-151.

(22) Hiroshi Yoshihara, Shungo Suzuki and Masahiro Yoshinobu (2016). In-plane shear properties of medium-density fibreboard measured by the asymmetric four-point bending test of notched specimen. Wood Science and Technology, 50(3), 475-487.

(23) Hiroshi Yoshihara, Naoki Ataka and Makoto Maruta (2016). Analysis of the open-hole compressive strength of spruce. Holzforschung, 70(5), 449-455.

(24) 吉原　浩，小高　拓，吉延匡弘 (2016). 繊維傾斜をもつ合板の縦振動試験によるヤング率測定におよぼす試験体幅の影響，材料, 65(5), 339-342.

(25) Hiroshi Yoshihara, Naoki Ataka and Makoto Maruta (2016). Four-point bending strength of key-hole side-edge-notched western hemlock (Tsuga heterophylla) wood. Holzforschung, in press (online available).

 (26) Hiroshi Yoshihara and Masahiro Yoshinobu(2017).Determination of the Mode I critical J-integral of copy paper.Engineering Fracture Mechanics,169,251-261.

(27) 吉原　浩，神谷佳佑，吉延匡弘 (2017). 合成木材の縦振動およびたわみ振動試験によるヤング率およびせん断弾性係数の測定，材料,66(3),印刷中

(28) 吉原　浩, 安高尚毅, 丸田誠(2017).片側切欠きばりの4点曲げ試験(４SENB試験)による木材および中密度繊維板のK_Ic値の測定,材料,66(5),印刷中

(29) Hiroshi Yoshihara, Naoki Ataka and Makoto Maruta(2017).Measurement of the Young's modulus and shear modulus  of extruded polystyrene foam (XPS) by longitudinal and flexural vibration methods.Journal of Cellular Plastics,in press.