Kyushu University Academic Staff Educational and Research Activities Database
List of Papers
Masumi Hasegawa Last modified date:2019.06.11

Assistant Professor / sustainable bioresource science / Department of Agro-environmental Sciences / Faculty of Agriculture


Papers
1. Doan Van Duong, Masumi Hasegawa, Junji Matsumura, The relations of fiber length, wood density, and compressive strength to ultrasonic wave velocity within stem of Melia azedarach, J Indian Acad Wood Sci, https://doi.org/10.1007/s13196-018-0227-0, 2018.12.
2. Masumi Hasegawa, Takeshi Kumamoto, Hiroyuki Okamura, Kazutoshi Takeuchi, Ryohei Asakura, JUNJI MATSUMURA, Relationship between chemical retention and velocity of air-coupled ultrasonic wave in fire-retardant-treated wood, Bioresources, 10.15376/biores.12.2.3387-3395, 12(2), 3387-3395, 2017.03.
3. Misaki Mori, Masumi Hasegawa, Ji-Chang Yoo, Seog-Goo Kang, JUNJI MATSUMURA, Nondestructive evaluation of bending strength of wood with artificial holes by employing air-coupled ultrasonics, Construction and Building Materials, 110, 24-31, 2016.05.
4. Masumi Hasegawa, Misaki Mori, JUNJI MATSUMURA, Relations of fiber length to within-tree variation of ultrasonic wave velocity in fast-growing trees, Wood and Fiber Science, 47(3), 313-318, 2015.07.
5. Duck-Won Pi, Seog-Goo Kang, Masumi Hasegawa, Deflection Characteristics and Heat transfer of Plywood for Wood-Based Flooring by Cross-band Veneer Composition, J. Fac. Agr. Kyshu Univ., 58, 1, 109-114, 2013.02.
6. Sangdae Lee, Masumi Hasegawa, Ki-Bok Kim, Jeong-Gil Park, Byoung-Kwan Cho, Evaluation of the Firmness Measurement of Fruit by Using a Non-contact Ultrasonic Technique, J. Fac. Agr. Kyushu Univ., 58, 1, 103-108, 2013.02.
7. Masumi Hasegawa, Yuji Yano, Junji Matsumura, Kazuyuki Oda, Prospects for within-tree variation of the acoustoelastic behaviors in Japanese cedar, NDT and E International, 10.1016/j.ndteint.2012.03.010, 49, 57-63, 2012.03.
8. Masumi Hasegawa, Masato Takata, Junji Matsumura, Kazuyuki Oda, Effect of wood properties on within-tree variation in ultrasonic wave velocity in softwood, Ultrasonics, 51, 296-302, 2010.10.
9. Masumi Hasegawa, Junji Matsumura, Ryoichi Kusano, Syunji Tsushima, Yasutoshi Sasaki, Kazuyuki Oda, Acoustoelastic effect in Melia azedarach for nondestructive stress measurement, Constr. Build. Mater., 10.1016/j.conbuildmat.2010.02.018, 24, 1713-1717, 24:1713-1717(2010), 2010.03.
10. Masumi HASEGAWA, Rie WAKIMOTO, Emi YOSHIDA, Kuniyoshi SHIMIZU, Ryuichiro KONDO, Anthonius WIDYYATMOKO, Arif NIRSATMANT, Susumu SHIRAISHI, Provenance variation in growth and wood properties of A.mangium and A.auriculiformis in Central Java, Indonesia, Bulletin of the Kyushu university Forest, 2009.03.
11. Yasutoshi Sasaki, Masumi Hasegawa, Effect of anisotropy on acoustoelastic birefringence in wood, Ultrasonics, 46(2),184-190, 2007.05.
12. Masumi Hasegawa, Junji Matsumura, Kazuyuki Oda, Yasutoshi Sasaki, Acoustoelastic Effect in Fast Growing Tree for Ultrasonic Stress Analysis, 9th European Conference on Non-Destructive Testing, 2006.09.
13. Hasegawa M., Sasaki Y., Acoustoelastic birefringence effect in wood III : Ultrasonic stress determination of wood by acoustoelastic birefringence method, J Wood Sci, 50, p.108-114 (2004).
14. Hasegawa M., Sasaki Y., Acoustoelastic birefringence effect in wood II : Influence of texture anisotropy on the polarization direction of shear wave in wood, J Wood Sci, 50, p.101-107 (2004).
15. Hasegawa M., Sasaki Y., Acoustoelastic birefringence effect in wood I : Effects of applied stresses on the velocities of ultrasonic shear waves propagating transversely to the stress direction, J Wood Sci, 50, p.47-52 (2004).
16. Sasaki Y., Hasegawa M., Iwata T., Acoustoelastic stress measurement of wood in bending, Holz als Roh- und Werkstoff, 59, p.237-243.
17. Sasaki Y., Hasegawa M., Effects of cyclic loading on velocities of ultrasonic waves propagating through wood, Wood Fib Sci, 35, p.110-119(2003).
18. Hasegawa M., Sasaki Y., Iwata T., Acoustoelastic effect of wood III. Effect of applied stresses on the velocity of ultrasonic waves propagating normal to the direction of the applied stress, J Wood Sci 46, 46(2), p.102-108, 2000.04.