Shuji MATSUSAKA

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                          https://researchmap.jp/shuji_matsusaka?lang=en

Department of Chemical Engineering,
Kyoto University, Japan

List of Publications

oA) Doctoral Thesis

Reentrainment of Fine Powder
Kyoto University (1993. 5)

oB) Articles in journal

1)      Gushima, K., H. Sakamoto and S. Matsusaka; Discriminating Flow State of Ceramic Particles to Prevent Wheel Sliding in Railway Vehicles, Journal of the Society of Powder Technology, Japan, 59, 556-562 (2022)

2)      Kinugasa, S., S. Tanoue, Y. Shimada and S. Matsusaka; Detailed Analysis of Particle–Substrate Interaction Based on a Centrifugal Method, Advanced Powder Technology, 33, 103793 (2022)

3)      Shoyama, M., S. Nishida, S. Kai and S. Matsusaka; A Novel Mixing Method for Levitated Particles using Electrostatic Fields, Advanced Powder Technology, 33, 103812 (2022)

4)      Ueda, M., Y. Shimada and S. Matsusaka; Stress Analysis of Powder Beds using Constant-volume and Constant-load Shear Tests, Advanced Powder Technology, 33, 103713 (2022)

5)      Shoyama, M., T. Sugaya and S. Matsusaka; Effective Use of External Electric Field for Charging and Levitation of Particles under UV Irradiation, IEEE Transactions on Industry Applications, 58, 5287-5291 (2022)

6)      Shimada, Y., M. Tsubota and S. Matsusaka; Measurement of Particle Adhesion Force and Effective Contact Radius via Centrifuge Equipped with Horizontal and Vertical Substrates, Powder Technology, 397, 117103 (2022)

7)      Shoyama, M., H. Yoshioka and S. Matsusaka; Charging and Levitation of Particles using UV Irradiation and Electric Field, IEEE Transactions on Industry Applications, 58, 776-782 (2022)

8)      Lu, J., S. Fujii, M. Yasuda and S. Matsusaka; Analysis of Wall Fouling and Electrostatic Charging in Gas-Solid Fluidized Beds, Advanced Powder Technology, 31, 3485-3491 (2020)

9)      Kudo, Y., A. Takauchi, M. Yasuda and S. Matsusaka; Effects of Packing Fraction on Flowability of Microcrystalline Cellulose, Journal of the Society of Powder Technology, Japan, 57, 360-365 (2020)

10)   Shimada, Y., K Yamamura and S. Matsusaka; Evaluation of Mechanical Properties of Nanoparticles using a Constant-Volume Shear Tester, Advanced Powder Technology, 31, 1007-1012 (2020)

11)   Kudo, Y., M. Yasuda and S. Matsusaka; Effect of Particle Size Distribution on Flowability of Granulated Lactose, Advanced Powder Technology, 31, 121-127 (2020)

12)   Shoyama, M., S. Nishida and S. Matsusaka; Quantitative Analysis of Agglomerates Levitated from Particle Layers in a Strong Electric Field, Advanced Powder Technology, 30, 2052-2058 (2019)

13)   Shoyama, M. and S. Matsusaka; Mechanism of Disintegration of Charged Agglomerates in Non-uniform Electric Field, Chemical Engineering Science, 198, 155-164 (2019)

14)   Shoyama, M., T. Kawata, M. Yasuda and S. Matsusaka; Particle Electrification and Levitation in a Continuous Particle Feed and Dispersion System with Vibration and External Electric Fields, Advanced Powder Technology, 29, 1960-1967 (2018)

15)   Shimada, Y., T. Kawata and S. Matsusaka; Analysis of Constant-volume Shear Tests Based on Precise Measurement of Stresses in Powder Beds, Advanced Powder Technology, 29, 1372-1378 (2018)

16)   Kudo, Y., A. Uno, M. Yasuda and S. Matsusaka; Effect of Addition ratio of Silicic Acid Compounds on Flowability of Lactose, Journal of the Society of Powder Technology, Japan, 54, 654-659 (2017)

17)   Matsusaka, S., S. Sato and M. Yasuda; Convection Induced by Vibrating Rod in Fine-powder Bed, Advanced Powder Technology, 28, 2589-2596 (2017) APT Distinguished Paper Award

18)   Shoyama, M. and S. Matsusaka; Electric charging of dielectric particle layers and levitation of particles in a strong electric field, Kagaku Kogaku Ronbunshu, 43, 319-326 (2017)

19)   Shimada, Y., S. Hatano and S. Matsusaka; A New Method for Evaluating Powder Flowability using Constant Volume Shear Tester, Journal of the Society of Powder Technology, Japan, 54, 90-96 (2017) Best Paper Award by The Society of Powder Technology, Japan

20)   Kudo, Y., A. Uno, M. Yasuda and S. Matsusaka; Effect of Surface Modification with Silicon Compounds on Flowability of Granulated Lactose, Journal of the Society of Powder Technology, Japan, 54, 82-89 (2017)

21)   Kitajima, S., M. Yasuda and S. Matsusaka; Controlling Electrostatic Charge on Particles Moving on a Dielectric Plate by Charge Extraction using an Atmospheric Pressure Plasma Jet, Kagaku Kogaku Ronbunshu, 43, 16-21 (2017)

22)   Techaumnat, B. and S. Matsusaka; Effect of Charge Transfer on Electrostatic Adhesive Force under Different Conditions of Particle Charge and External Electric Field, Powder Technology, 301, 153-159 (2016)

23)   Matsusaka, S., A. Noguchi, S. Kitajima and M. Yasuda; Electric Charging of Powder Bed by Ion and/or Electron Irradiation using Atmospheric Pressure Plasma Jet, Kagaku Kogaku Ronbunshu, 42, 137-141 (2016)

24)   Matsusaka, S., A. Noguchi, S. Kitajima and M. Yasuda; Control of Electrostatic Charge on Particles by Atmospheric Pressure Plasma Jet, Kagaku Kogaku Ronbunshu, 42, 100-106 (2016)

25)   Kobayakawa, M., A. Fujimoto, M. Yasuda and S. Matsusaka; Microscopic Analysis of Particle–Wall Collision, Kagaku Kogaku Ronbunshu, 41, 281-284 (2015)

26)   Matsusaka, S.; High-resolution Analysis of Particle Deposition and Resuspension in Turbulent Channel Flow, Aerosol Science and Technology 49, 739-746 (2015)

27)   Mizutani, M., M. Yasuda and S. Matsusaka; Advanced Characterization of Particles Triboelectrically Charged by a Two-stage System with Vibrations and External Electric Fields, Advanced Powder Technology 26, 454-461 (2015)

28)   Matsusaka, S., D. Wei, M. Yasuda and S. Sasabe; Adhesive Strength Distribution of Charged Particles on Metal Substrate in External Electric Field, Advanced Powder Technology, 26, 149-155 (2015)

29)   Kobayakawa, M., S. Kiriyama, M. Yasuda and S. Matsusaka; Microscopic Analysis of Particle Detachment from an Obliquely Oscillating Plate, Chemical Engineering Science, 123, 388-394 (2015)

30)   Kobayakawa, M., A. Fujimoto, M. Sakata, M. Yasuda and S. Matsusaka; Numerical and Theoretical Study of Particle Saltation on an Obliquely Oscillating Plate, Advanced Powder Technology, 25, 1854-1859 (2014)

31)   Kobayakawa, M., M. Yasuda and S. Matsusaka; Microscopic Analysis of Saltation of Particles on an Obliquely Oscillating Plate, Advanced Powder Technology 25, 1845-1853 (2014)

32)   Horio, T., M. Yasuda and S. Matsusaka; Effect of Particle Shape on Powder Flowability of Microcrystalline Cellulose as Determined using the Vibration Shear Tube Method, International Journal of Pharmaceutics, 473, 572-578 (2014)

33)   Matsusaka, S., K. Kubo, M. Mizutani and M. Yasuda; Analysis of Contact Charging and Dynamic Behavior of Particles on a Vibrating Plate, Journal of the Institute of Electrostatics Japan, 37, 273-278 (2013)

34)   Mizutani, M., K. Takeda, M. Yasuda and S. Matsusaka; Characterization of Particles Triboelectrically Charged by a Two-Stage System using Vibration and External Electric Fields, Journal of the Society of Powder Technology, Japan, 50, 832-839 (2013)

35)   Mizutani, M., M. Yasuda and S. Matsusaka; Dynamic Analysis of Bubbling Fluidized Bed of Fine Particles Caused by Vibration Convection and Vibration-induced Air Inflow, Kagaku Kogaku Ronbunshu, 39, 420-425 (2013)

36)   Matsusaka, S., J. Iyota, M. Mizutani and M. Yasuda; Characterization and Control of Particles Triboelectrically Charged by Vibration and External Electric Field, Journal of the Society of Powder Technology, Japan, 50, 632-639 (2013)

37)   Bunchatheeravate, P., J. Curtis, Y. Fujii and S. Matsusaka; Prediction of Particle Charging in a Dilute Pneumatic Conveying System, AIChE Journal, 59, 2308-2316 (2013)

38)   Horio, T., M. Yasuda and S. Matsusaka; Measurement of Flowability of Lubricated Powders by the Vibrating Tube Method, Drug Development and Industrial Pharmacy, 39, 1063-1069 (2013)

39)   Matsusaka, S., M. Kobayakawa, M. Mizutani, M. Imran and M. Yasuda; Bubbling Behavior of a Fluidized Bed of Fine Particles Caused by Vibration-induced Air Inflow, Scientific Reports 3, 1190 (2013) doi: 10.1038/srep01190

40)   Matsusaka, S., M. Kobayakawa, T. Yamamoto and M. Yasuda; Analysis of Vibration Shear Flow of Fine Powders, Journal of the Society of Powder Technology, Japan, 49, 663-668 (2012)

41)   Matsusaka, S., M. Kobayakawa, Y. Hosoh and M. Yasuda; Micro-feeding of Fine Powders using Vibration Shear Flow, Journal of the Society of Powder Technology, Japan, 49, 658-662 (2012)

42)   Imran M. Zainuddin,  M. Yasuda, T. Horio and S. Matsusaka; Experimental Study on Powder Flowability using Vibration Shear Tube Method, Particle & Particle Systems Characterization, 29, 8-15 (2012)

43)   Liu, Y.-H., G. Calvert, C. Hare, M. Ghadiri and S. Matsusaka; Size Measurement of Dry Ice Particles Produced from Liquid Carbon Dioxide, Journal of Aerosol Science, 48, 1-9 (2012)

44)   Liu, Y.-H., D. Hirama and S. Matsusaka; Particle Removal Process during Application of Impinging Dry Ice Jet, Powder Technology, 217, 607-613 (2012)

45)   Imran Zainuddin, M., M. Yasuda, Y.-H., Liu, H. Maruyama, S. Matsusaka; Development of Vibration Shear Tube Method for Powder Flowability Evaluation, Powder Technology, 217, 548-553 (2012)

46)   Gushima, K., S. Matsusaka and S. Hasebe; A Study on Durability and Reliability of Particle Flow-rate Sensor using Static Electricity, Transactions of the Japan Society of Mechanical Engineers. A, 77, 1540-1553 (2011)

47)   Liu, Y.-H., H. Maruyama and S. Matsusaka; Effect of Particle Impact on Surface Cleaning using Dry Ice Jet, Aerosol Science and Technology, 45, 1519-1527 (2011)

48)   Ishii, K., M. Suzuki, T. Segawa, Y. Kihara, M. Yasuda and S. Matsusaka; A vibrating tube method for evaluating flowability of a small amount of sample particles, Advanced Powder Technology, 22, 522-525 (2011)

49)   Ishii, K., M. Suzuki, T. Segawa, Y. Kihara, M. Yasuda and S. Matsusaka; Flowability Measurement of Pulverized and Granulated Materials using Vibrating Tube Method, Advanced Powder Technology, 22, 319-323 (2011)

50)   Liu, Y.-H., H. Maruyama and S. Matsusaka; Agglomeration Process of Dry Ice Particles Produced by Expanding Liquid Carbon Dioxide, Advanced Powder Technology, 21, 652-657 (2010)

51)   Gushima, K., H. Sakamoto, M. Tokita, K. Watanabe, S. Matsusaka and S. Hasebe; Wheel Slide Detection and Control System using Ceramic-particle Jetting, Transactions of the Japan Society of Mechanical Engineers. C, 76, 1406-1412 (2010)

52)   Toizumi, K., Y. Shibai, T. Nakamura, S. Matsusaka; Measurement of Adhesive Strength Distribution between Toner and Carrier Particles by Airflow Method, Journal of the Imaging Society of Japan, 49, 154-158 (2010)

53)   Matsusaka S., T. Shirai, Y. Hosoh and M. Yasuda; Evaluation of Flowability of Toner particles by Vibrating Tube Method, Journal of the Imaging Society of Japan, 48, 162-169 (2009)  Best Paper Award by The Imaging Society of Japan

54)   Ishii, K., M. Suzuki, T. Yamamoto, Y. Kihara, Y. Kato, T. Kurita, K. Yoshimoto, M. Yasuda and S. Matsusaka; Flowability Measurement of Coarse Particles using Vibrating Tube Method, Journal of Chemical Engineering of Japan, 42, 319-324 (2009)

55)   Leong, F. Y., K. A. Smith, C.-H. Wang, S. Matsusaka and J. Hua; Electrostatic Effects on Inertial Particle Transport in Bifurcated Tubes, AIChE Journal, 55, 1390-1401 (2009)

56)   Sawamura, S., Y. Haraguchi, M. Yasuda and S. Matsusaka; Flowability Properties of Matcha Varying with Particle Size and/or Milling Methods, Journal of the Japanese Society for Food Science and Technology, 56, 103-107 (2009)

57)   Jiang, Y., S. Matsusaka, H. Masuda and Y. Qian; Development of Measurement System for Powder Flowability Based on Vibrating Capillary Method, Powder Technology, 188, 242-247 (2009)

58)   Jiang, Y., S. Matsusaka, H. Masuda and Y. Qian; Characterizing the Effect of Substrate Surface Roughness on Particle–Wall Interaction with the Airflow Method, Powder Technology, 186 199-205 (2008)

59)   Gushima, K., T., Tomioka, H. Sakamoto, M. Tokita, K. Watanabe, S. Matsusaka and S. Hasebe; Application of Particle Flow-rate Sensor Based on the Electrostatic Measurement Method to Railway Vehicle, Transactions of the Japan Society of Mechanical Engineers. C, 74, 1374-1380 (2008)

60)   Iwamatsu, T., H. Hirakawa, T. Gotoh, H. Masuda and S. Matsusaka; Toner Charge Analysis Utilizing Charge Spectrometer, Journal of the Society of Powder Technology, Japan, 45, 395-401 (2008)

61)   Matsusaka, S. K. Yoshitani, H. Tago, T. Nii, H. Masuda and T. Iwamatsu; Sampling of Charged Fine Particles by Motion Control under AC Field, Journal of the Society of Powder Technology, Japan, 45, 387-394 (2008)

62)   Matsusaka, S., K. Ando, Y. Tanaka; Development of Electrostatic Charge Controller for Particles in Gases using Centrifugal Contact, Journal of the Society of Powder Technology, Japan, 45, 380-386 (2008)

63)   Ishii, K., M. Suzuki, T. Yamamoto, Y. Kihara, M. Yasuda and S. Matsusaka; Feasibility Study on Particle Flowability Evaluation in Simplified MOX Pellet Fabrication Process using Vibrating Tube Method, Journal of the Society of Powder Technology, Japan, 45, 290-296 (2008)

64)   Matsusaka, S., H. Fukuda, Y. Sakura, H. Masuda and M. Ghadiri; Analysis of Pulsating Electric Signals Generated in Gas–Solids Pipe Flow, Chemical Engineering Science, 63, 1353-1360 (2008)

65)   Watanabe, H., M. Ghadiri, T. Matsuyama, Y. L. Ding, K. G. Pitt, H. Maruyama, S. Matsusaka and H. Masuda; Triboelectrification of Pharmaceutical Powders by Particle Impact, International Journal of Pharmaceutics, 334, 149-155 (2007)

66)   Jiang Y., S. Matsusaka, H. Masuda and T. Yokoyama; Characterizing the Effect of Surface Morphology on Particle–Wall Interaction by the Airflow Method, Adv. Powder Technology, 17, 413-424 (2006)

67)   Matsusaka, S., M. Oki and H. Masuda; Control of Electrostatic Charge on Particles by Impact Charging, Journal of the Society of Powder Technology, Japan, 43, 160-168 (2006)

68)   Jiang Y., S. Matsusaka, H. Masuda and T. Yokoyama; Evaluation of Flowability of Composite Particles and Powder Mixtures by a Vibrating Capillary Method, Journal of Chemical Engineering of Japan, 39, 14-21 (2006)

69)   Matsusaka, S, K. Muranishi and H. Masuda; Classification of Solder Balls by Twin Roller System, Journal of the Society of Powder Technology, Japan, 42, 110-115 (2005)

70)   Yao, J., Y. Zhang, C.-H. Wang, S. Matsusaka and H. Masuda; Electrostatics of the Granular Flow in a Pneumatic Conveying System, Industrial & Engineering Chemistry Research, 43, 7181-7199 (2004)

71)   Zhu, K., S. M. Rao, Q. H. Huang, C.-H. Wang, S. Matsusaka and H. Masuda; On the Electrostatics of Pneumatic Conveying of Granular Materials using Electrical Capacitance Tomography, Chemical Engineering Science, 59, 3201-3213 (2004)

72)   Matsusaka, S., M. Oki and H. Masuda; Bipolar Charge Distribution of a Mixture of Particles with Different Electrostatic Characteristics in Gas–Solids Pipe Flow, Powder Technology, 135-136, 150-155 (2003)

73)   Theerachaisupakij, W., S. Matsusaka, Y. Akashi and H. Masuda; Reentrainment of Deposited Particles by Drag and Aerosol Collision, Journal of Aerosol Science, 34, 261-274 (2003)

74)   Theerachaisupakij, W., S. Matsusaka, M. Kataoka and H. Masuda; Effects of Wall Vibration on Particle Deposition and Reentrainment in Aerosol Flow, Advanced Powder Technology, 13, 287-300 (2002)

75)   Matsusaka, S., and H. Masuda; Theoretical Analysis of Electrostatic Forces between Coated Particles, Advanced Powder Technology, 13, 157-166 (2002)

76)   Matsusaka, S., H. Umemoto, M. Nishitani and H. Masuda; Electrostatic Charge Distribution of Particles in Gas–Solids Pipe Flow, Journal of Electrostatics, 55, 81-96 (2002)

77)   Matsusaka, S., W. Theerachaisupakij, K. Tanoue and H. Masuda; Numerical Simulation of Particle Trajectory in Relation to the Formation of a Striped Pattern Deposition Layer, Journal of Chemical Engineering of Japan, 34, 333-339 (2001)

78)   Matsusaka, S., W. Theerachaisupakij, H. Yoshida and H. Masuda; Deposition Layers Formed by a Turbulent Aerosol Flow of Micron and Sub-micron Particles, Powder Technology, 118, 130-135 (2001)

79)   Adhiwidjaja, I., S. Matsusaka, H. Tanaka and H. Masuda; Simultaneous Phenomenon of Particle Deposition and Reentrainment: Effects of Surface Roughness on Deposition Layer of Striped Pattern, Aerosol Science and Technology, 33, 323-333 (2000)

80)   Matsusaka, S., M. Ghadiri and H. Masuda; Electrification of an Elastic Sphere by Repeated Impacts on a Metal Plate, Journal of Physics D: Applied Physics, 33, 2311-2319 (2000)

81)   Matsusaka, S, T. Nishida, Y. Gotoh and H. Masuda; Electrification of Fine Particles by Impact on Polymer Film Target, Journal of the Society of Powder Technology, Japan, 37, 728-733 (2000)  Best Paper Award by The Society of Powder Technology, Japan

82)   Adhiwidjaja, I., S. Matsusaka, S. Yabe and H. Masuda; Simultaneous Phenomenon of Particle Deposition and Reentrainment in Charged Aerosol Flow –Effects of Particle Charge and External Electric Field on Deposition LayerE Journal of the Society of Powder Technology, Japan, 36, 542-548 (1999)

83)   Matsusaka, S, S. Nakamura and H. Masuda; Behavior of Fine Particles on a Plane under Ultrasonic Vibration, Journal of the Society of Powder Technology, Japan, 36, 16-22 (1999)

84)   Matsusaka, S., I. Adhiwidjaja, T. Nishio and H. Masuda; Formation of Striped Pattern Deposition Layers by an Aerosol Flow -analysis of Thickness and Interval of Layers, Advanced Powder Technology, 9, 207-218 (1998)

85)   Matsusaka, S, M. Furutate and H. Masuda; Distinct Element Simulation of Vibrating Behavior of Adhesive Fine Powder, Journal of the Society of Powder Technology, Japan, 35, 168-173 (1997)

86)   Masuda, H., S. Matsusaka and H. Shimomura; Measurement of the Mass Flow Rate of a Polymer Powder Based on the Static Electrification of Particles, Journal of the Society of Powder Technology, Japan, 34, 919-923 (1997)

87)   Adhiwidjaja, I., S. Matsusaka, T. Hamamura and H. Masuda; The Effect of Particle Size on the Movement of a Striped Pattern Deposition Layer in an Aerosol Flow, Journal of the Society of Powder Technology, Japan, 34, 913-918 (1997)

88)   Matsusaka, S., M. Koumura and H. Masuda; Analysis of Adhesive Force between Particle and Wall Based on Particle Reentrainment by Airflow and Centrifugal Separation, Kagaku Kogaku Ronbunshu, 23, 561-568 (1997)

89)   Masuda, H., S. Matsusaka, S. Akiba and H. Shimomura; Electrification of Fine Particles in Gas–Solids Pipe Flow, Journal of the Society of Powder Technology, Japan, 34, 91-96 (1997)

90)   Itakura, T., H. Masuda, C. Ohtsuka and S. Matsusaka; The Contact Potential Difference of Powder and the Tribo-charge, Journal of Electrostatics, 38, 213-226 (1996)

91)   Matsusaka, S., K. Fujita and H. Masuda; Particle Reentrainment under Reduced Pressure, Kagaku Kogaku Ronbunshu, 22, 177-183 (1996)

92)   Adhiwidjaja, I., S. Matsusaka and H. Masuda; Mechanism of Formation of Particle Deposition Layers by an Aerosol Flow, Kagaku Kogaku Ronbunshu, 22, 127-133 (1996)

93)   Matsusaka, S., M. Urakawa and H. Masuda; Micro-feeding of Fine Powders using a Capillary Tube with Ultrasonic Vibration, Advanced Powder Technology, 6, 283-293 (1995)

94)   Masuda, H., S. Matsusaka and H. Fujimoto; On-Line Simultaneous Measurement of Powder Flow Rate and Electric Charge of Particles in Gas–Solids Pipe Flow –Effect of Air velocity on Accuracy of Measurement, Kagaku Kogaku Ronbunshu, 21, 573-580 (1995)

95)   Matsusaka, S., K. Yamamoto and H. Masuda; Micro-feeding of a Fine Powder using a Vibrating Capillary Tube, Journal of the Society of Powder Technology, Japan, 32, 83-88 (1995)

96)   Masuda, H., S. Matsusaka and S. Nagatani; Measurements of Powder Flow Rate in Gas–Solids Pipe Flow Based on the Static Electrification of Particles, Advanced Powder Technology, 5, 241-254 (1994)

97)   Matsusaka, S., K. Mizumoto, M. Koumura and H. Masuda; Evaluation of Adhesive Strength Distribution Based on Reentrainment Phenomena –Discrimination between Particle-particle and Particle–Wall Interaction, Journal of the Society of Powder Technology, Japan, 31, 719-725 (1994)

98)   Masuda, H. and S. Matsusaka; Maximum Electrostatic Force Acting on a Particle, Journal of the Society of Powder Technology, Japan, 30, 713-716 (1993)

99)   Matsusaka, S., M. Shimizu and H. Masuda; Formation of Wall Particle Layers by Simultaneous Deposition and Reentrainment of Fine Particles in Turbulent Aerosol Flows, Kagaku Kogaku Ronbunshu, 19, 251-257 (1993)

100)              Masuda, H., S. Matsusaka and K. Imamura; A New Method for the Measurement of Powder Characteristics Based on the Reentrainment Phenomena, Journal of the Society of Powder Technology, Japan, 29, 897-905 (1992)

101)              Matsusaka, S., Y. Nakamura and H. Masuda, Particle-Reentrainment from a Fine Powder Layer by an Accelerated Air-flow, Journal of the Society of Powder Technology, Japan, 29, 110-115 (1992)

102)              Matsusaka, S., T. Aoyagi and H. Masuda; Unsteady Particle-Reentrainment Model Based on the Internal Adhesive Strength Distribution of a Fine Powder Layer, Kagaku Kogaku Ronbunshu, 17, 1194-1200 (1991)

103)              Masuda, H., S. Matsusaka and S. Okanishi; Effect of Temperature on Particle-Reentrainment from Powder Layer in a Rectangular Air-flow Channel, Journal of Aerosol Research, Japan, 5, 320-325 (1990)

104)              Masuda, H., S. Matsusaka and S. Ikumi; Particle Reentrainment from Powder Bed of Fine Particles in a Rectangular Air-flow Channel, Kagaku Kogaku Ronbunshu, 11, 48-54 (1985)

105)              Masuda, H., S. Matsusaka and Y. Sumiura; Reentrainment of Fine Particles from a Cylindrical Powder Layer Adhering on a Tube Wall, Journal of the Society of Powder Technology, Japan, 20, 405-410 (1983)

oC) Translated Papers (from Japanese to English)

1)      Shimada, Y., S. Hatano and S. Matsusaka; A New Method for Evaluating Powder Flowability using Constant-Volume Shear Tester, Advanced Powder Technology, 29, 3577-3583 (2018) Best Paper Award by The Society of Powder Technology, Japan

2)      Matsusaka, S, M. Oki and H. Masuda; Control of electrostatic charge on particles by impact charging, Advanced Powder Technology, 18, 229-244 (2007)

3)      Matsusaka, S, T. Nishida, Y. Gotoh and H. Masuda; Electrification of Fine Particles by Impact on a Polymer Film Target, Advanced Powder Technology, 14, 127-138 (2003)

4)      Adhiwidjaja, I., S. Matsusaka, S. Yabe and H. Masuda; Simultaneous Phenomenon of Particle Deposition and Reentrainment in Charged Aerosol Flow -Effects of Particle Charge and External Electric Field on Deposition Layer-, Advanced Powder Technology, 11, 221-233 (2000)

5)      Matsusaka, S, S. Nakamura and H. Masuda; Behavior of Fine Particles on a Plane under Ultrasonic Vibration, KONA Powder and Particle, No.18, 213-220 (2000)

6)      Masuda, H., S. Matsusaka and H. Shimomura; Measurement of Mass Flow Rate of Polymer Powder Based on Static Electrification of Particles, Advanced Powder Technology, 9, 169-179 (1998)

7)      Masuda, H., S. Matsusaka, S. Akiba and H. Shimomura; Electrification of Fine Particles in Gas–Solids Pipe Flow, KONA Powder and Particle, No.16, 216-222 (1998)

8)      Matsusaka, S., K. Yamamoto and H. Masuda; Micro-feeding of a Fine Powder using a Vibrating Capillary Tube, Advanced Powder Technology, 7, 141-151 (1996)

9)      Masuda, H., S. Matsusaka and K. Imamura; A New Method for Measurement of Powder Characteristics Based on Reentrainment Phenomena, KONA Powder and Particle, No.12, 133-143 (1994)

10)   Matsusaka, S., Y. Nakamura and H. Masuda, Particle-Reentrainment from a Fine Powder Layer by an Accelerated Air-Flow, International Chemical Engineering, 34, 563-569 (1994)

oD) Published contributions to academic conferences

1)     Ota, M., M. Shoyama, M. Yasuda and S. Matsusaka; Transport and Deposition of Fine Particles using Electrostatic Acceleration in a Powder Process, Abstracts of 9th World Congress on Particle Technology, Madrid, Spain (2022/9/18-22)

2)     Adachi, M., T. Uemori, T. Hirayama, M. Shoyama and S. Matsusaka; Electrodynamic Dust Shield with Vibration Assistance for Cleaning Lunar Regolith Particles, Abstracts of 9th World Congress on Particle Technology, Madrid, Spain (2022/9/18-22)

3)     Matsusaka, S. and M. Shoyama; Characterization and Control of Particles Charged by Various Methods in Electric Fields, 759. WE-Heraeus-Seminar: Mesoscopic TriboelectricityFrom Patches to Particles to Planets, Abstracts, NRW Germany (2022/1/17-21)

4)     Shoyama, M., T. Sugaya and S. Matsusaka.; Effects of Direction and Strength of External Electric Field on Particle Charging and Levitation under UV Irradiation, 2021 IAS Annual Meeting, Abstracts S26-P2-EPC, Vancouver, BC Canada (2021/10/10-14) 2021 IEEE Industry Applications Society Annual Meeting, 9677386 (2021) DOI: 10.1109/IAS48185.2021.9677386

5)     Shoyama, M., S. Nishida, S. Kai, M. Yasuda, and S. Matsusaka; A Novel Continuous Particle Mixing System using Electrostatic Levitation by Induction Charging, Abstracts of the 8th Asian Particle Technology Symposium, 1 [R9] 05, Osaka, (2021/10/11-14)

6)     Shoyama, M., H. Yoshioka and S. Matsusaka.; Particle Charging and Levitation using UV Irradiation and Electrostatic field, 2020 IAS Annual Meeting, Detroit, Michigan USA (2020/10/11-15) 2020 IEEE Industry Applications Society Annual Meeting, 9334829 (2020) DOI: 10.1109/IAS44978.2020.9334829

7)      Matsusaka, S.; Electrostatics of particles in Gases, International Multiphase Flow Technology Forum (IMFTF), Beijing, China (2020/1/9-10)

8)      Shoyama, M., T. Kawata, M. Yasuda and S. Matsusaka; A New Method for Particle Dispersion by Induction Charging, Book of Abstracts of PARTEC 2019, p27, Nuremberg (2019/4/9-11)

9)      Shoyama, M. and S. Matsusaka; Electrification and Dispersion of Particles using Mesh Electrode, Proceedings of 8th World Congress on Particle Technology, 126b, Orlando, FL, USA (2018/4/22-26)

10)   Kawata, T., M. Yasuda and S. Matsusaka; Continuous Feeding of Dispersed Particles by Vibration and External Electric Field, Abstracts of the 7th Asian Particle Technology Symposium, PF-8, Taoyuan, Taiwan (2017/7/30-8/3)

11)   Shoyama, M. and S. Matsusaka; Charging and Levitation of Small Particles by Mesh Electrode, Proceedings of Annual Meeting of the Electrostatics Society of America (ESA 2017), B5 in USB flash drive, Ottawa (2017/6/13-15)

12)   Matsusaka, S. and M. Yasuda; Vibration Shear Flow of Fine Particles and Its Application for Micro-feeding, Proceedings of the 13th International Conference on Chemical & Process Engineering, ICheaP-13, Milan (2017/5/28-31) Chemical Engineering Transactions Vol. 57, pp. 823-828 (2017) DOI:10.3303/CET1757138

13)   Matsusaka, S.; Measurements and Analysis of Fine Particles in Gas–Solids Pipe Flow, Abstracts of CMFMS 2016, 102, Beijing (2016/9/22-24)

14)   Matsusaka, S.; Characterization and Control of Triboelectrically Charged Particles, Abstracts of AIChE 2015 Annual Meeting, 410658, Salt Lake City (2015/11/8-13)

15)   Bai S. and S. Matsusaka; Flowability Measurement of Ultrafine Particles using Vibrating Tube Method, Abstracts of APCChE 2015, 3126408, Melbourne (2015/9/27-10/1)

16)   Matsusaka, S.; Particle Deposition and Reentrainment in Gas–Solids Pipe Flow, Abstracts of APT 2015, p. 94 Seoul (2015/9/15-18)

17)   Matsusaka, S.; Characterization of Particles Triboelectrically Charged in External Electric Field, STEP-1, Tokyo (2014/12./20)

18)   Kobayakawa, M., M. Yasuda and S. Matsusaka; Saltation of Fine Particles on Obliquely Oscillating Plate, Abstracts of the 7th World Conference on Particle Technology, No. 212, Beijing (2014/5/19-22) Procedia Engineering, 102, pp. 692-697 (2015) DOI: 10.1016/j.proeng.2015.01.168

19)   Kobayakawa, M., M. Yasuda and S. Matsusaka; Analysis of Behavior of Small Agglomerated Particles on Two-dimensional Vibrating Plate, Powders and grains 2013, Proceedings of the 7th International Conference on Micromechanics of Granular Media, Sydney (2013/7/8-12) AIP Conf. Proc. 1542, pp. 991-994 (2013) DOI: 10.1063/1.4812100

20)   Mizutani, M., M. Yasuda and S. Matsusaka; Characterization of Particle Electrostatic Charging in Vibration and Electric Field, Proceedings of the 11th International Conference on Chemical & Process Engineering, ICheaP-11, Milan (2013/6/2-5) Chemical Engineering Transactions Vol. 32, pp. 2083-2088 (2013) DOI:10.3303/CET1332348

21)   Bunchatheeravate, P., Y. Fujii, J. Curtis and S. Matsusaka; Electrostatic Charging of Particles in a Straight Pipe, Abstracts of AIChE 2012 Annual Meeting, p. 639b, Pittsburgh (2012/10/28-11/2)

22)   Wei D. and S. Matsusaka; Characterizing the Effect of External Electric Field on Adhesion Force between Charged Particles and a Substrate by Airflow Method, Abstracts of The 7th International Conference on Applied Electrostatics, p. 23, Dalian (2012/9/17-19)

23) Matsusaka, S. and K. Sato; Charge Control of Particles in Air using Centrifugal Force Acting under Applied Electric Field, Abstracts of European aerosol Conference, 114 in USB flash drive, Granada (2012/9/2-7)

24)   Horio, T., M. Yasuda and S. Matsusaka; Evaluation of Flowability Properties of Powders Lubricated with Magnesium Stearate and Sodium Stearyl Fumarate by Vibrating Tube Method, Proceedings 5th Asian Particle Technology Symposium (APT2012), p. 730-731, Singapore (2012/7/2-5)

25)   Matsusaka, S; Electrostatics and Particle Technology, Proceedings 5th Asian Particle Technology Symposium (APT2012), p. 29-30, Singapore (2012/7/2-5)

26) Matsusaka, S; Measurement and Control of Particle Tribocharging, Proceedings of 2012 Electrostatics Joint Conference, D1 in USB flash drive, Ontario (2012/6/12-14)

27)   Liu, Y.-H. and S. Matsusaka; Characteristics of Dry Ice Particles Produced by Expanding Liquid Carbon Dioxide and its Application for Surface Cleaning, Proceedings of the 9th International Conference on Measurement and Control of Granular Materials, in CD (2011/10/27-29); Advanced Materials Research, 508, 38-42, Shanghai (2012)

28) Liu, Y.-H., G. Calvert, C. Hare, M. Ghadiri and S. Matsusaka; Size Measurement of Dry Ice Particles in a Jet Flow using Laser Diffraction Method, Abstracts of European aerosol Conference, 250 in USB flash drive, Manchester (2011/9/3-6)

29)   Liu, Y.-H., H. Maruyama and S. Matsusaka; Surface Cleaning by Collision of Agglomerated Dry Ice Particles, Proceedings of The 13th Asia Pacific Confederation of Chemical Engineering Congress, in CD, APCChE 2010, Taipei (2010/10/5-8)

30)   Matsuyama, T., E. Šupuk, H. Ahmadian, A. Hassanpour, S. Matsusaka and M. Ghadiri; Analysis of Tribo-electric Charging of Spherical Beads using Distinct Element Method, Proceedings of Sixth World Congress on Particle Technology, 104 in CD, Nuremberg (2010/4/19-21)

31)   Matsusaka, S., K. Ishii, M. Suzuki, T. Segawa, Y. Kihara and M. Yasuda; Effect of Sample Amount on Particle Flowability Evaluation Based on Vibrating Tube Method, Proceedings of Sixth World Congress on Particle Technology, 39 in CD, Nuremberg (2010/4/19-21)

32)   Matsusaka, S., K. Ishii, M. Suzuki, T. Segawa, Y. Kihara and M. Yasuda; Flowability Measurement of Pulverized and Granulated Particles using Vibrating Tube Method, Proceedings of APT2009, 46 in CD, New Delhi (2009/9/14-16)

33)   Liu, Y.-H., H. Maruyama and S. Matsusaka; Formation of Agglomerated Dry Ice Particles, Proceedings of APT2009, 42 in CD, New Delhi (2009/9/14-16)

34)   Matsusaka, S; Electrostatics of Powder Fundamentals and Applications, Lecture note Unit 13 of the Summer School of Chemical Production Engineering, Guangzhou (2008/11/17-28)

35)   Ishii, K., M. Suzuki, T. Yamamoto, Y. Kihara, Y. Kato, T. Kurita, M. Yasuda and S. Matsusaka; Flowability Evaluation of a Model of MOX Particles using Vibrating Tube Method, Papers of BulkEurope 2008, p. B6_4, Prag, Czech (2008/9/11-12)

36)   Matsusaka, S., H. Maruyama and M. Ghadiri; Analysis of Electric Signals Generated in Powder Handling and Control of Charged Particles, Abstracts of International Fine Particle Research Institute (IFPRI) Annual General Meeting, #1, Crete, Greece (2008/6/14-19)

37)   Matsusaka, S., H. Maruyama and T. Matsuyama; Triboelectric Charging, Abstracts of International Fine Particle Research Institute (IFPRI) Annual General Meeting, Crete, Greece (2008/6/14-19)

38)   Matsusaka, S; A New Method to Control Tribo-charging of Fine Particles in Gas–Solids Pipe Flow, Abstracts of Seminar on Electrostatic Phenomena in PowderProcesses organized by IChemE Particle Technology Subject Group, Leeds, UK (2008/1/17)

39)   Matsusaka, S., H. Fukuda, Y. Sakura, H. Masuda and M. Ghadiri; Analysis of Pulsating Electric Signals Generated in Dilute Pneumatic Conveying, Abstracts of 8th UK Particle Technology Forum, p.64, Cambridge, UK (2007/9/26-27)

40)   Jiang, Y., S. Matsusaka, H. Masuda and Y. Qian; Characterizing the Effect of Substrate Surface Roughness on Particle–wall Interaction by Airflow Method, Proceedings of APT2007, p. 89-93, Beijing, China (2007/9/3-5)

41)   Watanabe, H., Y. Ding, M. Ghadiri, T. Matsuyama, K. G. Pitt, H. Maruyama, S. Matsusaka and H. Masuda; Tribo-electrification of Pharmaceutical Powders, Proceedings of PARTEC2007, 8.2, Nuremberg, Germany (2007/3/27-29)

42)   Matsusaka, S., K. Yoshitani, H. Masuda and T. Iwamatsu; Sampling Device for Charged Particles using Motion Control under AC Field, Proceedings of PARTEC2007, 29.4, Nuremberg, Germany (2007/3/27-29)

43)   Matsusaka, S., H. Fukuda, H. Masuda and M. Ghadiri; Analysis of Electric Signals Generated from Metal Pipes in Pneumatic Conveying System, Abstracts of Control of Particulate Processes VII, Technical session 7-2, Harrison Hot Springs, Canada (2006/10/29-11/2)

44)   Watanabe, H., Y. Ding, M. Ghadiri, T. Matsuyama, K. G. Pitt, H. Maruyama, S. Matsusaka and H. Masuda; Measurement of Electrostatic Charge Transfer by Single Particle Impact with a Metal Plate, Proceedings of The Fifth International Conference for Conveying and Handling of Particulate Solids, Session C7-2, Sorrento, Italy (2006/8/27-31)

45)   Jiang, Y., S. Matsusaka, H. Masuda and Y. Qian; Powder Flowability Measurement Based on a Novel Automatic Vibrating Capillary Method, Proceedings of the 7th International Conference on Measurement and Control of Granular Materials, p. 48-53, Shanghai, China (2006/8/26-28)

46)   Matsusaka, S; Measurement and Control of Electrostatic Particle Charging, Proceedings of the 7th International Conference on Measurement and Control of Granular Materials, p. 13-17, Shanghai, China (2006/8/26-28)

47)   Watanabe, H., Y. Ding, M. Ghadiri, T. Matsuyama, K. G. Pitt, H. Maruyama, S. Matsusaka and H. Masuda; Electrostatic Charge Transfer Due to Single Impact of Pharmaceutical Powders, Proceedings of Fifth World Congress on Particle Technology, p37b in CD, Florida, USA (2006/4/23-4/27)

48)   Matsusaka, S., M. Oki and H. Masuda; A New System to Control Electrostatic Charge on Particles in Gas–Solids Pipe Flow, Proceedings of Fifth World Congress on Particle Technology, p259b in CD, Florida, USA (2006/4/23-4/27)

49)   Matsusaka, S., Y. Jiang and H. Masuda; A New Measurement System to Evaluate Powder Flowability Based on Vibrating Capillary Method, Proceedings of Fifth World Congress on Particle Technology, p150a in CD, Florida, USA (2006/4/23-4/27)

50)   Matsusaka, S. K. Tominaga and H. Masuda; Microscopic Observation of Particle Deposition and Reentrainment by High-speed Camera, Abstracts of European aerosol Conference, 113, Ghent (2005/8/28-9/2)

51)   Matsusaka, S. ; Analysis and Control of Tribo-Charging of Fine Particles in Gas–Solids Pipe Flow, Abstracts of Workshop on Electrostatic Phenomena in Particulate Systems organized by Particle Technology Subject Group of Institute of Chemical Engineers, Leeds, UK (2005/3/16)

52)   Yao, J., Y. Zhang, C-H. Wang, S. Matsusaka and H. Masuda; Electrostatics of the Granular Flow in a Pneumatic Conveying System, Abstracts of AIChE Annual Meeting, 271d in CD, Austin, USA (2004/11/7-11/12)

53)   Mizutani, Y., M. Miyazaki, S. Matsusaka and H. Masuda; Analysis of Movement of Spherical Particles in a Twin Roller System for Size Classification, Proceedings of 10th APCChE, 0141 in CD, Kitakyushu (2004/10/17-21)

54)   Matsusaka, S. K. Tominaga and H. Masuda; Analysis of Charge Distribution of Particles in Gas–Solids Pipe Flow, European aerosol Conference, J. Aerosol Sci. 35, Suppl. 1, s481-s482, Budapest (2004/9/6-10)

55)   Zhu, K., C-H. Wang, S. Matsusaka and H. Masuda; Electrostatics in Pneumatic Conveying of Granular Materials, Abstracts of AIChE Annual Meeting, 274e in CD, San Francisco (2003/11/16-21)

56)   Matsusaka, S. K. Muranishi and H. Masuda; High Accuracy Classification of Spherical Particles using a Twin Roller Systems, Proceedings of The 2nd Asian Particle Technology Symposium, Vol. II, 347-351, Penang Malaysia (2003/12/17-19)

57)   Matsusaka, S. and H. Masuda; Electrostatic Charge Distribution of Fine Particles in Gas–Solids Pipe Flow, Proceedings of The 12th Nisshin Engineering Particle Technology International Seminar, 60-71, Awaji (2003/11/30-12/2)

58)   Matsusaka, S. M. Oki and H. Masuda; Bipolar Charge Distribution of Particles in Gas–Solids Pipe Flow, European aerosol Conference, J. Aerosol Sci. 34, Suppl, 2, s997-s998, Madrid (2003/8/31-9/5)

59)   Matsusaka; Electrification of Fine Particles in Gas–Solids Pipe Flow, Fine Particulate Workshop hosted by NASA Glenn Research Center, Cleveland, Ohio (2003/5/5-7)

60)   Masuda, H. and S. Matsusaka; Particle Deposition and Reentrainment, Abstracts of 6th International Aerosol Conference, Vol. 2, 1209-1210, Taipei, Taiwan (2002/9/8-13)

61)   Matsusaka, S., W. Theerachaisupakij and H. Masuda; Particle Reentrainment by Drag and Aerosol Collision Abstracts of 6th International Aerosol Conference, Vol. 2, 129-130, Taipei, Taiwan (2002/9/8-13)

62)   Matsusaka, S., and H. Masuda; Theoretical Analysis of Electrostatic repulsive Forces between Coated Particles in Gaseous Systems, The Fourth World Congress on Particle Technology, 455 in CD-ROM, Sydney, Australia (2002/7/21-25)

63)   Matsusaka, S., H. Umemoto, M. Nishitani and H. Masuda; Analysis of Electrostatic Charge Distribution of Fine Particles in Gas–Solids Pipe Flow, The Fourth World Congress on Particle Technology, 452 in CD-ROM, Sydney, Australia (2002/7/21-25)

64)   Matsusaka, S. and H. Masuda; Adhesive Strength Distribution of Particles Deposited on a Wall Surface, European aerosol Conference, J. Aerosol Sci. 32, Suppl. 1, s937-s938, Leipzig (2001/9/3-7)

65)   Theerachaisupakij, W., S. Matsusaka, and H. Masuda; Simultaneous phenomenon of particle deposition and reentrainment in a vibrating Wall, European aerosol Conference, J. Aerosol Sci. 32, Suppl. 1, s935-s936 Leipzig (2001/9/3-7)

66)   Theerachaisupakij, W., Matsusaka, S., H. Yoshida and H. Masuda; Simultaneous Phenomenon of Particle Deposition and Reentrainment in a Turbulent Aerosol Flow -Formation of Deposition Layer for Micron and Sub-micron Particles, Proceedings of First Asian Particle Technology Symposium, 125, Bangkok Thailand (2000/12/13-15)

67)   Matsusaka, S., M. Ghadiri and H. Masuda; Impact Electrification between an Elastic Sphere and a Metal Plate, Proceedings of IEJ-ESA Joint Symposium on Electrostatics, 193-202, Kyoto (2000/9/25-26)

68)   Masuda, H. and S. Matsusaka; Electrostatic Measurement of Powder Flow Rate in Gas–Solids Pipe Flow, Proceedings of the Fifth International Conference on Measurement and Control of Granular Materials (MCGM 2000), Northeastern University Press, 1-4, Xi'an (2000/8/21-23)

69)   Masuda, H., S. Matsusaka and I. Adhiwidjaja; Simultaneous Phenomenon of Particle Deposition and Reentrainment, Proceedings of European aerosol Conference, J. Aerosol Sci. 30, Suppl. 1, s405-s406, Prague (1999/9/6-10)

70)   Masuda, H. and S. Matsusaka; Agglomeration Behavior of Fine Particles on an Ultrasonically Vibrated Metal Plate, Proceedings of The Forth Italian Conference on Chemical and Process Engineering, Florence, 567-570 (1999/5/2-5)

71)   Matsusaka, S., M. Urakawa, M. Furutate and H. Masuda; Micro-feeding of Fine Powders using a Capillary Tube with Ultrasonic Vibration, Papers of Third World Congress on Particle Technology, 343 in CD-ROM, Brighton, UK (1998/7/7-9)

72)   Matsusaka, S., M. Koumura and H. Masuda; Analysis of Adhesive Force between Particle and Wall Based on Particle Reentrainment and Centrifugal Separation, Papers of Third World Congress on Particle Technology, 51 in CD-ROM, Brighton, UK (1998/7/7-9)

73)   Matsusaka, S. and H. Masuda; Electrostatic Measurement of Powder Flow Rate, AIChE Annual Meeting, 188d, Chicago (1996/11/10-15)

74)   Matsusaka, S. and H. Masuda; Particle Reentrainment from a Fine-Powder Layer by a Turbulent Air Flow, Proceedings of Fourth International Aerosol Conference, Vol.1, 400-401, Los Angeles, California (1994/8/2-9/2)

75)   Matsusaka, S., S. Okanishi and H. Masuda; Reentrainment of Particles from Powder Bed in an Air-Flow Channel, Proceedings of Second World Congress Particle Technology, Part 2, 221-228, Kyoto (1990/9/19-22)

oE) Reviews

1)      Matsusaka; Advancements in Powder Characterization Methods and Developments in Advanced Powder Handling Technology, Funsai: The Micromeritics, No. 67, 22-33 (2024)

2)      Matsusaka, S, Y. Kudo and M. Yasuda; A New Perspective on Powder Flowability Evaluation Analysis Focused on Distribution of Basic Powder Properties, Journal of the Society of Powder Technology, Japan, 60, 9-15 (2023)

3)      Yanlin Zhao, Min Liu, Chi-Hwa Wang, Shuji Matsusaka, Jun Yao; Electrostatics of Granules and Granular Flows: A Review, Advanced Powder Technology, 34, 103895 (2023)

4)      Matsusaka, S and M. Shoyama; Charging of Particles using Electric Field and Its Application to Powder Handling Operations, Funsai: The Micromeritics, No. 65, 3-10 (2022)

5)      Matsusaka, S; Review of “JIS Z 8845: 2021 Determination of particle adhesion force by centrifugal method”, Funtai Gijutsu (Powder Technology), 13, 454-457 (2021)

6)      Shoyama, M. and S. Matsusaka; Agglomeration and Dispersion Related to Particle Charging in Electric Fields, KONA Powder and Particle Journal, 38, 82-93 (2021)

7)      Matsusaka, S (Translator), M. Ghadiri et al. (Authors); Rheometry of Cohesive Powder Flow, Funsai: The Micromeritics, No. 63, 3-12 (2020)

8)      Matsusaka, S; Control of Particle Charge by Atmospheric Pressure Plasma Jet (APPJ): A Review, Advanced Powder Technology, 30, 2851-2858 (2019)

9)      Matsusaka, S; Elucidation of Particle Behavior under External Vibration and Development of Devices to Improve Flowability ‒Effective Use of Bubbles and Convection Rolls Formed in a Fine-Powder Bed‒, Journal of the Society of Powder Technology, Japan, 56, 621-629 (2019)

10)   Matsusaka, S; Micro-feeding of Fine Powders ‒Mechanism of Vibration Shear Flow and Embodiment‒, Funtai Gijutsu (Powder Technology) , 11, 561-564 (2019)

11)   Ishida, N. and S. Matsusaka; Effects of Surface Deformation, Geometry and Roughness on Forces, Journal of the Society of Powder Technology, Japan, 55, 208-211 (2018)

12)   Ishida, N. and S. Matsusaka; Interactions in Liquids, Journal of the Society of Powder Technology, Japan, 55, 104-112 (2018)

13)   Matsusaka, S., N. Ishida and T. Matsuyama; Interactions in Gases, Journal of the Society of Powder Technology, Japan, 54, 739-743 (2017)

14)   Kobayakawa, M. and S. Matsusaka; Analysis of vibratory conveying of fine particles, Kagaku Kogaku Ronbunshu, 41, 285-292 (2015)

15)   Matsusaka, S; Surface Modification of Particles and Its Effects, Journal of the Imaging Society of Japan, 54, 124-132 (2015)

16)   Matsusaka, S; Techniques for Measurement of Powder Properties, Kogyo Zairyo (Engineering Materials), 61 (10), 52-57 (2013)

17)   Liu, Y-H. and S. Matsusaka; Formation of Dry Ice Particles and Their Application to Surface Cleaning, Earozoru Kenkyu, 28, 155-162 (2012)

18)   Matsusaka, S; Fundamentals and Applications of Particle Electrostatic Charging, Journal of the Institute of Electrostatics Japan, 36, 308-313 (2012)

19)   Matsusaka, S; Powder Characterization–Adhesion, Flowability and Tribocharging Properties, Pharm Tech Japan, 28, 2327-2333 (2012)

20)   Matsusaka, S; Control of Particle Tribocharging, KONA Powder and Particle Journal, No.29, 27-38 (2011)

21)   Matsusaka, S; Fundamentals of Static Electricity and Its Applications, Funtai Gijutsu, 3 (12), 15-19 (2011)

22)   Matsusaka S., H. Maruyama, T. Matsuyama, M. Ghadiri; Triboelectric Charging of Powders: A review, Chemical Engineering Science, 65, 5781-5807 (2010)

23)   Matsusaka S.; A method for Transporting Powder and Preventing Deposition using AC Electric Field, Journal of Japan Powder Coating Association, 10 (4), 64-65 (2010)

24)   Matsusaka S; Flowability Tests for Powders, Journal of the Society of Powder Technology, Japan, 47, 545-553 (2010)

25)   Matsusaka S. and T. Iwamatsu; A Novel Charge Spectrometer for Fine Particles, Powder Science Engineering, 40 (10), 63-68 (2008)

26)   Matsusaka S.; Measurements of Powder Flowability, Journal of the Imaging Society of Japan, 46, 472-477 (2007)

27)   Matsusaka S. and H. Masuda; A New Approach for Evaluating Powder Characteristics, Powder Science Engineering, 38 (6), 28-34 (2006)

28)   Matsusaka S. and H. Masuda; Simultaneous Measurement of Mass Flow Rate and Charge-to-Mass Ratio of Particles in Gas–Solids pipe flow, Chemical Engineering Science, 61, 2254-2261 (2006)

29)   Matsusaka S. and H. Masuda; Contact Charging of Particles, Journal of the Society of Powder Technology, Japan, 43, 104-114 (2006)

30)   Matsusaka, S; Electrification and Dynamic Behavior of Particles Dispersed in Air, Journal of the Institute of Electrostatics Japan, 27, 216-220 (2003)

31)   Matsusaka, S. and H. Masuda; Electrostatics of Particles, Advanced Powder Technology, 14, 143-166 (2003)

32)   Ghadiri, M., R., Moreno and S. Matsusaka; Impact Damage Analysis of Agglomerates by Distinct Element Method, Journal of the Society of Powder Technology, Japan, 39, 885-892 (2002)

33)   Matsusaka, S. and H. Masuda; Simultaneous Phenomenon of Particle Deposition and Reentrainment –Formation of Particle Layer in Gas–Solids Pipe Flow, Journal of the Society of Powder Technology, Japan, 38, 866-875 (2001)

34)   Matsusaka, S; Particle Electrification in Gas–Solids Pipe Flow and Its Application, Journal of the Institute of Electrostatics Japan, 23, 61-67 (1999)

35)   Masuda, H. and S. Matsusaka; Control in Gas–Solids System, Kagaku Kogaku, 61, 255-257 (1997)

36)   Masuda, H., S. Matsusaka, and T. Itakura; Measurement of Electrostatic Property and Its Application, Kagaku Kogaku Symposium Series, 56, 212-221 (1997)

37)   Matsusaka, S. and H. Masuda; Micro-feeding of Fine Powder Based on Vibrating Capillary Method, Chemical Engineering, 41, 780-787 (1996)

38)   Matsusaka, S. and H. Masuda; Particle Reentrainment from a Fine Powder Layer in a Turbulent Air Flow, Aerosol Science and Technology, 24, 69-84 (1996)

39)   Matsusaka, S. and H. Masuda; A New Method for Measurement of Powder Flow Rate Based on Static-electrification, Funsai: The Micromeritics, No. 39, 92-99 (1995)

40)   Matsusaka, S. and H. Masuda; Measurement of Powder Flow Rate using Resonance Vibration, Chemical Engineering, 37, 508-513 (1992)

41)   Matsusaka, S. and H. Masuda; Reentrainment Phenomena of Fine Particles, Journal of the Society of Powder Technology, Japan, 29, 530-538 (1992)

oF) Books

1)      H. Masuda and S. Matsusaka, S.; 5. Powder/Particle Handling and Separation, Modern Chemical Engineering (Gendai Kagaku Kogaku), Expanded Edition, K. Hashimoto and F. Ogino (Eds), Sangyo Tosho, Tokyo (2021)

2)      Matsusaka, S.; 2.2 Electrification and Electrophoresis; 2.7 Adhesive Force of a Single Particle; 2.8 Particle Deposition and Reentrainment; 4.5 Electrical Charge Control; 5.5 Feeding; 6.3 Concentration and Flow Rate Measurement; 6.4 Level Measurement of Powder Bed, Powder Technology Handbook, 4th ed., K. Higashitani, H. Makino, S. Matsusaka (Eds), CRC Press (2020)

3)      Matsusaka, S.; 2. Mechanical Properties and Applications of Powder and Particulates, Powder and Particulate Handling Technology, The Association of Powder Process Industry and Engineering, JAPAN (Eds) (2018)

4)      Matsusaka, S.; Pocketbook of Powder Technology Terminology, The Association of Powder Process Industry and Engineering, JAPAN (Eds), Nikkan Kogyo, Tokyo (2017)

5)      Matsusaka, S.; 2.2.1 Inter-particle Adhesion Forces in Gases, 2.5.1 Particle Size Distribution Measurement Method, In Kiso Funtai Kogaku (Fundamentals of Powder Technology), J. Hidaka, H. Kamiya (Eds), Nikkan Kogyo, Tokyo (2014)

6)      Matsusaka, S.; 1.8 Inter-particle Adhesion Forces, 2.2.3 Deposition and reentrainment, 2.20 Flowability, 3.16 Feeding, 4.8 Electrostatics, In Funtai Kogaku Handbook (Handbook of Powder Technology), Society of Powder Technology, Japan (Eds), Asakura (2014)

7)      Matsusaka, S.; 4.4.6 Solid–Liquid, Solid–Gas Separation, In Kagaku Binran (Handbook of Chemistry), Applied Chemistry 7th ed., Chemical Society of Japan (Eds), Maruzen (2014)

8)      Matsusaka, S.; 13 Powder Transportation and Separation, In Kagaku Kogaku Benran (Handbook of Chemical Engineering), 7th ed., Kagaku Kogakkai (Eds), Maruzen (2011)

9)      Matsusaka, S.; 16.1 Particle Size, Circularity, and Charge Distribution, Fundamentals of Powder Technology, M. Naito, H. Makino (Eds), Kogyochosakai (2010); Morikita Publishing (2011)

10)   Matsusaka, S.; 3.5.1.1 Interactions between Particles in Gases and Control of Adhesion, Nanoparticle Technology Handbook, M. Hosokawa, K. Nogi, M. Naito, T. Yokoyama (Eds), Elsevier (2007)

11)   Matsusaka, S.; 2.5 Particle Electrification and Electrophoresis; 2.6 Adhesive Force of a Single Particle; 2.7 Particle Deposition and Reentrainment; 4.6 Electrical Charge Control, Powder Technology: Fundamentals of Particles, Powder Beds, and Particle Generation, H. Masuda, K. Higashitani, H. Yoshida (Eds), CRC Press (2007)

12)   Matsusaka, S., H. Masuda; Part 2, Chapter 5 Charge Distribution, Part 3, Chapter 1 Feeding, Dispersion and Classification, Development and Processing Technology of New Function Corpuscle Materials. Jusuke Hidaka (Ed), CMC Publishing (2006), Popular Edition (2012)

13)   Matsusaka, S.; 3.5.1. Van der Waals Force, Liquid Bridge Force, in Nano-particle Technology Handbook, Masuo Hosokawa (Ed), Nikkan Kogyo, Tokyo (2006)

14)   Matsusaka, S.; 2.5 Particle Electrification and Electrophoresis; 2.6 Adhesive Force of a Single Particle; 2.7 Particle Deposition and Reentrainment; 4.6 Electrical Charge Control; 5.4 Feeding; 6.3 Concentration and Flow Rate Measurement; 6.4 Level Measurement of a Powder Bed, Powder Technology Handbook, 3rd ed. H. Masuda, K. Higashitani, H. Yoshida (Eds), CRC Press (2006)

15)   Matsusaka, S.; 7. Mechanical Property, 11. Electrical Property, 12. Interaction between Particles, 13. Sampling, in Funtai Kogaku Sosho 1 (Funtai no Kiso Bussei) (Powder Technology Series (Basic Properties of Powder), 4.8 Origin of Adhesion and Its Evaluation, Nikkan Kogyo, Tokyo (2005)

16)   Matsusaka, S.; Sentan Funsai Gizyutsu to Ouyou (Advanced Grinding Technology and Its Application), 4.8 Origin of Adhesion and Its Evaluation, APPIE (Ed), NGT, Tokyo (2005)

17)   Matsusaka, S.; Kagaku Kogaku Jiten (Dictionary of Chemical Engineering), 4th ed., Kagaku Kogakkai (Eds), Maruzen (2005)

18)   Matsusaka, S; Glossary of Aerosol Science, Japan Association of Aerosol Science and Technology (Eds), Kyoto University Press, Kyoto (2004)

19)   Matsusaka, S. and H. Masuda; Engineering System for Fine particles, Funtai Kogakkai and Seizai to Ryushi Sekkeibukai (Ed), Jihou, Tokyo (2003)

20)   Matsusaka, S.; Engineering System for Fine particles, H. Yanagida (Ed), Fuji Technosystem, Tokyo (2001)

21)   Matsusaka, S.; Terminology Dictionary of Powder Technology, Funtai Kogakkai (Eds), 2nd ed., Nikkan Kogyo, Tokyo (2000)

22)   Matsusaka, S.; 4.2.4 Turbulent Deposition, 4.3 Particle Reentrainment, in Funtai Kogaku Benran, Funtai Kogakkai (Eds), 2nd ed., Nikkan Kogyo, Tokyo (1998)

23)   Masuda, H. and S. Matsusaka; II.7 Particle deposition and reentrainment, In Powder Technology Handbook, K. Gotoh, H. Masuda, K. Higashitani (Eds), 2nd ed., Marcel Dekker, New York (1997)

oG) Standards

1)      JIS Z8845: 2021, Determination of particle adhesion force by centrifugal method

2)      JIS Z8844: 2019, Test method of fracture and deformation strength of a fine particle

3)      JIS Z8835: 2016, Direct shear testing method for critical state line (CSL) and wall yield locus (WYL) of powder bed

oH) Patents

1)      Fine Particle Dispersion and Feeding Device, 2015-162312, Jpn (2015.8.19), 2017-039087, Jpn (2017.2.23)

2)      Flowability evaluation method for ferrite carrier core material for electrophotographic developer and ferrite carrier, 2015-070261, Jpn (2015.3.30), 2016-191736, Jpn (2016.11.10)

3)      Particle Charge Measurement Method and Measurement Device, 2012-152071, Jpn (2012.7.6), 2014-16178 (2014.1.30)

4)      Powdery/Granular Material Flowability Evaluation Apparatus and Method, 12/706,144 (2010.2.16), US Patent 2010/0153028A1 (2010.6.17), US Patent US8, 087, 314 B2 (2012.1.3)

5)      Flowability Evaluation Apparatus and Flowability Measurement Method 2009-207263, Jpn (2009.9.8), 2011-58885 (2011.3.24)

6)      Method and Apparatus for Powder Transfer 2009-145043, Jpn (2009.6.18), 2011-1161 (2011.1.6)

7)      Flowability Evaluation Apparatus and Flowability Measurement Method 2009-128499, Jpn (2009.5.28), 2010-276436 (2010.12.9)

8)      Tonar Adhesive Strength Distribution Measurement Device and Method 2009-124662, Jpn (2009.5.22), 2010-105664, Jpn (2010.4.30), 2011-8231 (2011.1.13)

9)      Powderly/Granular Material Charging Device 2009-33988, Jpn (2009.2.17), 2010-188257 (2010.9.2)

10)   Powderly/Granular Material Flowability Evaluation Apparatus and Method 2008-286339, Jpn (2008.11.10), 2010-11286 (2010.5.20)

11)   Powderly/Granular Material Flowability Evaluation Apparatus and Method, 11/918,901 (2007.10.19), US 2009/0078029 A1, USA (2009.3.26), US Patent US7, 784, 370 B2 (2010.8.31)

12)   Apparatus for measurement of Particle Charge Distribution and Method 2007-134808, Jpn (2007.5.21), 2008-131911 (2008.5.20), 2009-2941 (2009.1.8)

13)   Powder feeder 2007-62280, Jpn (2007.3.12), 2008-221116 (2008.9.25)

14)   Vorrichtung und Verfahren zum Bestimmen der Fliessfahigkeit von pulverformigem/kornerformigem, 11 2006 000 972, Germany (2008.3.6)

15)   Powderly/Granular Material Fluidity Evaluating Device and Method 2007-514628, Jpn (2007.9.3), 4899063 (2012.1.13)

16)   Sampler for Sampling Charged Particles, and Apparatus for Measuring Charge Distribution of the Charged Particles, 11/439,413 (2006.5.22), 2006/0283270 A1, USA (2006.12.21), US Patent US 7530279 B2 (2009.5.12)

17)   Sampler for Sampling Charged Particles and Its Method 2006-253158, Jpn (2006.9.19), 2008-76109 (2008.4.3)

18)   Powderly/Granular Material Fluidity Evaluating Device and Method 95114114, Taiwan (2006.4.20) 200643397, Taiwan (2006.12.16)

19)   Particle Charging Controlling Device and Method Taiwan 95114117 (2006.4.20), 200706238 (2007.2.16)

20)   Powderly/Granular Material Fluidity Evaluating Device and Method PCT/JP2006/308223 (2006.4.19), WO2006/115145 (2006.11.2)

21)   Sampler for Sampling Charged Particles, and Apparatus for Measuring Particles 2005-149567 (2005.5.23). 2006-142817 (2006.5.23), 2007-3513 (2007/1/11)

22)   Particle Charging Controlling Device and Method PCT/JP2006/308122 (2006.4.18), WO2006/115122 (2006.11.2)

23)   Apparatus for measurement of Particle Charge Distribution 2004-201928, Jpn (2004.7.8), 2005-149566 (2005.5.23), 2006-47281 (2006.2.16), 4568171 (2010.8.13)

24)   Prevention Method for Fine Particle Adhesion 2002-202952, Jpn (2002.7.11), 2004-041926 (2004.2.12)

25)   Method and Apparatus for Fine Powder Feeding H7-103274, Jpn (1995.4.27), H08-033839 (1996.2.6)

oI) International Organizer

1)      Committee of IMFTF 2021, Online, Beijing, China (2022)

2)      Scientific Committee of PARTEC 2019, Nuremberg, Germany (2019/4/9-11)

3)      ICCCI 2018 Organizing Committee of the Sixth International Conference on the Characterization and Control of Interfaces for High Quality Advanced Materials, Kurashiki (2018/7/9-12)

4)      Program Area Chair of  8th World Congress on Particle Technology, Orlando, FL, US (2018/4/22-26)

5)      Vice President of 2016 High Level Academic Symposium on Measurement and Control of Granular Materials MCGM, Beijing, China (2016/11/18-21)

6)      ICCCI 2015 Organizing Committee for the Fifth International Conference on the Characterization and Control of Interfaces for High Quality Advanced Materials, Kurashiki (2015/7/7-10)

7)      NEPTIS-23 Nisshin Engineering Particle Technology International Seminar, Tokyo (2014. 12. 19)

8)      Vice President for 10th International Conference on Measurement and Control of Granular Materials MCGM, Shanghai, China (2014.10, 24-26)

9)      Vice President for 9th International Conference on Measurement and Control of Granular Materials MCGM, Shanghai, China (2011.10, 27-29)

10)   Vice President for 8th International Conference on Measurement and Control of Granular Materials MCGM, Shenyang, China (2009.8-24-26)

11)   Local Organization Committee for 3rd International Workshop on Process Tomography (IWPT-3), Tokyo, Japan (2009. 4.17-19)

12)   Programming Committee for 7th International Conference on Measurement and Control of Granular Materials MCGM (2006.8-26-28)

13)   Twelfth Nisshin Engineering Particle Technology International Symposium, Chemical Engineering Science, Vol. 61, 2191-2311 (2006)

14)   Theory and Application of Particle Charging, NEPTIS-XII Nisshin Engineering Particle Technology International Seminar, Awaji (2003. 11.30-12. 1)

15)   Electrostatic Phenomena in Particulate Processes, Powder Technology, Vol. 135-136, 1-374 (2003)

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For more information contact Shuji MATSUSAKA
E-mail : matsu@cheme.kyoto-u.ac.jp