Koji Uenishi --List of Publications--

Publications

Koji Uenishi --List of Publications--

[Books] [Journal Papers] [Papers in Proceedings] [Abstracts] [Reports]

Papers with this icon can be downloaded.

	Papers with this icon can be downloaded.

Books

[1]	Handbook of Blast Engineering (2001). 572pp., Kyoritsu Shuppan, Tokyo, Japan (co-authored; in Japanese; ISBN: 4-320-08866-2).
[2]	Seismology: Quantitative Approach (Translation of "Quantitative Seismology Second Edition" by K. Aki and P.G. Richards) (2004; Second impression: 2008). 944pp., Kokon Shoin, Tokyo, Japan (joint translation by K. Uenishi, N. Kame, and H. Aochi; in Japanese; ISBN: 4-7722-4052-7).
[3]	Glossary of Geotechnical Terms (2006). 661pp., The Japanese Geotechnical Society, Tokyo, Japan (co-authored; in Japanese; ISBN: 4-88644-073-8).
[4]	Geomaterial Testing: Methods and Descriptions (2009). 1190pp., The Japanese Geotechnical Society, Tokyo, Japan (co-authored; in Japanese; ISBN: 978-4-88644-083-9).

Shioya, T., and K. Uenishi (1994). A Molecular Dynamics Simulation for Atomic Oxygen Effects on Carbon Based Materials in Space. J. Japan Soc. Aeronautical & Space Sci., 42(486), 436-443 (in Japanese).

[2]

Rossmanith, H.P., and K. Uenishi (1997). Post-Blast Bench Block Stability Assessment. Int. J. Rock Mech. & Min. Sci., 34:3-4, 264.e1 - 264.e11.

[3]

Rossmanith, H.P., K. Uenishi, and N. Kouzniak (1997). Blast Wave Propagation in Rock Mass - Part I: Monolithic Medium. Fragblast, 1(3), 317-359.

[4]

Rossmanith, H.P., A. Daehnke, R.E. Knasmillner, N. Kouzniak, M. Ohtsu, and K. Uenishi (1997). Fracture Mechanics Applications to Drilling and Blasting. Fatigue Fract. Engng Mater. Struct., 20(11), 1617-1636.

[5]

Uenishi, K., and H.P. Rossmanith (1998). Blast Wave Propagation in Rock Mass - Part II: Layered Media. Fragblast, 2(1), 39-77.

[6]

Rossmanith, H.P., K. Uenishi, N. Kouzniak, and A. Daehnke (1998). The Role of Velocity of Detonation in Fragmentation Network Development. Felsbau, 16(5), 335-339.

[7]

Rossmanith, H.P., K. Uenishi, N. Kouzniak, and A. Daehnke (1998). Der Einfluss der Detonationsgeschwindigkeit auf das dynamische Verhalten des Gebirges und die Bruchnetzentwicklung. Spreng Info, 2/1998, 27-33 (in German).

[8]

Uenishi, K., and H.P. Rossmanith (1998). The Relation between Stress and Particle Velocity for Rayleigh Pulses. Acta Mech., 131(3-4), 247-253.

[9]


	Uenishi, K., H.P. Rossmanith, and A.E. Scheidegger (1999). Rayleigh Pulse - Dynamic Triggering of Fault Slip. Bull. Seism. Soc. Am., 89(5), 1296-1312.

[10]

Uenishi, K., and H.P. Rossmanith (1999). Pulse-Induced Slip of a Plane of Weakness. Journal of Geotechnical Engineering, 638/III-49, 363-369 (in Japanese).

[11]


	Uenishi, K., and S. Sakurai (2000). Characteristic of the Vertical Seismic Waves Associated with the 1995 Hyogo-ken Nanbu (Kobe), Japan Earthquake Estimated from the Failure of the Daikai Underground Station. Earthquake Eng. Struct. Dyn., 29(6), 813-821.

[12]

Uenishi, K., H.P. Rossmanith, and N. Kouzniak (2000). The Effect of Velocity and Direction of Detonation on the Dynamic Behavior of the Rock Mass in the Vicinity of a Borehole. Journal of the Japan Explosives Society, 61(6) [316], 254-259 (in Japanese).

[13]

Rossmanith, H.P., and K. Uenishi (2000). Education in Blasting Engineering: One-Dimensional Block Model for Bench Blasting. Fragblast, 4(3-4), 208-237.

[14]

Rossmanith, H.P., and K. Uenishi (2002). Education in Blasting Engineering: One-Dimensional Block Model for Bench Blasting (Part 2). Fragblast, 6(1), 36-67.

[15]

	Uenishi, K., and H.P. Rossmanith (2002). Stability of Dynamically Propagating Cracks in Brittle Materials. Acta Mech., 156(3-4), 179-192.

[16]


	Uenishi, K., and J. R. Rice (2003). Universal Nucleation Length for Slip-Weakening Rupture Instability under Nonuniform Fault Loading. J. Geophys. Res., 108(B1), cn:2042, doi:10.1029/2001JB001681, pp. ESE 17-1 to 17-14, January 2003.

[17]

Uenishi, K., and H.P. Rossmanith (2003). Optical Methods in Fault Dynamics. Opt. Laser. Eng., 40(4), 325-339.

[18]

Rossmanith, H.P., V. Arsic-Hochholdinger, and K. Uenishi (2004). On Size and Boundary Effects in Scaled Model Blasts. Science and Technology of Energetic Materials, 65(2), 40-47.

[19]

Rossmanith, H.P., V. Hochholdinger-Arsic, and K. Uenishi (2005). Understanding Size and Boundary Effects in Scaled Model Blasts - Plane Problems. Fragblast, 9(2), 93-125.

[20]

Rossmanith, H.P., and K. Uenishi (2005). On Size and Boundary Effects in Scaled Model Blasts - Spatial Problems. Fragblast, 9(3), 139-174.

[21]

Rossmanith, H.P., and K. Uenishi (2006). The Mechanics of Spall Fracture in Rock and Concrete. Fragblast, 10(3-4), 111-162.

[22]

Rossmanith, H.P., and K. Uenishi (2006). On Size and Boundary Effects in Scaled Model Blasts - Fractures and Fragmentation Patterns. Fragblast, 10(3-4), 163-211.

[23]

Uenishi, K., and S. Sakurai (2008). Recent Developments in Rock Mechanics as Applied to Earthquake Dynamics. Geomechanik und Tunnelbau (Geomechanics and Tunnelling), 1(5), 368-373.

[24]


	Rice, J. R., and K. Uenishi (2010). Rupture Nucleation on an Interface with a Power-Law Relation between Stress and Displacement Discontinuity. Int. J. Fract., 163(1-2), 1-13.

[25]

Uenishi, K. (2010). On a Possible Role of Rayleigh Surface Waves in Dynamic Slope Failures. Int. J. Geomech., 10(4), 153-160.

[26]

	Uenishi, K. (2010). The Town Effect: Dynamic Interaction between a Group of Structures and Waves in the Ground. Rock Mechanics and Rock Engineering, 43(6), 811-819.

[27]

Uenishi, K., H. Takahashi, H. Yamachi, and S. Sakurai (2010). PC-Based Simulations of Blasting Demolition of RC Structures. Construction and Building Materials, 24(12), 2401-2410.

[28]

Uenishi, K., T. Shioya, and K. Fujimoto (2010). Effect of Surface Geometry of Substrate on Thermal Stress of Coating. Applied Plasma Science, 18(2), 152-158 (in Japanese).

[29]

Uenishi, K. (2012). Elastodynamic Analysis of Underground Structural Failures Induced by Seismic Body Waves. ASME J. Appl. Mech., 79(3), 031014-1 - 031014-10 (Erratum).

[30]

Uenishi, K. (2012). Experimental Study on the Supersonic Crack Propagation in a Hyperelastic Rubber Material. Transactions of the Japan Society of Mechanical Engineers, A, 78(789), 628-631 (in Japanese).

[31]

Fujimoto, K., N. Hashimoto, M. Sekine, and K. Uenishi (2013). Cracking of Zirconia Coating Fabricated by Plasma Technique due to Equi-Biaxial Tension. Frontier of Applied Plasma Technology, 6(2), 87-90.

[32]

Uenishi, K. (2013). "Unexpected" Failure Patterns and Dynamic Collective Behaviour of an Assembly of Buildings Subjected to Horizontal Impact. Engineering Failure Analysis, 35, 125-132.

[33]

Uenishi, K., and S. Sakurai (2014). The Generation of Seaquakes and Its Impact on Floating Bodies. International Journal of Protective Structures, 5(2), 207-218.

[34]

Uenishi, K. (2014) Dynamic Interface Fracture in a Stratified Geological Medium Accompanied by Primary Fault Rupture Propagation. Procedia Materials Sciences, 3, 505-510.

[35]

Uenishi, K., H. Yamachi, K. Yamagami, and R. Sakamoto (2014). Dynamic Fragmentation of Concrete Using Electric Discharge Impulses. Construction and Building Materials, 67(B), 170-179.

[36]

Uenishi, K., and S. Sakurai (2015). Dynamic Tensile Cracking in Slopes Possibly Induced by Rayleigh Surface Waves. Geomechanics and Geoengineering: An International Journal, 10(3), 212-222.

[37]

Uenishi, K. (2015). Dynamic Dip-Slip Fault Rupture in a Layered Geological Medium: Broken Symmetry of Seismic Motion. Engineering Failure Analysis, 58(2), 380-393.

[38]

Uenishi, K., N. Shigeno, S. Sakaguchi, H. Yamachi, and J. Nakamori (2016). Controlled Disintegration of Reinforced Concrete Blocks Based on Wave and Fracture Dynamics. Procedia Structural Integrity, 2, 350-357.

[39]

Uenishi, K. (2017). Rupture, Waves and Earthquakes. Proc. Jpn. Acad., Ser. B, 93(1), 28-49.

[40]

Uenishi, K. (2018). Physics of Earthquake Disaster: From Crustal Rupture to Building Collapse. Annu. Rev. Earth Planet. Sci., 46, 387-408.

[41]

Uenishi, K. (2018). Three-Dimensional Fracture Instability of a Displacement-Weakening Planar Interface under Locally Peaked Nonuniform Loading. J. Mech. Phys. Solids, 115, 195-207.

[42]

Uenishi, K., S. Sakaguchi, N. Shigeno, H. Yamachi, and J. Nakamori (2018). Controlled Fracture of Brittle Solid Materials Based on Wave Dynamics. Procedia Structural Integrity, 13, 652-657.

[43]

Uenishi, K., T. Yoshida, I.R. Ionescu, and K. Suzuki (2018). Dynamic Fragmentation of Ice Spheres: Two Specific Fracture Patterns. Procedia Structural Integrity, 13, 670-675.

[44]

Uenishi, K., and T. Goji (2018). Dynamic Fracture and Wave Propagation in a Granular Medium: A Photoelastic Study. Procedia Structural Integrity, 13, 769-774.

[45]

Gomez, Q., K. Uenishi, and I.R. Ionescu (2020). Quasi-Static versus Dynamic Stability Associated with Local Damage Models. Engineering Failure Analysis, 111, 104476, 16 pages.

[46]

Uenishi, K., Y. Fukuda, and K. Nagasawa (2020). Dynamic Fracture Development in a Multiply Cracked Solid. Procedia Structural Integrity, 28, 2072-2077.

[47]

Uenishi, K. (2021). Overlooked Mechanisms behind Seismic Damage. Physics Today, 74(1), 34-40.

[48]

Uenishi, K. (2021). Erratum: "Elastodynamic Analysis of Underground Structural Failures Induced by Seismic Body Waves" [ASME Journal of Applied Mechanics, 79(3), p. 031014; DOI: 10.1115/1.4005888]. J. Appl. Mech., 88(2), 027001 (1 page), Paper No: JAM-20-1601.

[49]

Uenishi, K. (2021). Unexpected, Mystifying but Simple Three-Dimensional Dynamic Fracture Phenomena. Phil. Trans. R. Soc. A, 379, 20200123 (14 pages).

[50]

Uenishi, K. (2021). Dynamics of Dip-Slip Fault Rupture. IOP Conference Series: Earth and Environmental Science, 861, 042085, 8 pages (Invited).

[51]

Takahashi, Y., S. Kubota, T. Saburi, Y. Ogata, H. Yamachi, J. Nakamori, and K. Uenishi (2021). Behavior of Liquid Energetic Materials under the Application of Pulsed Wire Discharge. Science and Technology of Energetic Materials, 82(6), 161-169.

[52]

Uenishi, K., and K. Nagasawa (2022). Global and Local Fracture Behavior in a Brittle Solid with a Set of Pre-Existing Small-Scale Cracks. Procedia Structural Integrity, 37, 397-403.

[53]

Uenishi, K., and D. Xi (2022). The Effect of Confinement and Material Heterogeneities on the Dynamics of a Granular Medium Subjected to Impact Loading. Procedia Structural Integrity, 37, 404-409.

[54]

Uenishi, K., H. Yamachi, and J. Nakamori (2022). Precise Dynamic Disintegration of Concrete Structures by Controlling Wave Motion. Procedia Structural Integrity, 42, 755-761.

[55]

Uenishi, K., K. Wada, H. Yamachi, and J. Nakamori (2023). Precisely Controlled Dynamic Disintegration of Steel-Concrete Composite Structures. Procedia Structural Integrity, 46, 136-142.

[56]

Uenishi, K., and K. Nagasawa (2023). Brittle Fracture Development through Sets of Preexisting Small-Scale Cracks under Quasi-Static and Dynamic Impact Loading. Mechanics of Advanced Materials and Structures, 30(18), 3710-3720.

[57]

Uenishi, K., H. Yamachi, and J. Nakamori (2024). On Typical Inhomogeneities Controlling Dynamic Disintegration of Concrete Structures. Eng. Fract. Mech., 298, Article Number 109945, 11 pages.

[58]

Uenishi, K. (2024). Towards Detecting the Strong Vertical Shock Induced by a Shallow Earthquake. Procedia Structural Integrity, 54, 67-74.

Papers in Conference Proceedings

[1]	Rossmanith, H.P., K. Groschupf, R.E. Knasmillner, and K. Uenishi (1994). Numerical Simulation of Stress Wave Interaction with Cracks in Layered Rock. In: Rock Mechanics: Models and Measurements; Challenges from Industry (P.P. Nelson and S.E. Laubach [editors]), pp.697-703, A.A.Balkema, Rotterdam, The Netherlands.
[2]	Rossmanith, H.P., R.E. Knasmillner, K. Uenishi, and L. Mishnaevsky Jr. (1994). Towards Smart Mining Machinery: Mechanics in the Service of Mining. In: Proceedings of the Second International Conference on Materials Engineering for Resources (ICMR '94 Akita, Akita, Japan, 19-22 October 1994), pp.119-128, The Society of Materials Engineering for Resources of Japan, Mining College, and Research Institute of Natural Resources Attached to Mining College, Akita University, Akita, Japan.
[3]	Shioya, T., and K. Uenishi (1995). An Idea of Reducing Thermal Stress Induced in Oxidation-Protective Layers Coated on Materials for Aerospace Application. In: Proceedings of the 35th Conference on Aerospace Propulsion (Kyoto, Japan, 22-23 March 1995), pp.321-326, The Japan Society for Aeronautical and Space Sciences, The Japan Society of Mechanical Engineers, Gas Turbine Society of Japan and Japan Aeronautical Engineers' Association, Tokyo, Japan (in Japanese).
[4]	Shioya, T., and K. Uenishi (1995). A Method of Thermal Stress Reduction in Oxidation-Protective Layers by Surface Geometry Modification. In: Proceedings of the 1995 Yokohama International Gas Turbine Congress (Yokohama, Japan, 22-27 October 1995), Vol. III, pp.93-98, Gas Turbine Society of Japan, Tokyo, Japan.
[5]	Rossmanith, H.P., L. Mishnaevsky Jr., R.E. Knasmillner, and K. Uenishi (1996). Dynamic Fracture and Damage of Rock during Impact. In: Constitutive Relation in High/Very High Strain Rates (K. Kawata and J. Shioiri [editors]), pp.193-200, Springer-Verlag, Tokyo, Japan.
[6]	Rossmanith, H.P., L. Mishnaevsky Jr., R.E. Knasmillner, and K. Uenishi (1996). Numerical Simulation of Dynamic Fracture and Damage of Rock during Impact. In: Numerical Methods in Engineering Simulation (M. Cerrolaza, C. Gajardo, and C.A. Brebbia [editors]), pp.147-154, Computational Mechanics Publications, Southampton, UK.
[7]	Rossmanith, H.P., R.E. Knasmillner, and K. Uenishi (1996). Dynamic Fracture and Damage of Rock during Impact. In: Rock Mechanics: Tools and Techniques (M. Aubertin, F. Hassani, and H. Mitri [editors]), pp.569-573, A.A.Balkema, Rotterdam, The Netherlands.
[8]	Rossmanith, H.P., R.E. Knasmillner, and K. Uenishi (1996). Slope-Instability due to Earthquake-Induced Rayleigh Wave Interaction with Canyons. In: Proceedings of the Eleventh World Conference on Earthquake Engineering (Acapulco, Mexico, 23-28 June 1996) (Sociedad Mexicana de Ingenieria Sismica, A.C. [ed.]), paper No.144, 7 pages, Elsevier Science, Oxford, UK.
[9]	Rossmanith, H.P., and K. Uenishi (1996). PC Software Assisted Teaching and Learning of Dynamic Fracture and Wave Propagation Phenomena. In: Teaching and Education in Fracture and Fatigue (H.P. Rossmanith [editor]), pp.253-262, E & FN Spon (Imprint of Chapman & Hall), London, UK.
[10]	Uenishi, K., H.P. Rossmanith, and R.E. Knasmillner (1997). Interaction of Rayleigh Pulse with Non-Uniformly Contacting Interfaces. In: Proceedings of the International Conference on Materials and Mechanics '97 (ICM&M '97, Tokyo, Japan, 20-22 July 1997), pp.95-100, The Japan Society of Mechanical Engineers, Tokyo, Japan.
[11]	Daehnke, A., H.P. Rossmanith, and K. Uenishi (1997). Physical and Numerical Modelling of Gas Pressure Induced Dynamic Fracture Propagation. In: Proceedings of the International Conference on Advanced Technology in Experimental Mechanics (ATEM '97, Wakayama, Japan, 25-26 July 1997), pp.283-288 The Japan Society of Mechanical Engineers, Tokyo, Japan.
[12]	Rossmanith, H.P., and K. Uenishi (1997). Fault Dynamics - Dynamic Triggering of Fault Slip. In: Rock Stress (K. Sugawara and Y. Obara [editors]), pp.27-34, A.A.Balkema, Rotterdam, The Netherlands.
[13]	Uenishi, K., A. Daehnke, and H.P. Rossmanith (1997). Some New Results on the Effect of Velocity of Detonation and Gas Pressurisation on Fragmentation in Layered Rock. In: Proceedings of the Seventh International Colloquium on Blasting and Explosives (Budapest, Hungary, 4-7 November 1997), 7 pages.
[14]	Uenishi, K., H.P. Rossmanith, R.E. Knasmillner, and C.J. Böswarth (1997). Rayleigh Pulse Interaction with Partially Contacting Dissimilar Interfaces. In: Damage and Failure of Interfaces (H.P. Rossmanith [editor]), pp.305-314, A.A.Balkema, Rotterdam, The Netherlands.
[15]	Rossmanith, H.P., A. Daehnke, N. Kouzniak, and K. Uenishi (1998). Recent Advances in the Effect of Velocity of Detonation and Gas Pressurization on Fragmentation in Layered Rock. In: Proceedings of the Twenty-fourth Annual Conference on Explosives and Blasting Technique (New Orleans, Louisiana, USA, 8-11 February 1998), pp.41-50, International Society of Explosives Engineers, Cleveland, USA.
[16]	Uenishi, K., H.P. Rossmanith, and R.E. Knasmillner (1998). Rayleigh Pulse-Induced Fault Slip: Model and Application. In: Mechanics of Jointed and Faulted Rock (H.P. Rossmanith [editor]), pp.249-254, A.A.Balkema, Rotterdam, The Netherlands.
[17]	Rossmanith, H.P., K. Uenishi, N. Kouzniak, A. Daehnke, R.E. Knasmillner, and C.J. Böswarth (1998). Application of Fracture Mechanics in the Mining and Quarrying Industry. In: Proceedings of the Third International Conference on Materials Engineering for Resources (ICMR '98 Akita, Akita, Japan, 26-28 October 1998), pp.89-96, The Society of Materials Engineering for Resources of Japan, Faculty of Engineering and Resource Science, Akita University, and the Research Institute of Materials and Resources, Akita University, Akita, Japan.
[18]	Uenishi, K., S. Sakurai, and S. Mizoguchi (1999). Theoretical Study on the Mechanical Properties of Underground Structures Subjected to Plane Wave Loading. In: Proceedings of the Annual Conference of Civil Engineers '99 (Kyoto, Japan, 22 May 1999), pp.III-1-1 - III-1-2, JSCE (The Japan Society of Civil Engineers) Kansai Chapter, Osaka, Japan (in Japanese).
[19]	Uenishi, K., and H.P. Rossmanith (1999). Dynamic Stability of Wedge-Type Blocks in Open Pit Mining. In: Proceedings of the 9th International Congress on Rock Mechanics (Paris, France, 25-28 August 1999) (G. Vouille and P. Berest [editors]), pp.1123-1126, A.A.Balkema, Rotterdam, The Netherlands.
[20]	Uenishi, K., S. Mizoguchi, and S. Sakurai (2000). Theoretical Study on the Mechanical Behavior of Underground Structures Subjected to Vertical Oscillations. In: Proceedings of the 30th Symposium on Rock Mechanics (Tokyo, Japan, 26-27 January 2000), pp.43-47, Committee of Rock Mechanics, The Japan Society of Civil Engineers, Tokyo, Japan (in Japanese).
[21]	Uenishi, K., and H.P. Rossmanith (2000). Dynamic Triggering of Fault Slip. In: Aspects of Tectonic Faulting (F.K. Lehner and J.L. Urai [editors]), pp.185-192, Springer-Verlag, Berlin/Heidelberg.
[22]	Uenishi, K., T. Gotoh, and S. Mizoguchi (2000). Theoretical Study on the Dynamic Behavior of Underground Structures with Small Overburden. In: Proceedings of the Annual Conference of Civil Engineers '00 (Suita, Japan, 5 June 2000), pp.III-12-1 - III-12-2, JSCE (The Japan Society of Civil Engineers) Kansai Chapter, Osaka, Japan (in Japanese).
[23]	Uenishi, K., S. Sakurai, and S. Yoshida (2000). Characteristics of Vertical Seismic Waves Estimated from the Dynamic Behavior of Underground Structures. In: Proceedings of the Annual Conference of Civil Engineers '00 (Suita, Japan, 5 June 2000), pp.III-13-1 - III-13-2, JSCE (The Japan Society of Civil Engineers) Kansai Chapter, Osaka, Japan (in Japanese).
[24]	Uenishi, K., and S. Sakurai (2001). Dynamic Failure of an Underground Structure: Could It be Induced by a Horizontal Disturbance? In: Rock Mechanics in the National Interest (D. Elsworth, J.P. Tinucci, and K.A. Heasley [editors]), pp.1107-1114, Swets & Zeitlinger B.V., Lisse, The Netherlands.
[25]	Uenishi, K., and S. Sakurai (2002). Earthquake-Induced Collapse of the Daikai Underground Station in Kobe: Evaluation of the Characteristics of the Associated Seismic Waves. In: Mining and Tunnelling Innovation and Opportunity (R. Hammah, W. Bawden, J. Curran, and M. Telesnicki [editors]), pp.767-774, University of Toronto Press, Toronto, Canada.
[26]	Uenishi, K., and S. Sakurai (2002). Failure of an Underground Structure: Was It due to Horizontal Oscillations? In: Proceedings of the Seventh U.S. National Conference on Earthquake Engineering (Boston, Massachusetts, USA, 21-25 July 2002), paper No.159, 10 pages, Earthquake Engineering Research Institute, Oakland, California, USA.
[27]	Uenishi, K. (2003). Dynamic Behavior of an Underground Structure with Small Overburden Subjected to Vertical Oscillations. In: Soil and Rock America 2003 (P.J. Culligan, H.H. Einstein, and A.J. Whittle [editors]), pp.2259-2264, Verlag Glückauf, Essen, Germany.
[28]	Uenishi, K., and S. Sakurai (2003). The Importance of Incorporating Dynamic Effects of Vertical Oscillations in Designing Underground Structures. In: Proceedings of the 10th International Congress on Rock Mechanics - Technology Road Map for Rock Mechanics (Sandton, South Africa, 8-12 September 2003) (M. Handley and D. Stacey [editors]), pp.1257-1260, The South African Institute of Mining and Metallurgy, Johannesburg, South Africa.
[29]	Uenishi, K. (2004). Rupture Instability on a Displacement-Softening Interface under Heterogeneous Loading. In: Proceedings of the Fourth European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2004, Jyväskylä, Finland, 24-28 July 2004) (P. Neittaanmäki, T. Rossi, S. Korotov, E. Oñate, J. Périaux and D. Knörzer [editors]), 14 pages, Department of Mathematical Information Technology, University of Jyväskylä, Finland.
[30]	Uenishi, K. (2005). The Dynamic Effect of Surface Waves on Slope Stabilities. In: Proceedings of the 2005 JSCE (The Japan Society of Civil Engineers) Annual Meeting (Tokyo, Japan, 7-9 September 2005), pp.347-348, The Japan Society of Civil Engineers, Tokyo, Japan.
[31]	Uenishi, K. (2006). Three-Dimensional Rupture Instability of a Displacement-Softening Interface under Nonuniform Loading. In: Proceedings of the III European Conference on Computational Mechanics: Solids, Structures and Coupled Problems in Engineering (ECCM-2006, Lisbon, Portugal, 5-9 June 2006) (C.A. Mota Soares, J.A.C. Martins, H.C. Rodrigues, J.A.C. Ambrósio, C.A.B. Pina, C.M. Mota Soares and E.B.R. Pereira [editors]), 16 pages, Springer, Dordrecht, The Netherlands.
[32]	Uenishi, K., and T. Saitoh (2006). Theoretical Study on the Horizontal Vibrations Induced by Surface Waves. In: Proceedings of the Annual Conference of Civil Engineers '06 (Kobe, Japan, 18 June 2006), III-6 (2 pages), JSCE (The Japan Society of Civil Engineers) Kansai Chapter, Osaka, Japan.
[33]	Uenishi, K., and K. Tsuji (2006). Theoretical Study on the Mechanical Behavior of Dual Tunnels Subjected to Vertical Oscillations. In: Proceedings of the 2006 JSCE (The Japan Society of Civil Engineers) Annual Meeting (Kusatsu, Japan, 20-22 September 2006), 3-017 (pp.III-33 - III-34), The Japan Society of Civil Engineers, Tokyo, Japan.
[34]	Uenishi, K. (2007). The Role of High Frequencies in Earthquake-Induced Failures of Underground Structures. In: Proceedings of the ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COMPDYN 2007, Rethymno, Greece, 13-16 June 2007) (M. Papadrakakis, D.C. Charmpis, N.D. Lagaros and Y. Tsompanakis [editors]), 10 pages, European Community on Computational Methods in Applied Sciences (ECCOMAS), Rethymno, Greece.
[35]	Uenishi, K. (2008). On the Mechanical Instability of a Displacement-Softening Plane of Weakness. In: Proceedings of the 37th Symposium on Rock Mechanics (Tokyo, Japan, 10-11 January 2008), pp.371-374, Committee on Rock Mechanics, The Japan Society of Civil Engineers, Tokyo, Japan.
[36]	Uenishi, K., H. Yamachi, and S. Sakurai (2008). Developing PC-Based Designing Technique for Blasting Demolition. In: Proceedings of the 8th World Congress on Computational Mechanics and 5th European Congress on Computational Methods in Applied Sciences and Engineering (WCCM8, ECCOMAS 2008, Venice, Italy, 30 June-4 July 2008) (B.A. Schrefler and U. Perego [editors]), 2 pages, Department of Structural and Transport Engineering, Faculty of Engineering, Università di Padova, and Department of Structural Engineering, Politecnico di Milano, Italy.
[37]	Uenishi, K. (2008). Mechanical Characteristics of Seismic Waves Estimated from Earthquake-Induced Structural Failures. In: Proceedings of the 22nd International Congress of Theoretical and Applied Mechanics (ICTAM 2008, Adelaide, Australia, 24-30 August 2008) (J. Denier, M.D. Finn and T. Mattner [editors]), 2 pages, IUTAM (International Union of Theoretical and Applied Mechanics) Congress Committee, Adelaide, Australia.
[38]	Uenishi, K. (2008). Rupture Instability on a Nonlinear Slip-Weakening Plane of Weakness. In: Proceedings of the 12th Japan Symposium on Rock Mechanics and the 29th Western Japan Symposium on Rock Engineering (JSRM2008, Ube, Japan, 2-4 September 2008), pp.379-384, Japanese Committee for Rock Mechanics of ISRM (International Society for Rock Mechanics), Tokyo, Japan.
[39]	Uenishi, K. (2008). The Effect of Rayleigh Surface Waves on Dynamic Slope Stabilities. In: Geomechanics in the Emerging Social and Technological Age (D.N. Singh [editor]), pp.2926-2933, IACMAG (International Association for Computer Methods and Advances in Geomechanics), Goa, India.
[40]	Rossmanith, H.P., and K. Uenishi (2008). The Cuña Problem - Reconsidered. In: Geomechanics in the Emerging Social and Technological Age (D.N. Singh [editor]), pp.4229-4235, IACMAG (International Association for Computer Methods and Advances in Geomechanics), Goa, India.
[41]	Uenishi, K. (2009). On the Mechanical Destabilization of a Three-Dimensional Displacement-Softening Plane of Weakness. In: Proceedings of the 38th Symposium on Rock Mechanics (Tokyo, Japan, 8-9 January 2009), pp.332-337, Committee on Rock Mechanics, The Japan Society of Civil Engineers, Tokyo, Japan.
[42]	Uenishi, K., and H. Yamamura (2009). On the Dynamic Interaction between Ground and a Group of Structures Subjected to Horizontal Vibrations. In: Proceedings of the 38th Symposium on Rock Mechanics (Tokyo, Japan, 8-9 January 2009), pp.338-342, Committee on Rock Mechanics, The Japan Society of Civil Engineers, Tokyo, Japan.
[43]	Uenishi, K., and I.R. Ionescu (2009). On the Dynamic Interaction between the Ground and a Group of Structures Subjected to Seismic Disturbances. In: Proceedings of the ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COMPDYN 2009, Rhodes, Greece, 22-24 June 2009) (M. Papadrakakis, N.D. Lagaros and M. Fragiadakis [editors]), CD123, 8 pages, Institute of Structural Analysis and Seismic Research, National Technical University of Athens, Athens, Greece.
[44]	Uenishi, K. (2009). Supershear Rupture Propagation in a Monolithic Medium. In: Proceedings of the Twelfth International Conference on Fracture (ICF12, Ottawa, Canada, 12-17 July 2009), T15.006, 10 pages, Natural Resources Canada - CANMET Materials Technology Laboratory (NRCan-CANMET) and the National Research Council of Canada (NRC) under the auspices of the International Conference on Fracture (ICF), Ottawa, Canada (Keynote Lecture).
[45]	Rossmanith, H.P., K. Uenishi, and V. Hochholdinger-Arsic (2009). Waves, Fractures and Boundary Effects Associated with Blast Experiments Conducted in Cylindrical and Block Type Specimens. In: Proceedings of the 9th International Symposium on Rock Fragmentation by Blasting (FRAGBLAST9, Granada, Spain, 13-17 September 2009) (J.A. Sanchidrián [editor]), pp.407-414, CRC Press/Balkema, Taylor & Francis Group, Leiden, The Netherlands.
[46]	Uenishi, K. (2010). On the Initiation of Dynamic Propagation of a Crack Satisfying a Displacement-Softening Constitutive Relation. In: Proceedings of the 18th Materials and Processing Conference (M&P 2010, Tokyo, Japan, 27-28 November 2010), Paper No.611, 5 pages, Materials and Processing Division, The Japan Society of Mechanical Engineers, Tokyo, Japan (in Japanese).
[47]	Uenishi, K., and S. Doi (2011). Horizontal Impact and the Dynamic Behavior of a Group of Structures. In: Proceedings of the 40th Symposium on Rock Mechanics (Tokyo, Japan, 13-14 January 2011), pp.104-108, Committee on Rock Mechanics, The Japan Society of Civil Engineers, Tokyo, Japan.
[48]	Uenishi, K. (2011). Dynamic Stability of a Slope Subjected to Surface Waves and Possible Mechanical Role of Ground Anchors. In: Proceedings of the 40th Symposium on Rock Mechanics (Tokyo, Japan, 13-14 January 2011), pp.323-328, Committee on Rock Mechanics, The Japan Society of Civil Engineers, Tokyo, Japan.
[49]	Uenishi, K. (2011). Slope Destabilisation Induced by Rayleigh Surface Waves. In: Computer Methods for Geomechanics: Frontiers and New Applications (N. Khalili and M. Oeser [editors]), pp.1157-1162, Centre for Infrastructure Engineering and Safety, The University of New South Wales, Sydney, Australia.
[50]	Uenishi, K. (2011). Multiple Ground-Structure Interactions and Dynamic Collective Behaviour of a Group of Structures. In: Proceedings of the 8th International Conference on Structural Dynamics (Eurodyn 2011, Leuven, Belgium, 4-6 July 2011) (G. De Roeck, G. Degrande, G. Lombaert and G. Müller [editors]), Paper No.940, 6 pages, Department of Civil Engineering, Katholieke Universiteit Leuven, Leuven, Belgium.
[51]	Uenishi, K., and S. Doi (2011). Theoretical Analysis of the Dynamic Behavior of a Group of Structures Subjected to Horizontal Impact. In: Proceedings of the 46th Japan National Conference on Geotechnical Engineering (Kobe, Japan, 5-7 July 2011), pp.1597-1598, The Japanese Geotechnical Society, Tokyo, Japan (in Japanese).
[52]	Uenishi, K. (2011). Experimental Study on the Supershear Crack Propagation in Hyperelastic Solid Materials. In: Proceedings of the M&M 2011 Materials and Mechanics Conference (Kitakyushu, Japan, 15-18 July 2011), OS1901, 2 pages, Materials and Mechanics Division, The Japan Society of Mechanical Engineers, Tokyo, Japan (in Japanese).
[53]	Uenishi, K., and Y. Dohi. (2012). Experimental Study on the Laser-Induced Fracture of Solid Materials. In: Proceedings of the Symposium at the 18th Kanto Branch General Assembly (Narashino, Japan, 9-10 March 2012), pp.439-440, Kanto Branch, The Japan Society of Mechanical Engineers, Tokyo, Japan (in Japanese).
[54]	Uenishi, K. (2012). On Some Crack Dynamics in Inhomogeneous Solid Materials. In: Proceedings of the 8th European Solid Mechanics Conference (ESMC 2012, Graz, Austria, 9-13 July 2012) (G.A. Holzapfel and R.W. Ogden [editors]), 2 pages, Verlag der Technischen Universität Graz, Graz, Austria.
[55]	Uenishi, K., and Y. Dohi (2012). Laser-Induced Fracture in Rock-like Solids: An Experimental Study. In: Proceedings of the EIT-JSCE Joint International Symposium on International Human Resource Development for Disaster-Resilient Countries 2012 (Bangkok, Thailand, 13-14 September 2012) (H. Ohtsu and N. Phienwej [editors]), pp.155-158, Consortium for International Human Resource Development for Disaster-Resilient Countries (DRC) and Urban Human Security Engineering Education and Research (HSE) Center, Kyoto University, Japan, Engineering Institute of Thailand (EIT) and Asian Institute of Technology (AIT), Thailand.
[56]	Uenishi, K., and Y. Dohi (2012). Fundamental Experimental Study on the Physical Process of Laser-Induced Fracture of Solid Materials. In: Proceedings of the M&M 2012 Materials and Mechanics Conference (M&M 2012, Matsuyama, Japan, 21-24 September 2012), GS21, 2 pages, Materials and Mechanics Division, The Japan Society of Mechanical Engineers, Tokyo, Japan (in Japanese).
[57]	Uenishi, K. (2012). Dynamic Mechanism of Shallow Dip-Slip Faulting. In: Proceedings of the Ninth Symposium of the Kanto Branch of the Japanese Geotechnical Society (GeoKanto 2012, Tokyo, Japan, 5 October 2012), A0113, 1 page, Kanto Branch of the Japanese Geotechnical Society, Tokyo, Japan.
[58]	Uenishi, K. (2012). PC-Based Design for Preventing Dynamic Slope Failures. In: Proceedings of the 2nd International Conference on Computational Design in Engineering (CODE2012, Jeju, South Korea, 13-16 November 2012) (W.-H. Yi [editor]), p.136, Computational Structural Engineering Institute of Korea, Seoul, South Korea.
[59]	Uenishi, K., K. Yamagami, F. Ishida, and K. Fujimoto (2013). Dynamic Interface Fracture near a Free Surface. In: Proceedings of the 5th Aerospace Innovation Workshop (Tokyo, Japan, 4-5 February 2013), pp.15-16, The Global Center of Excellence for Mechanical Systems Innovation and the Department of Aeronautics and Astronautics, School of Engineering, The University of Tokyo, Tokyo, Japan.
[60]	Hojo, M., S. Fukuda, T. Morimoto, K. Fujimoto, and K. Uenishi (2013). Interlaminar Tensile Strength of CFRP Laminate Measured by a Flexture Test Method. In: Proceedings of the 53rd Conference on Aerospace Propulsion (Kurashiki, Japan, 4-5 March 2013), JSASS-2013-0083, 5 pages, The Japan Society for Aeronautical and Space Sciences, Tokyo, Japan (in Japanese).
[61]	Hojo, M., S. Fukuda, T. Morimoto, K. Fujimoto, and K. Uenishi (2013). Study on Improvement of Interlaminar Tensile Strength Test Using Curved CFRP Laminate Specimen. In: Proceedings of the 4th Joint Conference on Composite Materials (JCCM-4, Tokyo, Japan, 7-9 March 2013), 1C-15, 4 pages, Japan Society for Composite Materials, Tokyo, Japan, and Committee on Composite Materials of the Society of Materials Science, Japan (JSMS), Kyoto, Japan (in Japanese)..
[62]	Uenishi, K., and S. Sakurai (2013). On the Dynamics of Generation of Seaquakes. In: Rock Dynamics and Applications - State of the Art (J. Zhao and J. Li [editors]), pp.341-346, CRC Press / Balkema, Leiden, The Netherlands.
[63]	Uenishi, K., K. Yamagami, F. Ishida, and K. Fujimoto (2013). Dynamic Fracture Associated with Shallow Dip-Slip Seismic Faulting. In: Proceedings of the Thirteenth International Conference on Fracture (ICF13, Beijing, China, 16-21 June 2013) (S. Yu and X.-Q. Feng [editors]), S20-010, 10 pages, China Science Literature Publishing House, China.
[64]	Hojo, M., M. Kuwabara, T. Saito, S. Ikeda, T. Wakabayashi, K. Fujimoto, and K. Uenishi (2013). Metallographic Structure of Titanium Braze Alloy Processed by the Liquid Phase Diffusion Bonding Method: Its Dependency on Process Temperature and Time. In: Proceedings of the 2013 JSME (The Japan Society of Mechanical Engineers) Annual Meeting (Okayama, Japan, 8-11 September 2013), G041024, 4 pages, The Japan Society of Mechanical Engineers, Tokyo, Japan (in Japanese).
[65]	Uenishi, K., R. Yano, K. Yamagami, T. Takahashi, K. Akakabe, and K. Suzuki (2013). Fundamental Experimental Study on the Dynamics of Collision and Fracture of Ice Materials. In: Proceedings of the M&M 2013 Materials and Mechanics Conference (M&M 2013, Gifu, Japan, 11-14 October 2013), GS31, 2 pages, Materials and Mechanics Division, The Japan Society of Mechanical Engineers, Tokyo, Japan.
[66]	Uenishi, K., and S. Sakurai (2013). Seaquakes and Their Impact on Floating Structures. In: Proceedings of the 10th International Conference on Shock and Impact Loads on Structures (Singapore, Singapore, 25-26 November 2013) (T.S. Lok and K.L. Carper [editors]), pp.461-470, CI-Premier, Singapore.
[67]	Hashimoto, N., N. Sasaki, M. Sekine, K. Uenishi, and K. Fujimoto (2014). Effect of Textured Interface on Cracking of Brittle Coatings. In: Plasma Application and Hybrid Functionally Materials, Vol.23, pp.83-84, Institute of Applied Plasma Science, Osaka, Japan.
[68]	Uenishi, K., and T. Takahashi (2014). Rayleigh Waves and Dynamic Tensile Cracking in Slopes. In: Proceedings of the 17th U.S. National Congress of Theoretical and Applied Mechanics (USNCTAM 2014, East Lansing, Michigan, USA, 15-20 June 2014), S-04-341, 2 pages, College of Engineering, Michigan State University, East Lansing, Michigan, USA.
[69]	Fukuda, S., M. Emoto, K. Fujimoto, K. Uenishi, and M. Hojo (2014). Compression Failure Behavior of Lattice Structure Manufactured by Metal 3D Printer. In: Proceedings of the 52nd Aircraft Symposium (Nagasaki, Japan, 8-10 October 2014), JSASS-2014-5151, 5 pages, The Japan Society for Aeronautical and Space Sciences and Japan Aeronautical Engineers' Association, Tokyo, Japan (in Japanese).
[70]	Uenishi, K., T. Takahashi, and K. Fujimoto (2014). Fracture Dynamics of Shallow Dip-Slip Earthquakes. In: Rock Mechanics for Global Issues - Natural Disasters, Environment and Energy - (N. Shimizu, K. Kaneko, and J. Kodama [editors]), pp.715-723, Japanese Committee for Rock Mechanics of the International Society for Rock Mechanics, Tokyo, Japan.
[71]	Uenishi, K., T. Takahashi, and K. Fujimoto (2015). On the Dynamics of Dip-Slip Fault Rupture Propagating at Supershear Speeds. In: Proceedings of the 43rd Symposium on Rock Mechanics (Tokyo, Japan, 8-9 January 2015), pp.48-53, Committee on Rock Mechanics, The Japan Society of Civil Engineers, Tokyo, Japan.
[72]	Kuwabara, M., K. Fujimoto, K. Uenishi, and M. Hojo (2015). Micro-Mechanisms under Fatigue and Creep Conditions in Nickel Superalloy. In: Proceedings of the 55th Conference on Aerospace Propulsion (Toyama, Japan, 9-10 March 2015), JSASS-2015-0048, 7 pages, The Japan Society for Aeronautical and Space Sciences, Tokyo, Japan (in Japanese).
[73]	Fukuda, S., M. Emoto, K. Fujimoto, K. Uenishi, and M. Hojo (2015). Compression and Impact Failure Behavior of CFRP Sandwich Panel. In: Proceedings of the 55th Conference on Aerospace Propulsion (Toyama, Japan, 9-10 March 2015), JSASS-2015-0049, 8 pages, The Japan Society for Aeronautical and Space Sciences, Tokyo, Japan (in Japanese).
[74]	Yamashita, Y., N. Hashimoto, K. Uenishi, M. Sekine, and K. Fujimoto (2015). Study on Relation between Interface Geometry and Cracking of Brittle Coating. In: Plasma Application and Hybrid Functionally Materials, Vol.24, p.71, Institute of Applied Plasma Science, Osaka, Japan.
[75]	Hojo, M., Y. Kajiwara, K. Uenishi, and K. Fujimoto (2015). Study on Internal Friction of Nickel-Based Superalloy under Elevated Temperature. In: Proceedings of the 2015 JSME (The Japan Society of Mechanical Engineers) Annual Meeting (Sapporo, Japan, 13-16 September 2015), G0400402, 5 pages, The Japan Society of Mechanical Engineers, Tokyo, Japan (in Japanese).
[76]	Uenishi, K., and H. Yamachi (2015). A Precise Fragmentation Technique for Geomaterials Based on Wave Dynamics. In: Future Development of Rock Mechanics (W. Schubert and A. Kluckner [editors]), pp.279-284, Austrian Society for Geomechanics, Salzburg, Austria.
[77]	Fujimoto, K., N. Hashimoto, Y. Yamashita, K. Uenishi, and M. Sekine (2016). On the Cracking and Delamination of Brittle Coating with Textured Interface. In: Plasma Application and Hybrid Functionally Materials, Vol.25, p.37-38, Institute of Applied Plasma Science, Osaka, Japan.
[78]	Uenishi, K., and H. Yamachi (2016). Development of Simulation Tools for Precisely Controlled Dynamic Demolition of Structures. In: Proceedings of the Conference on Computational Engineering and Science, 21, C-8-1, 4 pages, The Japan Society of Computational Engineering and Science, Tokyo, Japan.
[79]	Shigeno, N., K. Uenishi, S. Sakaguchi, R. Yano, and K. Suzuki (2016). On the High-Speed Fracture of Ice Spheres Subjected to Impact Loading. In: Proceedings of the M&M 2016 Materials and Mechanics Conference (M&M 2016, Kobe, Japan, 8-10 October 2016), GS-21, pp.879-881, Materials and Mechanics Division, The Japan Society of Mechanical Engineers, Tokyo, Japan.
[80]	Uenishi, K., N. Shigeno, S. Sakaguchi, R. Yano, and K. Suzuki (2017). Dynamic Impact-Induced Fracture Development in Ice Spheres. In: Contributions to the Foundations of Multidisciplinary Research in Mechanics (J.M. Floryan [editor]), pp.2170-2171, IUTAM (International Union of Theoretical and Applied Mechanics) 2016 International Program Committee, Montreal, Canada.
[81]	Yamachi, H., J. Nakamori, K. Uenishi, and R. Sakamoto (2017). Mechanism of Controlling Blasting Fractures by Vacant Holes. In: Proceedings of the 14th Japan Symposium on Rock Mechanics (JSRM2017, Kobe, Japan, 10-11 January 2017), paper No. 125, 6 pages, Japanese Society for Rock Mechanics, Tokyo, Japan (in Japanese).
[82]	Uenishi, K. (2017). On Three-Dimensional Wave and Crack Propagation in Brittle Solids. In: Proceedings of the Fourteenth International Conference on Fracture (ICF14, Rhodes, Greece, 18-23 June 2017) (E.E. Gdoutos [editor]), Submission ID: 576, 2 pages, Summit Tec Group LTD, Emba, Cyprus.
[83]	Uenishi, K., T. Yoshida, S. Sakaguchi, and K. Suzuki (2017). Dynamic Fracture Patterns Formed in Transparent Ice Spheres by Impact Loading. In: Proceedings of the M&M 2017 Materials and Mechanics Conference (M&M 2017, Sapporo, Japan, 7-9 October 2017), GS1007, pp.1828-1829, Materials and Mechanics Division, The Japan Society of Mechanical Engineers, Tokyo, Japan.
[84]	Uenishi, K., S. Sakaguchi, N. Shigeno, H. Yamachi, and J. Nakamori (2018). Fracture in Brittle Solids Controlled by Wave Motion. In: Proceedings of the 45th Symposium on Rock Mechanics (Tokyo, Japan, 15-17 January 2018), pp.73-78, Committee on Rock Mechanics, The Japan Society of Civil Engineers, Tokyo, Japan.
[85]	Sakaguchi, S., K. Uenishi, H. Yamachi, and J. Nakamori (2018). Controlling Dynamic Fracture and Structural Disintegration. In: Proceedings of the First International Conference on Theoretical, Applied and Experimental Mechanics (ICTAEM_1, Paphos, Cyprus, 17-20 June 2018) (E.E. Gdoutos [editor]), ICTAEM 2018, Structural Integrity, Vol.5, pp.221-226, Springer International Publishing AG, Cham, Switzerland.
[86]	Uenishi, K., T. Hasegawa, T. Yoshida, S. Sakaguchi, and K. Suzuki (2018). Dynamic Fracture and Fragmentation of Ice Materials. In: Proceedings of the First International Conference on Theoretical, Applied and Experimental Mechanics (ICTAEM_1, Paphos, Cyprus, 17-20 June 2018) (E.E. Gdoutos [editor]), ICTAEM 2018, Structural Integrity, Vol.5, pp.242-243, Springer International Publishing AG, Cham, Switzerland.
[87]	Uenishi, K., Y. Fukuda, T. Yoshida, S. Sakaguchi, and I.R. Ionescu (2018). Collective Mechanical Behavior and Stability of a Group of Cracks in Brittle Solids. In: Proceedings of the First International Conference on Theoretical, Applied and Experimental Mechanics (ICTAEM_1, Paphos, Cyprus, 17-20 June 2018) (E.E. Gdoutos [editor]), ICTAEM 2018, Structural Integrity, Vol.5, pp.244-245, Springer International Publishing AG, Cham, Switzerland.
[88]	Uenishi, K. (2018). Application of Rock Mechanics to Geophysical Problems of Earthquakes. In: Rock Mechanics in Infrastructure and Resource Development (Proceedings of the 2018 ISRM (International Society for Rock Mechanics) International Symposium and the 10th Asian Rock Mechanics Symposium) (ARMS10, Singapore, Singapore, 29 October-3 November 2018), Keynote 5, 6 pages, Singapore (Keynote Lecture).
[89]	Uenishi, K., and T. Goji (2019). Failure Patterns of Granular Slopes Subjected to Dynamic Impact: Experimental Observations. In: Proceedings of the 2019 Rock Dynamics Summit in Okinawa (Nago, Japan, 7-11 May 2019) (Ö. Aydan, T. Seiki, K. Kamemura, N. Iwata, and T. Ito [editors]), pp.466-471.
[90]	Uenishi, K., and T. Goji (2019). Dynamic Failure of Granular Slopes: Due to Unidirectional Stress Transfer or Multi-Dimensional Wave Propagation? In: Proceedings of the Second International Conference on Theoretical, Applied and Experimental Mechanics (ICTAEM_2, Corfu, Greece, 23-26 June 2019) (E.E. Gdoutos [editor]), ICTAEM 2019, Structural Integrity, Vol.8, pp.182-183, Springer Nature Switzerland AG, Cham, Switzerland.
[91]	Uenishi, K., and K. Nagasawa (2021). On the Development and Dynamic Characteristics of Multiple Fracture Regions in a Brittle Solid. In: Proceedings of the 15th Japan Symposium on Rock Mechanics (JSRM2021, Suita, Japan, 14-15 January 2021), pp.495-498, Japanese Society for Rock Mechanics, Tokyo, Japan.
[92]	Wada, K., K. Uenishi, H. Yamachi, and J. Nakamori (2021). On Wave-Controlled Dynamic Disintegration of Steel-Concrete Composite Structures. In: Proceedings of the 15th Japan Symposium on Rock Mechanics (JSRM2021, Suita, Japan, 14-15 January 2021), pp.505-508, Japanese Society for Rock Mechanics, Tokyo, Japan.
[93]	Uenishi, K., and D. Xi (2023). On the Multi-Dimensional Granular Dynamics and Stress Transfer under Impact of External Loading. In: Rock Dynamics: Progress and Prospect (J. Li, X. Li, M. Ju, F. Gong, and Y. Zhou [editors]), Volume 2, pp.91-96, CRC Press / Balkema, Abingdon-on-Thames, UK.
[94]	Yamachi, H., R. Sakamoto, J. Nakamori, M. Tanaka, and K. Uenishi (2023). Practical Applications of Precise Impact Fracturing Method by Wave Propagation Path Control. In: Proceedings of the Third Symposium on Safety Engineering (Tokyo, Japan, 22-23 June 2023), OS-15-1, 4 pages, Science Council of Japan, Tokyo, Japan (in Japanese).

Abstracts in Conference Proceedings

[1]	Uenishi, K., and H.P. Rossmanith (1999). Pulse-Induced Dynamic Slip of a Plane of Weakness. Eos Trans. AGU, 80(46), Fall Meet. Suppl., Abstract T12E-09.
[2]	Uenishi, K., and H.P. Rossmanith (2000). The Effect of Crack-Parallel Stress and Mixed-Mode Loading on Dynamic Crack Path Instability. Eos Trans. AGU, 81(48), Fall Meet. Suppl., Abstract T22D-02.
[3]	Uenishi, K., J. R. Rice, and J.-P. Ampuero (2001). Universal Nucleation Length for Slip-Weakening Instability under Heterogeneous Fault Loading. Eos Trans. AGU, 82(47), Fall Meet. Suppl., Abstract S52B-0624.
[4]	Rice, J. R., and K. Uenishi (2002). Slip Development and Instability on a Heterogeneously Loaded Fault with Power-Law Slip-Weakening (Extended Version). In: Proceedings of the 2002 SCEC (Southern California Earthquake Center) Annual Meeting (Oxnard, California, USA, 8-11 September 2002), pp.118-120, University of Southern California, Los Angeles, California, USA.
[5]	Uenishi, K., and J. R. Rice (2002). Universal Nucleation Length for Slip-Weakening Rupture Instability under Heterogeneous Fault Loading. In: Proceedings of the 2002 SSJ (Seismological Society of Japan) Fall Meeting (Yokohama, Japan, 11-13 November 2002), A90, Seismological Society of Japan, Tokyo, Japan.
[6]	Rice, J. R., and K. Uenishi (2002). Slip Development and Instability on a Heterogeneously Loaded Fault with Power-Law Slip-Weakening. Eos Trans. AGU, 83(47), Fall Meet. Suppl., Abstract S61E-06.
[7]	Rice, J. R., and K. Uenishi (2003). Slip Development and Instability on a Nonuniformly Loaded Interface with Power-Law Slip-Weakening. Bull. Am. Phys. Soc., 48(1), K35.008.
[8]	Uenishi, K., and J. R. Rice (2003). Universal Nucleation Length of Rupture Instability for Nonuniform Stressing of Displacement-Softening Interfaces. Bull. Am. Phys. Soc., 48(1), K35.009.
[9]	Uenishi, K., and H.P. Rossmanith (2003). Experimental Evidence for a Pulse of Separation and Its Effects. In: Proceedings of the XXIII General Assembly of the International Union of Geodesy and Geophysics (IUGG 2003, Sapporo, Japan, 30 June-11 July 2003), p.A489, International Union of Geodesy and Geophysics, Sapporo, Japan.
[10]	Rice, J. R., and K. Uenishi (2003). Slip Development and Instability on a Nonuniformly Loaded Fault with Power-Law Slip-Weakening. In: Proceedings of the 2003 SSJ (Seismological Society of Japan) Fall Meeting (Kyoto, Japan, 6-8 October 2003), B010, Seismological Society of Japan, Tokyo, Japan.
[11]	Uenishi, K., and J. R. Rice (2004). Three-Dimensional Rupture Instability of a Slip-Weakening Fault under Nonuniform Loading. In: Proceedings of the 2004 SSJ (Seismological Society of Japan) Fall Meeting (Fukuoka, Japan, 9-11 October 2004), P015, Seismological Society of Japan, Tokyo, Japan.
[12]	Uenishi, K., and S. Nigoriike (2004). Does Hyperelasticity Govern High-Speed Rupture? In: Proceedings of the 2004 SSJ (Seismological Society of Japan) Fall Meeting (Fukuoka, Japan, 9-11 October 2004), P016, Seismological Society of Japan, Tokyo, Japan.
[13]	Uenishi, K., and J. R. Rice (2004). Three-Dimensional Rupture Instability of a Slip-Weakening Fault under Heterogeneous Loading. Eos Trans. AGU, 85(46), Fall Meet. Suppl., Abstract S13E-04.
[14]	Rossmanith, H.P., and K. Uenishi (2005). The Mechanics of Spalling and Scabbing in Concrete and Rock - A Reconsideration. In: Proceedings of the 4th Kumamoto International Workshop on Fracture, Acoustic Emission and NDE in Concrete (KIFA-4, Kumamoto, Japan, 14-15 July 2005), p.5, Kumamoto University, Kumamoto, Japan.
[15]	Uenishi, K., and R.I. Madariaga (2005). Shallow Dip-Slip Earthquake: Its Dynamics and Generation of Corner Waves. In: Proceedings of the 2005 SSJ (Seismological Society of Japan) Fall Meeting (Sapporo, Japan, 19-21 October 2005), C054, Seismological Society of Japan, Tokyo, Japan.
[16]	Uenishi, K., and S. Nigoriike (2005). Crack Propagation in Hyperelastic Media and Its Implications to Fast Fault Rupture. In: Proceedings of the 2005 SSJ (Seismological Society of Japan) Fall Meeting (Sapporo, Japan, 19-21 October 2005), P118, Seismological Society of Japan, Tokyo, Japan.
[17]	Uenishi, K., and R.I. Madariaga (2005). Surface Breaking Dip-Slip Fault: Its Dynamics and Generation of Corner Waves. Eos Trans. AGU, 86(52), Fall Meet. Suppl., Abstract S34A-03.
[18]	Uenishi, K. (2006). Source Dynamics of Shallow Dip-Slip Earthquakes: The Corner Effect. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2006 (Chiba, Japan, 14-18 May 2006), S206-014, Japan Geoscience Union, Tokyo, Japan.
[19]	Kame, N., K. Uenishi, and H. Aochi (2006). QUANTITATIVE SEISMOLOGY, a.k.a. AKI & RICHARDS. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2006 (Chiba, Japan, 14-18 May 2006), S206-024, Japan Geoscience Union, Tokyo, Japan.
[20]	Uenishi, K., K. Tsuji, and W. Debski (2006). Dynamic Rupture Propagation in Thin Fluid Film. In: Proceedings of the 2006 SSJ (Seismological Society of Japan) Fall Meeting (Nagoya, Japan, 31 October-2 November 2006), P109, Seismological Society of Japan, Tokyo, Japan.
[21]	Uenishi, K. (2006). Supershear Rupture Propagation in Homogeneous, Monolithic Media: Experimental Observations. Eos Trans. AGU, 87(52), Fall Meet. Suppl., Abstract S33C-03.
[22]	Uenishi, K., and K. Tsuji (2007). Dynamic Rupture Propagation in Extremely Heterogeneous Media. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2007 (Chiba, Japan, 19-24 May 2007), S143-P013, Japan Geoscience Union, Tokyo, Japan.
[23]	Uenishi, K., and S. Sakurai (2007). Seismic Waves in the Very High Frequency (VHF) Range: Existence Conjectured Through Dynamic Failures of Underground Structures. In: Proceedings of the Workshop on Numerical Modeling of Earthquake Source Dynamics (NMESD 2007, Smolenice Castle, Slovakia, 2-6 September 2007) (R.J. Archuleta, P. Moczo and P. Labák [editors]), p.47, Comenius University, Bratislava, Slovakia.
[24]	Uenishi, K., and K. Tsuji (2007). Dynamic Rupture of an Interface between Two Extremely Dissimilar Media: Laboratory Experiments. In: Proceedings of the 2007 SSJ (Seismological Society of Japan) Fall Meeting (Sendai, Japan, 24-26 October 2007), P2-034, Seismological Society of Japan, Tokyo, Japan.
[25]	Uenishi, K., and K. Tsuji (2007). Dynamic Interface Rupture in Extremely Heterogeneous Media. Eos Trans. AGU, 88(52), Fall Meet. Suppl., Abstract S13D-07.
[26]	Uenishi, K., and K. Tsuji (2008). The Dynamics of Collapsing Granular Columns and Its Implications in Earthquake Mechanics. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2008 (Chiba, Japan, 25-30 May 2008), S142-P013, Japan Geoscience Union, Tokyo, Japan.
[27]	Uenishi, K. (2008). On the Formation of Dip-Slip Fault Planes. In: Proceedings of the 7th General Assembly of Asian Seismological Commission and the 2008 Fall Meeting of Seismological Society of Japan (Tsukuba, Japan, 24-27 November 2008), X3-054, Asian Seismological Commission (ASC), IASPEI, and Seismological Society of Japan, Tokyo, Japan.
[28]	Uenishi, K. (2008). On the Mechanics of Dip-Slip Faulting. Eos Trans. AGU, 89(53), Fall Meet. Suppl., Abstract S51D-1767.
[29]	Uenishi, K. (2009). The TOWN EFFECT and the 2007 Noto Peninsula, Japan, Earthquake. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2009 (Chiba, Japan, 16-21 May 2009), S152-P012, Japan Geoscience Union, Tokyo, Japan.
[30]	Uenishi, K., H. Yamachi, and S. Sakurai (2009). Simulating Blasting Demolition of RC Structures on a PC. In: Proceedings of the 5th Kumamoto International Workshop on Fracture, Acoustic Emission and NDE in Concrete (KIFA-5, Kumamoto, Japan, 17-18 September 2009), p.8, Kumamoto University, Kumamoto, Japan.
[31]	Uenishi, K., K. Tsuji, and S. Kobayashi (2009). Arrest and Re-Initiation of Dynamic Rupture Propagation at Material Heterogeneities. In: Proceedings of the 2009 SSJ (Seismological Society of Japan) Fall Meeting (Kyoto, Japan, 21-23 October 2009), P3-54, Seismological Society of Japan, Tokyo, Japan.
[32]	Uenishi, K., and S. Doi (2009). Formation of a Dip-Slip Rupture Plane: Boussinesq's Paradox in Fault Mechanics. In: Proceedings of the 2009 SSJ (Seismological Society of Japan) Fall Meeting (Kyoto, Japan, 21-23 October 2009), P3-55, Seismological Society of Japan, Tokyo, Japan.
[33]	Uenishi, K., K. Tsuji, and S. Doi (2009). Dynamic Deformation and Collapse of Granular Columns. Eos Trans. AGU, 90(52), 29 December 2009, Fall Meet. Suppl., Abstract T41A-2004.
[34]	Uenishi, K. (2010). Waves, Vibrations and Structural Collapse. In: Proceedings of the International Workshops on Advances in Computational Mechanics (IWACOM-II, Yokohama, Japan, 29-31 March 2010), p.163, Japan Society of Computational Engineering and Science, Tokyo, Japan.
[35]	Uenishi, K., and Y. Tamiya (2010). On a Simpler Way of Simulating Wave Dynamics in Complex Geometrical Conditions. In: Proceedings of the 7th ACES International Workshop (ACES 2010, Otaru, Japan, 3-8 October 2010), p.109, CREST Earthquake and Tsunami Predictive Simulation Project Team, Tokyo, Japan.
[36]	Uenishi, K. (2010). Numerical Modeling of Arrest and Resumption of Dynamic Rupture Propagation at Material Inhomogeneities. In: Proceedings of the 2010 SSJ (Seismological Society of Japan) Fall Meeting (Hiroshima, Japan, 27-29 October 2010), P3-37, Seismological Society of Japan, Tokyo, Japan.
[37]	Uenishi, K. (2010). Experimental Modeling of Dynamic Shallow Dip-Slip Faulting. Abstract S21C-2066 presented at 2010 Fall Meeting, AGU, San Francisco, California, 13-17 December 2010.
[38]	Uenishi, K. (2011). Earthquake-Induced Structural Failures and Mechanical Characteristics of Relevant Seismic Waves. In: Proceedings of the Symposium on Mechanics in Geophysical and Materials Sciences (Pasadena, California, USA, 20-22 January 2011), P46, California Institute of Technology, Pasadena, California, USA.
[39]	Uenishi, K., and I.R. Ionescu (2011). Multiple, Three-Dimensional Interactions between the Ground and a Group of Structures Subjected to Seismic Impact. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2011 (Chiba, Japan, 22-27 May 2011), SSS023-P04, Japan Geoscience Union, Tokyo, Japan.
[40]	Uenishi, K. (2011). Simulation of Fundamental Rupture Dynamics in Inhomogeneous Materials Based on a Particle Method. In: Proceedings of the 2011 SSJ (Seismological Society of Japan) Fall Meeting (Shizuoka, Japan, 12-15 October 2011), B32-13, Seismological Society of Japan, Tokyo, Japan.
[41]	Uenishi, K. (2011). Dynamic Tensile Cracking in Slopes and the Possible Existence of Seismic Rayleigh Waves in a High Frequency Range. Abstract S12B-04 presented at 2011 Fall Meeting, AGU, San Francisco, California, 5-9 December 2011.
[42]	Uenishi, K. (2012). Dynamic Collective Failure of a Group of Structures Subjected to Horizontal Impact. In: Proceedings of the Fifth International Conference on Engineering Failure Analysis (ICEFA V, The Hague, The Netherlands, 1-4 July 2012) (R. Clegg, E. Amsterdam and C. Gagg [editors]), B63, Elsevier B.V., Amsterdam, The Netherlands.
[43]	Uenishi, K., and S. Sakurai (2012). Seaquakes: A One Dimensional Model. In: Proceedings of the 2012 SSJ (Seismological Society of Japan) Fall Meeting (Hakodate, Japan, 16-19 October 2012), A11-07, Seismological Society of Japan, Tokyo, Japan.
[44]	Uenishi, K., R. Yano, T. Yoshida, K. Yamagami, and K. Suzuki (2013). Inelastic Collisions between Icy Bodies: Dependence on Impact Velocity and Its Fluctuations. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2013 (Chiba, Japan, 19-24 May 2013), PPS21-P20, Japan Geoscience Union, Tokyo, Japan.
[45]	Uenishi, K., H. Yamachi, K. Yamagami, and S. Sakurai (2013). Dynamic Fracture in Concrete Generated by Impulsive Electrical Discharge. In: Proceedings of the 6th Kumamoto International Workshop on Fracture, Acoustic Emission and NDE in Concrete (KIFA-6, Kumamoto, Japan, 17-18 September 2013), p.13, Kumamoto University, Kumamoto, Japan.
[46]	Uenishi, K., T. Takahashi, K. Yamagami, K. Akakabe, and K. Fujimoto (2013). Possible Dynamic Rupture Process of Shallow Dip-Slip Earthquakes: A Supplementary Experimental Study. In: Proceedings of the 2013 SSJ (Seismological Society of Japan) Fall Meeting (Yokohama, Japan, 7-9 October 2013), A22-07, Seismological Society of Japan, Tokyo, Japan.
[47]	Uenishi, K. (2013). Dynamic Fracture at or across an Interface in a Stratified Medium Induced by Primary Fault Rupture Propagation. In: Proceedings of the 2013 SSJ (Seismological Society of Japan) Fall Meeting (Yokohama, Japan, 7-9 October 2013), P1-52, Seismological Society of Japan, Tokyo, Japan.
[48]	Uenishi, K., and S. Sakurai (2013). On the Generation of Seaquakes and Their Connections with Earthquake Source Mechanisms. Abstract S13B-03 presented at 2013 Fall Meeting, AGU, San Francisco, California, 9-13 December 2013.
[49]	Uenishi, K., T. Takahashi, and K. Fujimoto (2014). Experimental Evidence of the Existence of a Corner Wave Generated by Shallow, Supershear Dip-Slip Fault Rupture. In: Proceedings of the 2014 SSJ (Seismological Society of Japan) Fall Meeting (Niigata, Japan, 24-26 November 2014), S08-P01, Seismological Society of Japan, Tokyo, Japan.
[50]	Uenishi, K. (2014). Dynamic Fracture in a Layered Medium Induced by Primary Dip-Slip Fault Rupture: Broken (Anti-)Symmetry. In: Proceedings of the 2014 SSJ (Seismological Society of Japan) Fall Meeting (Niigata, Japan, 24-26 November 2014), S08-P02, Seismological Society of Japan, Tokyo, Japan.
[51]	Uenishi, K. (2015). On the Rupture Dynamics of Shallow Dip-Slip Faulting in a Stratified Medium. Geophysical Research Abstracts, 17, EGU2015-4381, EGU General Assembly 2015.
[52]	Uenishi, K., and H. Yamachi (2015). A Wave-Based Approach toward Precisely Controlled Dynamic Structural Demolition. In: Proceedings of the 13th U.S. National Congress on Computational Mechanics (USNCCM13, San Diego, California, USA, 26-30 July 2015), MS403, 1 page, The United States Association for Computational Mechanics (USACM), Austin, Texas, USA.
[53]	Uenishi, K., T. Takahashi, and K. Fujimoto (2015). Asymmetric Dynamic Fracture in a Symmetrically Stratified Medium: Numerical and Experimental Observations. In: Proceedings of the 2015 SSJ (Seismological Society of Japan) Fall Meeting (Kobe, Japan, 26-28 October 2015), S08-24, Seismological Society of Japan, Tokyo, Japan.
[54]	Uenishi, K. (2015). Shallow Dip-Slip Fault Rupture: Possible Origin of Asymmetric Seismic Motion. Abstract S11A-2771 presented at 2015 Fall Meeting, AGU, San Francisco, California, 14-18 December 2015.
[55]	Uenishi, K. (2016). High-Speed Observations of Dynamic Fracture Propagation in Solids and Their Implications in Earthquake Rupture Dynamics. Geophysical Research Abstracts, 18, EGU2016-11125, EGU General Assembly 2016.
[56]	Uenishi, K. (2016). On Generation and Propagation of Three-Dimensional Rupture in Brittle Solids. In: Proceedings of the 2016 SSJ (Seismological Society of Japan) Fall Meeting (Nagoya, Japan, 5-7 October 2016), S08-19, Seismological Society of Japan, Tokyo, Japan.
[57]	Uenishi, K. (2016). One- / Two-Dimensional versus Three-Dimensional Rupture Propagation in Brittle Solids. Abstract S51D-05 presented at 2016 Fall Meeting, AGU, San Francisco, California, 12-16 December 2016.
[58]	Uenishi, K., T. Goji, and W. Debski (2017). Photoelastic Study of Dynamic Stress Transfers in Granular Media. In: Proceedings of the Joint Scientific Assembly of the International Association of Geodesy and the International Association of Seismology and Physics of the Earth's Interior (IAG-IASPEI 2017, Kobe, Japan, 30 July - 4 August 2017), S13-6-01, The Geodetic Society of Japan and Seismological Society of Japan, Tokyo, Japan.
[59]	Uenishi, K., and H. Yamachi (2017). Volumetric Strain or Mean Normal Stress Criterion for Three-Dimensional Tensile Rupture in Brittle Solids. In: Proceedings of the 2017 SSJ (Seismological Society of Japan) Fall Meeting (Kagoshima, Japan, 25-27 October 2017), S08-P24, Seismological Society of Japan, Tokyo, Japan.
[60]	Uenishi, K., T. Yoshida, S. Sakaguchi, Y. Fukuda, I.R. Ionescu, and Q. Gomez (2017). On the Collective Behavior of a Group of Cracks in Brittle Solids and Its Implications in Earthquake Source Physics. In: Proceedings of the 2017 SSJ (Seismological Society of Japan) Fall Meeting (Kagoshima, Japan, 25-27 October 2017), S08-P25, Seismological Society of Japan, Tokyo, Japan.
[61]	Uenishi, K., and H. Yamachi (2017). Three-Dimensional Dynamic Rupture in Brittle Solids and the Volumetric Strain Criterion. Abstract S21C-0745 presented at 2017 Fall Meeting, AGU, New Orleans, Louisiana, 11-15 December 2017.
[62]	Uenishi, K., T. Yoshida, I.R. Ionescu, and K. Suzuki (2018). Wave and Rupture Propagation in a Brittle Solid Sphere. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2018 (Chiba, Japan, 20-24 May 2018), SSS15-P16, Japan Geoscience Union, Tokyo, Japan.
[63]	Uenishi, K., Y. Fukuda, and N. Kame (2018). Multiple Cracks in Brittle Solids: Individual Mechanical Interaction versus Collective Behavior. In: Proceedings of the 2018 SSJ (Seismological Society of Japan) Fall Meeting (Koriyama, Japan, 9-11 October 2018), S08-P11, Seismological Society of Japan, Tokyo, Japan.
[64]	Uenishi, K., and T. Goji (2018). Wave Propagation and Dynamic Rupture in a Granular Slope. In: Proceedings of the 2018 SSJ (Seismological Society of Japan) Fall Meeting (Koriyama, Japan, 9-11 October 2018), S08-P12, Seismological Society of Japan, Tokyo, Japan.
[65]	Uenishi, K., and T. Goji (2018). Earthquake-Induced Dynamic Rupture in a Slope: Due to Mass Flow or Wave Propagation? Abstract S51D-0368 presented at 2018 Fall Meeting, AGU, Washington, D.C., 10-14 December 2018.
[66]	Uenishi, K., Y. Fukuda, and N. Kame (2019). On the Mechanical Relation between Individual Interaction and Collective Behavior of Multiple Fault Sets Subjected to Quasi-Static Loading. In: Proceedings of the Japan Geoscience Union (JpGU) Meeting 2019 (Chiba, Japan, 26-30 May 2019), SSS14-P17, Japan Geoscience Union, Tokyo, Japan.
[67]	Uenishi, K., Y. Fukuda, and N. Kame (2019). Individual Mechanical Interaction of Multiple Cracks and Its Relation with the Collective Behavior: Experimental Observations under Quasi-Static Loading Conditions. In: Book of Abstracts of the Third International Conference on Structural Integrity and Durability (ICSID 2019, Dubrovnik, Croatia, 4-7 June 2019) (Z. Bozic [editor]), 2 pages, Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, Zagreb, Croatia.
[68]	Uenishi, K. (2019). The Doppler Effect and the Near-Rayleigh Fault Rupture. In: Proceedings of the 27th General Assembly of the International Union of Geodesy and Geophysics (IUGG 2019, Montreal, Canada, 8-18 July 2019), S20p-151, International Union of Geodesy and Geophysics, Montreal, Canada.
[69]	Uenishi, K. (2019). Dynamic Aspects of Rupture Propagation at a Subsonic but Near-Rayleigh Wave Speed. In: Proceedings of the 2019 SSJ (Seismological Society of Japan) Fall Meeting (Kyoto, Japan, 16-18 September 2019), S08P-18, Seismological Society of Japan, Tokyo, Japan.
[70]	Uenishi, K., Y. Fukuda, and K. Nagasawa (2019). Secondary Rupture at a Distance from the Primary One without Further External Loading. In: Proceedings of the 2019 SSJ (Seismological Society of Japan) Fall Meeting (Kyoto, Japan, 16-18 September 2019), S08P-19, Seismological Society of Japan, Tokyo, Japan.
[71]	Uenishi, K., and K. Nagasawa (2020). Spatiotemporal Complexity of Rupture Evolution in a Fault Damage Zone with Multiple Small-Scale Cracks. In: Proceedings of the 2020 SSJ (Seismological Society of Japan) Fall Meeting (Online, 29-31 October 2020), S08-22, Seismological Society of Japan, Tokyo, Japan.
[72]	Uenishi, K., and K. Nagasawa (2020). Rupture Development in Fault Damage Zones Consisting of Sets of Preexisting Small-Scale Parallel Cracks. Abstract S047-0011 presented at 2020 Fall Meeting, AGU, Online, 1-17 December 2020.
[73]	Uenishi, K., and K. Nagasawa (2021). Existence of Weak Zones: Enhancing Dynamic Rupture or Not? In: Proceedings of the 2021 SSJ (Seismological Society of Japan) Fall Meeting (Online, 14-16 October 2021), S08-20, Seismological Society of Japan, Tokyo, Japan.
[74]	Uenishi, K., and D. Xi (2021). On the Dynamic Stability of a Granular Slope. In: Proceedings of the 2021 SSJ (Seismological Society of Japan) Fall Meeting (Online, 14-16 October 2021), S08-21, Seismological Society of Japan, Tokyo, Japan.
[75]	Uenishi, K., and K. Nagasawa (2021). Rupture Absorbing Weak Zones. Abstract S25E-0283 presented at 2021 Fall Meeting, AGU, New Orleans, Louisiana, USA + Online, 13-17 December 2021.
[76]	Uenishi, K. (2022). What Actually is the Vertical Shock Verbally Reported for Shallow Earthquakes? In: Proceedings of the 2022 SSJ (Seismological Society of Japan) Fall Meeting (Sapporo, Japan, 24-26 October 2022), S08P-06, Seismological Society of Japan, Tokyo, Japan.
[77]	Uenishi, K., S. Sasauchi, and D. Xi (2022). Dynamic Stress Transfer in a Layered Granular Slope. In: Proceedings of the 2022 SSJ (Seismological Society of Japan) Fall Meeting (Sapporo, Japan, 24-26 October 2022), S11P-01, Seismological Society of Japan, Tokyo, Japan.
[78]	Uenishi, K. (2022). Abrupt Vertical Shock Arising from Shallow Earthquakes. Abstract S31B-03 presented at 2022 Fall Meeting, AGU, Chicago, Illinois, USA + Online, 12-16 December 2022.
[79]	Uenishi, K. (2023). On Cavitation, Shock Waves, and Generation of Seaquakes. In: Proceedings of the 2023 SSJ (Seismological Society of Japan) Fall Meeting (Yokohama, Japan, 31 October-2 November 2023), S08P-16, Seismological Society of Japan, Tokyo, Japan.

Reports

[1]	Miyoshi, J., K. Uenishi, and Y. Fukushima (1993). Homework from the Space. JSME (The Japan Society of Mechanical Engineers) Space Engineering Division Newsletter, 6, 7 (in Japanese).
[2]	Uenishi, K., and H.P. Rossmanith (1999). Pulse-Induced Fault Slip: Model and Application to the 1995 Hanshin (Kobe) Earthquake. ISRM (International Society for Rock Mechanics) News Journal, 6(1), 58-62.
[3]	Uenishi, K., S. Mizoguchi, and S. Sakurai (1999). Theoretical Study on Earthquake-Induced Damage to a Tunnel in the Mountainous Region. Memoirs of Construction Engineering Research Institute, 41-B, 123-132 (in Japanese).
[4]	Uenishi, K. (1999). Congress Does Not Stop Dancing. The Japanese Geotechnical Society Kansai Branch Newsletter, 8(3), 1-3 (in English and Japanese).
[5]	Uenishi, K., and T. Gotoh (2000). The Dynamic Behavior of Underground Structures with Small Overburden Subjected to Vertical Oscillations. Memoirs of Construction Engineering Research Institute, 42-B, 159-170 (in Japanese).
[6]	Uenishi, K., S. Sakurai, and S. Yoshida (2000). The Wave Characteristics of the 1995 Hyogo-ken Nanbu (Kobe) Earthquake: Evaluation from the Failure of the Daikai Underground Station. Memoirs of Construction Engineering Research Institute, 42-B, 171-176 (in Japanese).
[7]	Uenishi, K., S. Sakurai, and S. Mizoguchi (2001). Wave-Induced Damage to Underground Structures. Report of the Research Center for Urban Safety and Security, Kobe University, 5, 49-60.
[8]	Uenishi, K. (2002). Mechanical Properties of an Underground Structure with Small Overburden Subjected to a Vertical Disturbance. Report of the Research Center for Urban Safety and Security, Kobe University, 6, 35-49.
[9]	Uenishi, K. (2003). Rayleigh Pulse - A Mathematical Perspective. Report of the Research Center for Urban Safety and Security, Kobe University, 7, 19-38.
[10]	Uenishi, K., and H.P. Rossmanith (2004). On Bench Blasting and Muckpile Formation. Report of the Research Center for Urban Safety and Security, Kobe University, 8, 49-72.
[11]	Uenishi, K. (2005). The Effect of Rayleigh Surface Waves on Slope Stabilities. Report of the Research Center for Urban Safety and Security, Kobe University, 9, 41-52.
[12]	Sakurai, S., and K. Uenishi (2005). On the 2004 Niigata-ken Chuetsu, Japan Earthquake - Do Inland Earthquakes Generate Impulsive High Frequencies in the Near-Field? Journal of the Japan Society of Civil Engineers, 90(6), 48-51 (in Japanese).
[13]	Uenishi, K., and T. Saitoh (2006). On the Horizontal Particle Motions Induced by Love Waves. Report of the Research Center for Urban Safety and Security, Kobe University, 10, 47-58.
[14]	Uenishi, K. (2006). Comment on Receiving the 2005 Young Investigator Award of the Seismological Society of Japan. Seismological Society of Japan Newsletter, 18(2), 17 (in Japanese).
[15]	Uenishi, K., and K. Tsuji (2007). On the Mechanical Properties of a Dual Tunnel Subjected to a Vertical Disturbance. Report of the Research Center for Urban Safety and Security, Kobe University, 11, 35-42.
[16]	Uenishi, K. (2008). On a Simple Way of Simulating Wave Propagation in Complex Geometries. Report of the Research Center for Urban Safety and Security, Kobe University, 12, 23-32.
[17]	Uenishi, K. (2009). On the Numerical Analysis of Solid Dynamics Using the Moving Particle Semi-Implicit (MPS) Method. Report of the Research Center for Urban Safety and Security, Kobe University, 13, 11-20.
[18]	Yamaguchi, S., S. Ueda, H. Murakami, Y. Ogawa, S. Kato, and K. Uenishi (2009). Audio Frequency Magnetotelluric Surveys at the Ohara Fault, the Yamasaki Fault System. Report of the Research Center for Urban Safety and Security, Kobe University, 13, 269-279 (in Japanese).
[19]	Uenishi, K. (2009). Preliminary Report of the April 6, 2009 L'Aquila Earthquake. Journal of Japan Society for Natural Disaster Science, 28(2), 167-183 (in Japanese).
[20]	Uenishi, K. (2009). Book Review - Fundamentals of Rock Mechanics, by J. C. Jaeger, N. G. W. Cook, and R. W. Zimmerman, Fourth Edition, Blackwell Publishing, 2007. Pure Appl. Geophys., 166(12), 2093-2094.
[21]	Uenishi, K. (2009). Book Review - Deformation of Earth Materials: An Introduction to the Rheology of Solid Earth, by Shun-ichiro Karato, Cambridge University Press, 2008. Pure Appl. Geophys., 166(12), 2095-2096.
[22]	Uenishi, K. (2010). Shallow Dip-Slip Earthquake: Its Dynamics and the Generation of the Corner Wave. Report of the Research Center for Urban Safety and Security, Kobe University, 14, 13-22.
[23]	Yamachi, H., G. Tomura, K. Uenishi, N. Shimizu, and S. Sakurai (2010). Renewal System for Small Diameter Tunnels. Construction Machinery and Equipment, 46(7), 61-66 (in Japanese).
[24]	Tomura, G., H. Yamachi, K. Uenishi, and S. Sakurai (2010). Development of a Long Distance Force Feed Method of Plastic Filling Materials for Cavities behind Tunnel Linings. Construction Machinery and Equipment, 46(8), 60-65 (in Japanese).
[25]	Uenishi, K. (2010). Book Review - Fault-Zone Properties and Earthquake Rupture Dynamics, ed. Eiichi Fukuyama, International Geophysics Series, vol.94, Elsevier/Academic Press, 2009. Pure Appl. Geophys., 167(10), 1283.
[26]	Uenishi, K. (2010). Book Review - Seismic Wave Propagation and Scattering in the Heterogeneous Earth, by Haruo Sato and Michael C. Fehler, Second Print, Modern Acoustics and Signal Processing Series, Springer, 2009. Pure Appl. Geophys., 167(12), 1583-1584.
[27]	Uenishi, K., and K. Horie (2011). The Role of the Research Center for Urban Safety and Security in the Seventh Framework Programme (FP7) of the European Commission, "Systemic Seismic Vulnerability and Risk Analysis for Buildings, Lifeline Networks and Infrastructures Safety Gain (SYNER-G)" (Part I). Report of the Research Center for Urban Safety and Security, Kobe University, 15, 9-12.
[28]	Uenishi, K. (2012). Book Review - Earthquakes and Water, by Chi-Yuen Wang and Michael Manga, Lecture Notes in Earth Sciences, Vol. 114, Springer, 2010. Pure Appl. Geophys., 169(1-2), 281-282.
[29]	Uenishi, K., and K. Horie (2012). The Role of the Research Center for Urban Safety and Security in the Seventh Framework Programme (FP7) of the European Commission, "Systemic Seismic Vulnerability and Risk Analysis for Buildings, Lifeline Networks and Infrastructures Safety Gain (SYNER-G)" (Part II). Report of the Research Center for Urban Safety and Security, Kobe University, 16, 15-17.
[30]	Uenishi, K. (2012). On the Numerical Analysis of Solid Dynamics Using the Moving Particle Semi-Implicit (MPS) Method (Part II). Report of the Research Center for Urban Safety and Security, Kobe University, 16, 19-22.
[31]	Uenishi, K. (2012). Dynamic Multiple Structure-Wave-Structure Interactions - Living Next Door to the "Town Effect" -. International Journal of the Japanese Committee for Rock Mechanics (JCRM) of the International Society for Rock Mechanics, 8(1), 15-18.
[32]	Uenishi, K. (2012). Report on Receiving the 2011 JCRM Award - "The Town Effect: Dynamic Interaction between a Group of Structures and Waves in the Ground." Rock Mechanics News, Japanese Committee for Rock Mechanics (JCRM) of the International Society for Rock Mechanics, 104, 11 (in Japanese).
[33]	Uenishi, K., and K. Horie (2013). The Role of the Research Center for Urban Safety and Security in the Seventh Framework Programme (FP7) of the European Commission, "Systemic Seismic Vulnerability and Risk Analysis for Buildings, Lifeline Networks and Infrastructures Safety Gain (SYNER-G)" (Part III). Report of the Research Center for Urban Safety and Security, Kobe University, 17, 161-163.
[34]	Itoh, H., T. Okada, A. Funato, K. Uenishi, T. Uchimura, H. Uno, N. Ookuma, S. Kawasaki, K. Suzuki, M. Nakajima, K. Hayano, S. Yamada, and J. Yoshida (2014). JGS 2561-2012: Method for Multi-Stage Cyclic Undrained Triaxial Compression Test on Rocks, and JGS 2562-2012: Method for Cyclic Undrained Triaxial Compression Test to Determine Fatigue Properties of Rocks, In: New Japanese Geotechnical Standards (Fiscal Year 2013), pp.35-103, The Japanese Geotechnical Society, Tokyo, Japan.
[35]	Uenishi, K. (2014). Multiscale Dynamic Rupture in Layered Media. Report of the Research Center for Urban Safety and Security, Kobe University, 18, 164-165.
[36]	Uenishi, K. (2014). "Rock Mechanics" and Earthquakes - Recent Fifty Years. In: Rock Mechanics: Fifty Years of Progress and Views to the Future (T. Ishida [editor-in-chief]), pp.157-160, Japanese Committee for Rock Mechanics (JCRM, Tokyo, Japan) of the International Society for Rock Mechanics (in Japanese; ISBN: 978-4-907430-02-3).
[37]	Uenishi, K. (2016). Book Review - Elements of Crustal Geomechanics by François Henri Cornet, Cambridge University Press, 2015; ISBN 978-0-52187578-3, USD 204.68. Pure Appl. Geophys., 173(2), 723-724.
[38]	Ohtsu, S., and K. Uenishi (2017). Use of IoT (Internet of Things) Technology in the Safety Management of Slopes. JACIC (Japan Construction Information Center Foundation) Information, 116, 59-64 (in Japanese).
[39]	Ohtsu, S., and K. Uenishi (2018). Safety Management of Earthwork with the Geohazard Prevention Observation Network Utilizing IoT (Internet of Things) Technology. Construction Machinery and Equipment, 54(4), 74-78 (in Japanese).
[40]	Uenishi, K. (2018). Complexities of Fracture Development in Brittle Rock-Like Solid Materials. Memoirs of Construction Engineering Research Institute, 60, 187-188.
[41]	Uenishi, K. (2019). Diversity of Dynamic Fracture Patterns in Granular Media. Memoirs of Construction Engineering Research Institute, 61, 189-190.
[42]	Uenishi, K. (2020). Study of Fracturing. Sosei, Graduate School of Frontier Sciences, The University of Tokyo, 35, 9 (in Japanese).
[43]	Uenishi, K. (2020). Spatiotemporally Complex but Ordered Rupture Evolution in Solids with Multiple Nucleation Sources. Memoirs of Construction Engineering Research Institute, 62, 89-90.
[44]	Uenishi, K. (2021). Fracture Dynamics of Solid Materials: From Particles to the Globe. Phil. Trans. R. Soc. A, 379, 20200122 (4 pages).
[45]	Uenishi, K. (2021). A Cluster of Rupture Events in a Modeled Fault Damage Zone. Memoirs of Construction Engineering Research Institute, 63, 87-88.
[46]	Uenishi, K. (2023). On Two Distinct Types of Seismic Shaking We May Experience. Memoirs of Construction Engineering Research Institute, 65, 115-116.

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