{"id":36,"date":"2020-11-25T17:58:31","date_gmt":"2020-11-25T17:58:31","guid":{"rendered":"https:\/\/faculty.engineering.ucdavis.edu\/bolander-new\/?page_id=36"},"modified":"2024-05-02T18:20:27","modified_gmt":"2024-05-03T01:20:27","slug":"publications","status":"publish","type":"page","link":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\t\t
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\n\t\t\t\t\t\t\t\t\n\t\t\t\tPublications \n\t\t\t<\/h2 > \n\t\t\t\t\t<\/div>\n\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t
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Journal Publications<\/h3>

\u2013Kanazawa, T., Nagai, K., and Bolander, J.E., “Optimization-based analysis of diagonal tension failure of reinforced concrete dapped-end beams,” Journal of Structural Engineering, ASCE<\/em> 2024 (accepted – in press).<\/p>

\u2013Zhang, Q., Elias, J., Nagai, K., and Bolander, J.E., “Discrete modeling of elastic heterogeneous media,” Mechanics Research Communications<\/em> 2024; 137:104277.<\/p>

\u2013Park, J.W., Choo, B., Bolander, J.E., and Lim, Y.M., “Investigation of high strain rate effects on strain-hardening cementitious composites using Voronoi-cell lattice models,” <\/b>Cement and Concrete Composites<\/i> 2024; 147:105408.<\/p>

\u2013Park, J.W., Choo, B., Bolander, J.E., and Lim, Y.M., \u201cRate-dependent lattice modeling of textile reinforced cementitious composites under tensile loading,\u201d <\/b>Construction and Building Materials<\/i> 2024; 411:134189.<\/p>

\u2013Joshi, S.S., Kuntal, V.S., Bolander, J.E., and Nagai, K., \u201cReproducible estimations of internal corrosion distribution from surface cracks using MPC-RBSM<\/a><\/span>,\u201d <\/b>Engineering Fracture Mechanics<\/em> 2023 (109642).<\/p>

\u2013Roghani, H., Nanni, A., and Bolander, J.E., “Early-age cracking behavior of concrete slabs with GFRP reinforcement,” Materials<\/em> 2023; 16(15):5489.<\/p>

\u2013Choo, B., Hwang, Y.K., Bolander, J.E., and Lim, Y.M., “Rigid-body-spring network model for failure simulation of reinforced concrete members under various loading rates,” International Journal for Numerical and Analytical Methods in Geomechanics<\/em> 2023; 47(12):2213-2230.<\/p>

\u2013Nguyen, P.H., Nguyen, H.H., Luong, Q.-H., Bolander, J.E., and Lee, B.Y., “Optimization of fly ash-based polyethylene fiber-reinforced engineered cement-free composites (ECFC) with low-density and ultra-ductility using Taguchi robust design method,” Journal of Building Engineering<\/em> 2023; 66:105946.<\/p>

\u2013Sukumar, N. and Bolander, J.E., “Virtual element method for modeling the deformation of multiphase composites,” Mechanics Research Communications<\/em> 2022; 124:103907.<\/p>

\u2013 Fascetti, A., Ichimaru, S., and Bolander, J.E., “Stochastic lattice discrete particle modeling of fracture in pervious concrete,” Computer-Aided Civil and Infrastructure Engineering<\/em> 2022; 37:1788-1808.<\/p>

\u2013 Hwang, Y.K., Bolander, J.E., Lim, Y.M., and Hong, J.W., “Compatible coupling of discrete elements and finite elements using Delaunay-Voronoi dual tessellations,” Computational Particle Mechanics<\/em> 2022; 9:1351-1365.<\/p>

\u2013Jiang, H., Li, S., Bolander, J.E., and Kunnath, S., “Seismic performance of a new type of couple shear wall with replaceable components: experimental validation,” Journal of Earthquake Engineering<\/em> 2022; doi: 10.1080\/13632469.2022.2033353.<\/p>

\u2013 Grayson-Wallace, B., Aljasar, A., Cheng, L., Bolander, J.E., and Kunnath, S., “Advances in shear strengthening of concrete bridge girders,” Journal of Bridge Engineering, ASCE<\/em> 2022; 27(6):03122002.<\/p>

\u2013 Avadh, K., Jiradilok, P., Bolander, J.E., and Nagai, K., “3D mesoscale simulation of the influence of corrosion on loss of tension stiffening in reinforced concrete,” Construction and Building Materials<\/em> 2022; 339:127684.<\/p>

\u2013 Bolander, J.E., Elias, J., Cusatis, G., and Nagai, K., “Discrete mechanical models of concrete fracture,” Engineering Fracture Mechanics<\/em> 2021; 257:108030.<\/p>

\u2013Kuntal, V.S., Jiradilok, P., Bolander, J.E., and Nagai, K., “Estimation of internal corrosion degree from observed surface cracking of concrete using mesoscale simulation with Model Predictive Control,” Computer-Aided Civil and Infrastructure Engineering<\/em> 2021; 36(5):544-559.<\/p>

\u2013 Avadh, K., Jiradilok, P., Bolander, J.E., and Nagai, K., “Mesoscale simulation of pull-out performance for corroded reinforcement with stirrup confinement in concrete by 3D RBSM,” Cement and Concrete Composites<\/em> 2021; 116:103895.<\/p>

\u2013 Avadh, K., Jiradilok, P., Bolander, J.E., and Nagai, K., “Direct observation of the local bond behavior between corroded reinforcing bars and concrete using digital image correlation,” Cement and Concrete Composites<\/em> 2021; 123:104180.<\/p>

\u2013 Pan, Y., Kang, J., Ichimaru, S., and Bolander, J.E., \u201cMulti-field models of fiber reinforced concrete for structural applications,\u201d\u00a0Applied Sciences<\/em>\u00a02021; 11:184. https:\/\/dx.doi.org\/10.3390\/app11010184.<\/p>

\u2013 Hwang, Y.K., Bolander, J.E., Lim, Y.M., and Hong, J.-W., \u201cCoupling of SPH and Voronoi-cell lattice models for simulating fluid-structure interaction,\u201d\u00a0Computational Particle Mechanics<\/em>\u00a02020, https:\/\/doi.org\/10.1007\/s40571-020-00371-0.<\/p>

\u2013 Tamai, H., Sonoda, Y., and Bolander, J.E., \u201cImpact resistance of RC beams with reinforcement corrosion: Experimental observations,\u201d\u00a0Construction and Building Materials<\/em>\u00a02020; 263:120638.<\/p>

\u2013 Kuntal, V.S., Jiradilok, P., Bolander, J.E., and Nagai, K., \u201cEstimation of internal corrosion degree from observed surface cracking of concrete using meso-scale simulation with Model Predictive Control,\u201d\u00a0Computer-Aided Civil and Infrastructure Engineering<\/em>\u00a02020; DOI: 10.1111\/mice.12620.<\/p>

\u2013 Hwang, Y.K., Bolander, J.E., Hong, J.-W., and Lim, Y.M., \u201cIrregular lattice model for geometrically nonlinear dynamics of structures,\u201d\u00a0Mechanics Research Communications<\/em>\u00a02020; 107:103554.<\/p>

\u2013 Naito, N., Sugiyama, R., and Bolander, J.E., \u201cLocal vibration testing and damage evaluation for RC bridge decks,\u201d\u00a0Journal of Structural Engineering, ASCE<\/em>\u00a02020; 146(9):04020168.<\/p>

\u2013 Hwang, Y.K., Bolander, J.E., and Lim, Y.M., \u201cEvaluation of dynamic tensile strength of concrete using lattice-based simulations of spalling tests,\u201d\u00a0International Journal of Fracture\u00a0<\/em>2020; DOI 10.1007\/s10704-020-00422-w.<\/p>

\u2013 Mateos, A., Harvey, J., Bolander, J.E., Wu, R., Paniagua, J., and Paniagua, F., \u201cStructural response of concrete pavement slabs under hygrothermal actions,\u201d\u00a0Construction and Building Materials<\/em>\u00a02020; 243:118261. https:\/\/doi.org\/10.1016\/j.conbuildmat.2020.118261.<\/p>

Naito, N. and Bolander, J.E., \u201cDamage detection method for RC members using local vibration testing,\u201d\u00a0Engineering Structures<\/em>\u00a02019; 178:361-374.<\/p>

Mateos, A., Harvey, J., Bolander, J.E., Wu, R., Paniagua, J., and Paniagua, F., \u201cField evaluation of the impact of environmental conditions on concrete moisture-related shrinkage and coefficient of thermal expansion,\u201d\u00a0Construction and Building Materials<\/em>\u00a02019, 225:348-357.<\/p>

\u2013 Fascetti, A., Bolander, J.E., and Nistic\u00f3, N., \u201cLattice discrete particle modeling of concrete under compressive loading: Multiscale experimental approach for parameter determination,\u201d\u00a0Journal of Engineering Mechanics, ASCE<\/em>\u00a02018; 144(8), DOI 10.1061\/(ASCE)EM.1943-7889.0001480<\/p>

\u2013 Asahina, D., Pan, P., Tsukasa, K., Takeda, M., and Bolander, J.E., \u201cSimulating hydraulic fracturing processes in laboratory-scale geological media using three-dimensional TOUGH-RBSN,\u201d\u00a0Journal of Rock Mechanics and Geotechnical Engineering<\/em>\u00a02018; 10:1102-1111.<\/p>

\u2013 Lee, C., Park, S., Bolander, J.E., and Pyo, S., \u201cMonitoring the hardening process of ultra high performance concrete using decomposed modes of guided waves,\u201d\u00a0Construction and Building Materials<\/em>\u00a02018; 163:267-276.<\/p>

\u2013 Kang, J. and Bolander, J.E., \u201cEvent-based lattice modeling of strain-hardening cementitious composites,\u201d\u00a0International Journal of Fracture<\/em>\u00a02017; 206:245-261. DOI 10.1007\/s10704-017-0214-2<\/p>

\u2013 Pan, Y., Prado, A., Porras, R., Hafez, O., and Bolander, J.E., \u201cLattice modeling of early-age behavior of structural concrete,\u201d\u00a0Materials<\/em>\u00a02017; 10(3), 231.<\/p>

\u2013 Asahina, D., Aoyagi, K., Kim, K., Birkholzer, J.T., and Bolander, J.E., \u201cElastically homogeneous lattice models of damage in geomaterials,\u201d\u00a0Computers & Geotechnics<\/em>\u00a02017; 81:195-206.<\/p>

\u2013 Grassl, P. and Bolander, J.E., \u201cThree-dimensional network model for coupling of fracture and mass transport in quasi-brittle geomaterials,\u201d\u00a0Materials<\/em>\u00a02016; 9(9): 782.<\/p>

\u2013 Hwang, Y.K., Bolander, J.E., and Lim, Y.M. \u201cSimulation of concrete tensile failure under high loading rates using three-dimensional irregular lattice models,\u201d\u00a0Mechanics of Materials<\/em>\u00a02016; 101:136-146.<\/p>

\u2013 Kang, J. and Bolander, J.E., \u201cMultiscale modeling of strain-hardening cementitious composites,\u201d\u00a0Mechanics Research Communications<\/em>\u00a02016; 78: 47-54.<\/p>

\u2013 Asahina, D., Ito, K. Houseworth, J., Birkholzer, J., and Bolander, J.E., \u201cSimulating the Poisson effect in lattice models of elastic continua,\u201d\u00a0Computers & Geotechnics<\/em>\u00a02015; 70:60-67.<\/p>

\u2013 Tompkins, D., Khazanovich, L., and Bolander, J.E., \u201cLattice modeling of fracture in composite concrete pavements and overlays,\u201d\u00a0International Journal of Pavement Engineering<\/em>\u00a02015; 16(1):56-68.<\/p>

\u2013 Asahina, D., Houseworth, J., Birkholzer, J., and Bolander, J.E., \u201cHydro-mechanical model for fracture development and transport in geomaterials,\u201d\u00a0Computers & Geosciences<\/em>\u00a02014; 65:13-23.<\/p>

\u2013 deWolski, S.C., Bolander, J.E., and Landis, E.N., \u201cAn\u00a0in-situ<\/em>\u00a0study of cement split cylinder fracture using X-ray microtomography,\u201d\u00a0Experimental Mechanics<\/em>\u00a02014; 54:1227-1235.<\/p>

\u2013 Kang, J., Kim, K., Lim, Y.M., and Bolander, J.E., \u201cModeling of fiber-reinforced cement composites: discrete representation of fiber pullout,\u201d\u00a0International Journal of Solids and Structures<\/em>\u00a02014; 51(10):1970-1979.<\/p>

\u2013 Svec, O. Zirgulis, G., Bolander, J.E., and Stang, H., \u201cInfluence of formwork surface on the orientation of steel fibres within self-compacting concrete and on the mechanical properties of cast structural elements,\u201d\u00a0Cement and Concrete Composites<\/em>\u00a02014; 50:60-72.<\/p>

\u2013 Asahina, D., Kim, K., Li, Z., and Bolander, J.E., \u201cFlow field calculations within discrete models of multiphase materials,\u201d\u00a0Composites: Part B<\/em>\u00a02014; 58:293-302.<\/p>

\u2013 Kim, K., Bolander, J.E., and Lim, Y.M., \u201cFailure simulation of RC structures under highly dynamic conditions using random lattice models,\u201d\u00a0Computers and Structures<\/em>\u00a02013; 125:127-136.<\/p>

\u2013 D. Asahina, E.N. Landis, and J.E. Bolander, \u201cModeling of phase interfaces during pre-critical crack growth in concrete.\u201d Cement and Concrete Composites, 33, 2011, 966-977.<\/p>

\u2013 D. Asahina and J.E. Bolander, \u201cVoronoi-based discretizations for fracture analysis of particulate materials.\u201d Powder Technology, 213, 2011, 92-99.<\/p>

\u2013 J.-W. Nam, M.P. Abell, Y.M. Lim, and J.E. Bolander, \u201cStrength degradation of fiber-reinforced cement composites exposed to simulated environments.\u201d ACI Special Publication SP-272-10, 2010, 189-204.<\/p>

\u2013 E.N. Landis and J.E. Bolander, \u201cExplicit representation of physical processes in concrete fracture.\u201d J. Physics D: Applied Physics, 42, 2009, 214002.<\/p>

\u2013 J.E. Bolander, S. Choi, and S.R. Duddukuri, \u201cFracture of fiber-reinforced cement composites: Effects of fiber distribution.\u201d International J. Fracture, 154, 2008, 73-86.<\/p>

\u2013 N. Ogura, J.E. Bolander, and T. Ichinose, \u201cAnalysis of bond splitting failure of deformed bars within structural concrete.\u201d Engineering Structures, 30(2), 2008, 428-435.<\/p>

\u2013 S. Berton and J.E. Bolander, \u201cCrack band modeling of fracture in irregular lattices.\u201d Computer Methods in Applied Mechanics and Engineering, 195, 2006, 7172-7181<\/p>

\u2013 Z. Li, M. Perez Lara, and J.E. Bolander, \u201cRestraining effects of fibers during non-uniform drying of cement composites.\u201d Cement and Concrete Research, 36(9), 2006, 1643-1652.<\/p>

\u2013 M. Yip, Z. Li, B.-S. Liao, and J.E. Bolander, \u201cIrregular lattice models of fracture of multiphase particulate materials.\u201d International J. Fracture, 140(1-4), 2006, 113-124.<\/p>

\u2013 J.E. Bolander and N. Sukumar, \u201cIrregular lattice model for quasistatic crack propagation.\u201d Physical Review B, 71, 094106, 2005 (12 pages).<\/p>

\u2013 M. Yip, J. Mohle, and J.E. Bolander, \u201cAutomated modeling of 3-D structural components using irregular lattices.\u201d J. Computer-Aided Civil and Infrastructure Engineering, 20(6), 2005, 393-407.<\/p>

\u2013 S. Berton, S. and J.E. Bolander, \u201cAmplification system for supplemental damping devices in seismic applications.\u201d J Structural Engineering, 131(6), 2005, 979-983.<\/p>

\u2013 J.E. Bolander and S. Berton \u201cSimulation of shrinkage induced cracking in cement composite overlays.\u201d Cement & Concrete Composites, 26, 2004, 861-871.<\/p>

\u2013 T. Ichinose, Y. Kanayama, Y. Inoue, and J.E. Bolander, \u201cSize effect on bond strength of deformed bars.\u201d Construction and Building Materials, 18, 2004, 549-558.<\/p>

\u2013 N. Sukumar and J.E. Bolander, \u201cNumerical computation of discrete di\u00b7erential operators on non-uniform grids.\u201d Computer Modeling in Engineering & Sciences 4 (6), 2003, 691-706.<\/p>

\u2013 J.E. Bolander and G.S. Hong, \u201cRigid-Body-Spring Network modeling of prestressed concrete members.\u201d ACI Structural Journal, 99 (5), 2002, pp. 595-604.<\/p>

\u2013 J. Thomure, J.E. Bolander, and M. Kunieda, \u201cReducing mesh bias on fracture in Rigid-Body-Spring Networks.\u201d Journal of Structural Mechanics and Earthquake Engineering, JSCE, No. 682\/I-56, 2001, pp. 15-23.<\/p>

\u2013 J.E. Bolander, G.S. Hong, and K. Yoshitake, \u201cStructural concrete analysis using rigid-body-spring networks.\u201d Computer-Aided Civil and Infrastructure Engineering, 15, 2000, 120-133.<\/p>

\u2013 J.E. Bolander, K. Yoshitake, and J. Thomure, \u201cStress analysis using elastically uniform rigid-body-spring networks.\u201d Journal of Structural Mechanics and Earthquake Engineering, JSCE, No. 633\/I-49, 1999, 25-32.<\/p>

\u2013 J.E. Bolander and B.D. Le, \u201cModeling crack development in reinforced concrete structures under service loading.\u201d Construction and Building Materials, 13, 1999, 23-31.<\/p>

\u2013 J.E. Bolander, H. Hikosaka and W.-J. He, \u201cFracture in concrete specimens of differing scale.\u201d Engineering Computations, 15 (8), 1998, 1094-116.<\/p>

\u2013 J.E. Bolander and S. Saito, \u201cFracture analysis using spring networks with random geometry.\u201d Engineering Fracture Mechanics, 61, 1998, 569-91.<\/p>

\u2013 J.E. Bolander and S. Saito, \u201cDiscrete modeling of short-fiber reinforcement in cementitious composites.\u201d Advanced Cement Based Materials, 6, 1997, 76-86.<\/p>

\u2013 J.E. Bolander, T. Shiraishi and Y. Isogawa, \u201cAn adaptive procedure for fracture simulation in extensive lattice networks.\u201d EngineeringFracture Mechanics, 54, 1996, 325-34.<\/p>

\u2013 J.E. Bolander and H. Hikosaka, \u201cSimulation of fracture in cement-based composites.\u201d Cement and Concrete Composites, 17, 1995, 135-45.<\/p>

Selected Conference\/Workshop Proceedings<\/h3>

\u2013 J.E. Bolander, Z. Li, and M. Yip, \u201cRestraint and cracking during non-uniform drying of cement composites,\u201d Proceedings of the Transport Properties and Concrete Quality Workshop \u2013 Materials Science of Concrete, American Ceramic Society, 2007, 123-140.<\/p>

\u2013 J.E. Bolander, \u201cFailure analysis of RC structures using irregular lattice models,\u201d Proceedings of US-Japan-Europe Workshop on Finite Element Analysis of Reinforced Concrete Structures, eds. L. Lowes and F. Filippou, American Concrete Institute, SP-237, 2006, 259-276.<\/p>

\u2013 J.E. Bolander and T.G. Dang, \u201cLife cycle design of building structures in diverse regional settings.\u201d In Eighth International Symposium on Ferrocement and Thin Reinforced Cement Composites, eds. P. Nimityongskul et al., 2006, pp. 33-50.<\/p>

\u2013 S. Berton, J.E. Bolander, and H. Hikosaka, \u201cParametric response of base isolated structures subjected to near-fault ground motions.\u201d 8th US National Conference on Earthquake Engineering, San Francisco, April 2006 (on CD-ROM)<\/p>

\u2013 J.E. Bolander, Z. Li, and Y.M. Lim, \u201cFracture of cement-based materials under hygral-mechanical loading.\u201d In Creep, Shrinkage and Durability Mechanics of Concrete and Concrete Structures, eds. G. Pijaudier-Cabot, B. Gerard and P. Acker, Hermes Science, 2005, pp. 163-168.<\/p>

\u2013 J.E. Bolander, \u201cNumerical modeling of fiber reinforced cement composites: Linking material scales.\u201d In Proceedings of the Sixth International RILEM Symposium on Fibre-Reinforced Concretes \u2013 BEFIB 2004, eds. M. di Prisco, R. Felicetti and G.A. Plizzari, RILEM, 2004, pp. 45-60.<\/p>

\u2013 J.E. Bolander and Z. Li, \u201cThe effects of fiber restraint on the shrinkage of cement composites.\u201d In Advancing Concrete through Science and Engineering, RILEM Spring Meeting, Center for Advanced Cement Based Materials, Northwestern University, March 2004 (on CD-ROM).<\/p>

\u2013 M. Kunieda, T. Kamada, K. Rokugo, and J.E. Bolander, \u201cLocalized fracture of repair materials in patch repair systems.\u201d In Fracture Mechanics of Concrete Structures, eds, V.C. Li et al., Ia-FraMCos, 2004, pp. 765-772.<\/p>

\u2013 J.E. Bolander and S. Berton, \u201cCohesive zone modeling of fracture in irregular lattices.\u201d In Fracture Mechanics of Concrete Structures, eds, V.C. Li et al., Ia-FraMCos, 2004, pp. 989-994.<\/p>

\u2013 D. Asahina, J.E. Bolander and S. Berton, \u201cDesign optimization of passive devices in multi-degree of freedom structures.\u201d In 13th World Conference on Earthquake Engineering, Vancouver, Canada, August 2004 (on CD-ROM).<\/p>

\u2013 S. Berton, H. Strandgaard and J.E. Bolander, \u201cEffect of non-linear fluid viscous dampers on the size of expansion joints of multi-span prestressed concrete segmental box-girder bridges.\u201d In 13th World Conference on Earthquake Engineering, Vancouver, Canada, August 2004 (on CD-ROM).<\/p>

\u2013 J.E. Bolander and M. Yip, \u201cNumerical modeling of fiber reinforced cement composites subjected to drying.\u201d In Fourth International Workshop on High Performance Fiber Reinforced Cement Composites \u2013 HPFRCC4, eds. A.E. Naaman and H.W. Reinhardt, RILEM, 2003, pp. 7-20.<\/p>

\u2013 S. Berton and J.E. Bolander, \u201cAmplification system for passive energy dissipation devices in seismic applications.\u201d In Seventh U.S. National Conference on Earthquake Engineering, Earthquake Engineering Research Institute, 2002, CD-ROM.<\/p>

\u2013 J.E. Bolander, S. Berton, and E. Emerick, \u201cInclusion interaction effects on concrete creep.\u201d In Creep, Shrinkage and Durability Mechanics of Concrete and other Quasi-Brittle Materials, eds. F.-J. Ulm, Z.P. Bazant and F.H. Wittmann, Elsevier Science Ltd., 2001, pp. 89-94.<\/p>

\u2013 J.E. Bolander and M.A. Perez Lara y Hernandez, \u201cModeling fiber distribution effects within cement composites.\u201d Seventh International Symposium on Ferrocement and Thin Reinforced Cement Composites \u2013 Ferro 7, 2001, pp. 131-142.<\/p>

\u2013 M. Kunieda, J.E. Bolander, T. Kamada, and K. Rokugo, \u201cFailure analysis of concrete members repaired by crack injection techniques.\u201d In Proceedings of the Third International Conference on Concrete under Severe Conditions \u2013 CONSEC `01, eds. N. Banthia, K. Sakai and O.E. Gjorv, 2001, pp. 1955-1962.<\/p>

\u2013 J.E. Bolander, K. Moriizumi, M. Kunieda, M. Yip, \u201d Rigid-Body-Spring Network modeling of cement-based composites.\u201d In Fracture Mechanics of Concrete Structures, eds. R. de Borst, J. Mazars, G. Pijaudier-Cabot and J.G.M. van Mier, A.A. Balkema Publishers, 2001, pp. 773-780.<\/p>

\u2013 R.A. Sofronie and J.E. Bolander, \u201cNew repair and rehabilitation technologies for masonry buildings.\u201d In Repairing and Rehabilitating the Buildings and Bridges of the Americas \u2013 Hemispheric Workshop on Future Directions, Mayaguez, Puerto Rico, April, 2001.<\/p>

\u2013 J. Thomure, M. Yip and J.E. Bolander, \u201cConsistent fracture energy consumption in random spring networks.\u201d In Fourteenth Engineering Mechanics Conference, ed. J.L. Tassoulas, ASCE, 2000 (CD-ROM).<\/p>

\u2013 M. Kunieda and J. Bolander, \u201cConcrete surface roughness as a diagnostic tool and performance indicator.\u201d Proceedings of the Seventh Annual Undergraduate Faculty Enhancement Workshop \u2013 Teaching the Materials Science, Engineering, and Field Aspects of Concrete, Center for Science and Technology of Advanced Cement-Based Materials, Northwestern University, 2000, 5-10.<\/p>

\u2013 J.E. Bolander, \u201cSpring network model of fiber-reinforced cement composites.\u201d In High Performance Fiber Reinforced Cement Composites (HPFRCC 3), eds. H.W. Reinhardt and A.E. Naaman, RILEM, 1999, 341-50.<\/p>

\u2013 J.E. Bolander, Report VIII within the CAMUS International Benchmark, organized by the Commissariat a l\u2019Energie Atomique and GEO under the auspicies of the French Association for Earthquake Engineering, 1998.<\/p>

\u2013 J.E. Bolander, \u201cDesigning for Durability.\u201d Proceedings of the Fifth Annual Undergraduate Faculty Enhancement Workshop \u2013 Teaching the Materials Science, Engineering, and Field Aspects of Concrete, NSF Center for Science and Technology of Advanced Cement-Based Materials, Northwestern University, 1998, 43-51.<\/p>

\u2013 J.E. Bolander, \u201cStress analysis using spring networks with random geometry.\u201d In Engineering Mechanics: A Force for the 21st Century, 12th EMD Conference, eds. J.E. Luco and H. Murakami, ASCE, 1998, 630-3.<\/p>

\u2013 S. Saito and J.E. Bolander, \u201cNumerical analysis of shrinkage cracking controlled by carbon fiber nets.\u201d In Third International Conference on Non-metallic (FRP) Reinforcement for Concrete Structures, Sapporo, Japan, 1997.<\/p>

\u2013 J.E. Bolander, Y. Kobashi and J. Kintzel, \u201cStructural optimization through genetic adaptation and regeneration.\u201d OPTI 95 \u2013 The Fourth International Conference on Computer Aided Optimum Design of Structures, Computational Mechanics Publications, 1995, 85-92.<\/p>

\u2013 J.E. Bolander, T. Ebihara and H. Hikosaka, \u201cEvaluating concrete mesoscale properties using neural networks.\u201d Infrastructure: New Materials and Methods of Repair, Proceeding of the Third Materials Engineering Conference, ASCE, 1994, 475-482<\/p>\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<\/div>\n\t\t","protected":false},"excerpt":{"rendered":"

Publications Journal Publications \u2013Kanazawa, T., Nagai, K., and Bolander, J.E., “Optimization-based analysis of diagonal tension failure of reinforced concrete dapped-end beams,” Journal of Structural Engineering, ASCE 2024 (accepted – in press). \u2013Zhang, Q., Elias, J., Nagai, K., and Bolander, J.E., “Discrete modeling of elastic heterogeneous media,” Mechanics Research Communications 2024; 137:104277. \u2013Park, J.W., Choo, B., […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"inline_featured_image":false,"footnotes":""},"class_list":["post-36","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/wp-json\/wp\/v2\/pages\/36","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/wp-json\/wp\/v2\/comments?post=36"}],"version-history":[{"count":91,"href":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/wp-json\/wp\/v2\/pages\/36\/revisions"}],"predecessor-version":[{"id":1121,"href":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/wp-json\/wp\/v2\/pages\/36\/revisions\/1121"}],"wp:attachment":[{"href":"https:\/\/faculty.engineering.ucdavis.edu\/bolander\/wp-json\/wp\/v2\/media?parent=36"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}