Publications

For a full list of my publications, please see my .听

Publications:

  • Namakiaraghi, Parsa, Irene Verd煤, Ali Rahmaninezhad, Sumeet Musfirah, Mija H. Hubler, Ahmad R. Najafi, Christopher M. Sales, and Yaghoob Amir Farnam. "Microbial-Induced Stable Iron Mineral Production for Corrosion Mitigation Application in Reinforced Concrete."聽Cement and Concrete Composites聽(2025): 106214.听
  • Joo, Hyun-Woo, Matthew H. Fyfe, Irene Verd煤, Seyed Ali Rahmaninezhad, Christopher M. Sales, Wil V. Srubar III, and Mija H. Hubler. "Characterization of ureolysis and microbially induced calcium carbonate precipitation under different incubation and reaction conditions."聽Biochemical Engineering Journal聽(2025): 109827.听
  • Lee, H. W., Seyed A. Rahmaninezhad, Li Meng, Wil V. Srubar III, Christopher M. Sales, Yaghoob Amir Farnam, Mija H. Hubler, and Ahmad R. Najafi. "Prediction of microbial-induced calcium carbonate precipitation for self-healing cementitious material."聽Cement and Concrete Composites聽158 (2025): 105945.听
  • Lee, H.W, Meng, Ll, Ashkpour, R., Sadighi, A., Iqbal, M.I., Pour-Ghaz, M., Hubler, M.H., Sales, C.M., Farnam, Y.A., and Najafi, A.R., (2025) 鈥淪ensitivity of embedded channel for self-healing agent delivery on splitting tensile strength of concrete,鈥 Journal of Building Engineering, 102, p. 111838.听
  • Lee, H.W., Meng, L., Ashkpour, A., Rahmaninezhad, S.A., Iqbal, M.I., Mishra, G., Hubler, M.H., Sales, C.M., Farnam, Y.A. and Najafi, A.R., (2024) 鈥淢odeling the uncoupled damage-healing behavior of self-healing cementitious material with phase-field method.鈥澛Construction and Building Materials,听456, p.139007.听
  • Tonin, N. R., Ghosh, S. K., Balaji, R., Hubler, M. H., 鈥淟ifetime Reduction of Concrete Infrastructure due to Global Warming in the United States.鈥 Concrete International, 2024, Vol 46, Issue 12, p50
  • Meng, L., Lee, H. W., Ashkpour, A., Sales, C. M., Farnam, Y. A., Hubler, M. H., & Najafi, A. R. (2024). 鈥淏ound-constrained optimization using Lagrange multiplier for a length scale insensitive phase field fracture model.鈥澛Engineering Fracture Mechanics,听310, 110496.听
  • M. Matar, M. H. Hubler, L. Li, 鈥淓ffect of Carbon Nanofibers on the Hydration of Ultrahigh-Performance Concrete: Experimental Study and Model Development,鈥 Journal of Materials in Civil Engineering.听2024听L. Li, B. Wang, H. Xu, H. T. Nguyen, Z. P. Bazant, M. H. Hubler 鈥淐rack-Parallel Stress Effect on Fracture of Fiber-Reinforced Concrete Revealed by Gap Test,鈥 Journal of Engineering Mechanics. 2024听
  • McKee, C.; Sideris, P.; Hubler, M. A Macromechanical Constitutive Model for Rebar Buckling,鈥 Journal of Structural Engineering, 149(8): 04023105, 2023
  • A. Brugger, et. al, 鈥淭he Complex, Unique and Powerful Imaging Instrument for Dynamics (CUPI2D) at the Spallation Neutron Source,鈥 94, 051301 Review of Scientific Instruments, 2023.听
  • Delesky, E.A.; Jones, R.J.; Cook, S.M.; Cameron, J.C.; Hubler M.H.; Srubar, W.V. (2023) Hydrogel-assisted self-healing of biomineralized living building materials. Journal of Cleaner Production, 418: 138178, 2023.听
  • Wang, Y.; Hubler, M.; Bhat, R.R.; Srubar, W.V.; Frazier, S.; Burnett, L.; Linfei, L.; Stanley, B.; Dick, R.; James, S. Carbon-Negative Pilot. Concrete International, 45(8), 2023.
  • B. Hedegaard, T. Clement, M. H. Hubler, 鈥淐oupled Pore Relative Humidity Model for Concrete Shrinkage and Creep鈥 ACI Materials Journal, 2023.听
  • P. Dixon, T. Tafsirojjaman, J. Klingaman, M. H. Hubler, S. Dashti, T. O鈥橰ourke, K. Farrag, A. Manalo, B. Wham, 鈥淪tate-of-the-Art Review of Performance Objectives for Legacy Gas Pipelines with Pipe-in-Pipe Rehabilitation Technologies,鈥 Journal of Pipeline Systems Engineering and Practice, 2022.听
  • L. Li, B. Wang, M. H. Hubler, 鈥淐arbon nanofibers (CNFs) dispersed in ultra-high performance concrete (UHPC): Mechanical property, workability and permeability investigation鈥 Cement and Concrete Composites, 2022.听
  • L. Li, Y. Zhang, M. H. Hubler, Y. Xi*, 鈥淓xperimental Study on Nanoparticle Injection by Using a Lab-scale Wellbore System鈥 Cement and Concrete Composites, 2022.
  • M. H. Hubler* and Z. Alquraini, 鈥淲orking with Randomness: A Perspective on Using Spatial Statistics to Engineer the Mechanics of Heterogenous Materials,鈥 Mechanics Research Communications, 2021.
  • L. Li, Y. Zhang, M. H. Hubler, and Y. Xi*, 鈥淓xperimental Study on Nanoparticle Injection Technology for Remediating Leaks of Gas Storage and Transportation,鈥 Journal of Petroleum Science and Engineering, 2021.
  • L. Li, M. Abdelrahman, M. H. Hubler, Y. Xi*, 鈥淣umerical Modeling of the Injection of Nanoparticles in Saturated Cementitious Material by Electromigration,鈥 Journal of Engineering Mechanics, 2021.听
  • J. Qiu, J. Artier, S. M. Cook, W. V. Srubar III, J. C. Cameron*, M. H. Hubler*, 鈥淓ngineering Living Building Materials (LBMs) towards Enhanced Bacterial Viability and Mechanical Properties,鈥 iScience, 2021.
  • L. Li, M. H. Hubler, and Y. Xi*, 鈥淭heoretical Modeling on Chemical Composition and Mechanical Properties of Well Cement under Carbonation Reactions,鈥 Journal of Cleaner Production, 2020.
  • M. H. Hubler*, S. Al Wakeel, and B. Wang, 鈥淚mproving Concrete Toughness by Aggregate Arrangement,鈥 RILEM Technical Letters, 5, 2020.
  • Y. Zhang, L. Li, Y. Xi, and M. H. Hubler*, 鈥淓xperimental and theoretical study of the restrained shrinkage cracking of early age well cement,鈥 Construction and Building Materials, 11, 2020.
  • Y. Zhang and M. H. Hubler*, 鈥淭he role of early drying cracks in the shrinkage size effect of cement paste,鈥 Journal of Engineering Mechanics, 2020.
  • L. Li, M. H. Hubler, and Y. Xi*, 鈥淢odelling the Corrosion of Steel Casing and the Damage of Well Cement in a Borehole System,鈥 Construction and Building Materials, 259, 119701. 2020.
  • C. M. Heveran, S. L. Williams, J. Qiu, J. Artier, M. H. Hubler, S. M. Cook, J. C. Cameron, and W. V. Srubar III*, 鈥淏iomineralization and Successive Regeneration of Engineered Living Building Materials.鈥 Matter, 2 (2), 481-494. 2020.
  • P. S. Baqu茅 and M. H. Hubler*, 鈥淧article spatial arrangement metrics for near-crack-tip stress,鈥 Theoretical and Applied Fracture Mechanics, 104, 102386. 2019.
  • C. M. Heveran*, L. Liang, A. Nagarajan, M. H. Hubler, R. Gill, R, J. Cameron, S. M. Cook, and W. V. Srubar, 鈥淓ngineered Ureolytic Microorganisms Can Tailor the Morphology and Nanomechanical Properties of Microbial-Precipitated Calcium Carbonate.鈥 Scientific Reports, 9, 1-13. 2019.
  • L. D. Montoya*, H. K. Gadde, W. M. Champion, N. Li, and M. H. Hubler. 鈥淧M2.5 generated during rapid failure of fiber-reinforced concrete induces TNF-alpha response in macrophages.鈥澛Science of The Total Environment, 690, 209-216. 2019.
  • S. Al Wakeel, J. N臎me膷ek, L. Li, Y. Xi, and M. H. Hubler*. 鈥淭he effect of introducing nanoparticles on the fracture toughness of well cement,鈥 International Journal of Greenhouse Gas Control,听84, 147-153. 2019.
  • L. Liang*, C. M. Heveran, R. Liu, R. T. Gill, A. Nagarajan, J. Cameron, M. H. Hubler, W. V. Srubar III, and S. M. Cook*. 鈥淩ational control of calcite precipitation by engineered scherichia coli.鈥 ACS Synthetic Biology, 7 (11), 2497-2506. 2018.
  • S. Al Wakeel, F. Ghanbari, and M. H. Hubler*. 鈥淧article arrangement effects on the stress intensity in composite material.鈥澛Engineering Fracture Mechanics, 202, 33-46. 2018. .
  • S. Al Wakeel, and M. H. Hubler*. 鈥淚ntroducing heterogeneity into the micro-scratch test fracture toughness relation for brittle particle composites,鈥澛Experimental Mechanics, 58, 1127-1247. 2018. .
  • S. Monfared*, H. Laubie, F. Radjai, M. H. Hubler, R. Pellenq, and F.-J. Ulm. 鈥淎 methodology to calibrate and to validate effective solid potentials of heterogeneous porous media from computed tomography scans and laboratory-measured nanoindentation data,鈥澛Acta Geotechnica, 13(6). 1369-1394. 2018. .
  • E. W. Heichelheim, L. D. Montoya, and M. H. Hubler*. 鈥淎erosol generation in compressive concrete fragmentation,鈥澛Construction and Building Materials,听155, 1039-1049. 2017. .
  • M. H. Hubler*, J. Gelb, and F.-J. Ulm. 鈥淢icrotexture analysis of gas shale by XRM imaging,鈥澛Journal of Nanomechanics and Micromechanics,听7(3), 04017005. 2017. .
  • M. H. Hubler*, F.-J. Ulm. 鈥淪ize Effect Law for Scratch Tests of Axisymmetric Shape,鈥 Journal of Engineering Mechanics. 142(12), 04016094. 2016. .
  • Q. Yu, J.-L. Le, M. H. Hubler, R. Wendner, G. Cusatis, and Z. P. Ba啪ant*, 鈥淐omparison of Main Models for Size Effect on Shear Strength of Reinforced and Prestressed Concrete Beams鈥 Structural Concrete. 17(5), 778-789. 2016. .
  • RILEM TC-242-MDC, 鈥淩ILEM draft recommendation: TC-242-MDC multi-decade creep and shrinkage of concrete: material model and structural analysis*,鈥 RILEM Materials and Structures,48(4), 753-770. 2015. .
  • R. Wendner, M. H. Hubler, and Z. P. Ba啪ant*, 鈥淥ptimization method, choice of form and uncertainty quantification of Model B4 using laboratory and multi-decade bridge databases,鈥 RILEM Materials and Structures,4(48), 771-796. 2015. .
  • M. H. Hubler, R. Wendner, and Z. P. Ba啪ant*, 鈥淪tatistical justification of Model B4 for drying and autogenous shrinkage of concrete and comparisons to other models,鈥 RILEM Materials and Structures, 48(4), 797-814. 2015. .
  • R. Wendner, M. H. Hubler, and Z. P. Ba啪ant*, 鈥淪tatistical justification of model B4 for multi-decade concrete creep using laboratory and bridge databases and comparisons to other models,鈥 RILEM Materials and Structures, 48(4), 815-833. 2015. .
  • M. H. Hubler, R. Wendner, and Z. P. Ba啪ant*, 鈥淐omprehensive Database for Concrete Creep and Shrinkage: Analysis and Recommendations for Testing and Recording,鈥 ACI Materials Journal, 112(4), 547-558. 2015. .
  • Z. P. Ba啪ant* and M. H. Hubler, 鈥淭heory of Cyclic Creep of Concrete Based on Paris Law for Fatigue Growth of Subcritical Microcracks,鈥 Journal of the Mechanics and Physics of Solids, 63, 187-200. 2013. .
  • C. Hoover, Z. P. Ba啪ant*, J. Vorel, R. Wendner, and M. H. Hubler, 鈥淐omprehensive Concrete Fracture Tests: Description and Results,鈥 Engineering Fracture Mechanics, 114, 92-103. 2013. .
  • Z. P. Ba啪ant*, M. H. Hubler, and M. Jir谩sek, 鈥淚mproved Estimation of Long-Term Relaxation Function from Compliance Function of Aging Concrete,鈥 ASCE Journal of Engineering Mechanics, 139(2), 146-152. 2013. .
  • Z. P. Ba啪ant*, Q. Yu, M. H. Hubler, V. K艡铆stek, V., and Z. Bittnar, 鈥淲ake-up call for creep, myth about size effect and black holes in safety: What to improve in fib model code draft.鈥 In Befestigungstechnik鈥 Bewehrungstechnik (in honor of Rolf Eligehausen 70th birthday), ibidem-Verlag, Stuttgart, W. Fuchs and J. Hofmann, eds., 357-379, 2012. ISBN 978-87158-26-7
  • Z. P. Ba啪ant*, M. H. Hubler, and Q. Yu, 鈥淧ervasiveness of Excessive Segmental Bridge Deflections: Wake-Up Call for Creep,鈥 ACI Structural Journal, 108(6), 766-774. 2011.
  • Z. P. Ba啪ant*, M. H. Hubler, and Q. Yu, 鈥淓xcessive Creep Deflections: An Awakening,鈥 Concrete International, 33(8), 44-46. 2011.
  • M. H. Hubler, J. J. Thomas*, and H. M. Jennings, 鈥淚nfluence of nucleation seeding on the hydration kinetics and compressive strength of alkali activated slag paste,鈥 Cement & Concrete Research, 41(8), 842-846. 2011. .
  • B. Shen, M. H. Hubler, G. H. Paulino*, and L. J. Struble, 鈥淔unctionally-graded fiber-reinforced cement composite: Processing, microstructure, and properties,鈥 Cement & Concrete Composites, 30(8), 663-673. 2008. .

Conference Proceedings:

  • D. Culp, M. R. Tupek, P. Newell, M. H. Hubler, 鈥淧hase-Field Modeling of Fracture in CO2 Sequestration,鈥 American Rock Mechanics Association, 51st US Rock Mechanics / Geomechanics Symposium held in San Francisco, CA, pp. 25-28, ARMA-2017-0644, August 28, 2017.
  • S. Al Wakeel and M. H. Hubler, 鈥淓xperimental and theoretical investigation of the fracture behavior of glass beads/epoxy composites using microscratching,鈥 Proceedings of the 9th International Conference on Fracture Mechanics of Concrete and Concrete Structures, FraMCoS-9, May 30th, 2016 Berkeley, CA.
  • R. Wendner, M. H. Hubler, and Z. Ba啪ant, 鈥淐reep and shrinkage prediction models for concrete: uncertainty quantification,鈥 Proceedings of the 11th International Probabilistic Workshop, Nov. 4th, 2013 Brno.
  • Z. Ba啪ant, M. H. Hubler, and M. Jir谩sek, 鈥淚mproved Estimation of Long-Term Relaxation Function of Aging Concrete from Its Compliance Function,鈥 ConCreep-9, Sept. 25rd, 2013 MIT, Cambridge, MA.
  • R. Wendner, M. H. Hubler, and Z. Ba啪ant, 鈥淭he B4 model for multi-decade creep and shrinkage prediction,鈥 ConCreep-9, Sept. 23rd, 2013 MIT, Cambridge, MA.
  • W.H. Duan, S.J. Chen, M. H. Hubler, 鈥淲ater Sorption Hysteresis in Cement Nano Slits,鈥 ConCreep-9, Sept. 23rd, 2013 MIT, Cambridge, MA.
  • Z. Ba啪ant, M. H. Hubler, R. Wendner, and Q. Yu, 鈥淧rogress in Creep and Shrinkage Prediction Engendered by Alarming Bridge Observations and Expansion of Laboratory Database,鈥 Plenary Lecture, ConCreep-9, Sept. 23rd, 2013 MIT, Cambridge, MA.
  • Z. Ba啪ant, M. H. Hubler, M. Salviato, 鈥淪caling of Failure Probability of Quasibrittle Structures with Large Cracks.鈥 11th International Conference on Structural Safety and Reliability, June 16-20, 2013, New York, NY.
  • R. Wendner, M. H. Hubler, Z. Ba啪ant, 鈥淩ecalibration and Uncertainty Quantification of the B3 Creep Model for Long Term Estimates Using Bayesian Methods.鈥 11th International Conference on Structural Safety and Reliability, June 16-20, 2013, New York, NY.
  • Z. Ba啪ant, M. H. Hubler, M. Salviato, K. Kirane, J.-L. Le, 鈥淔racture Scaling and Safety of Quasibrittle Structures: Atomistic Basis, Computational Challenges and New Advances.鈥 The Third International Conference of Computational Modeling of Fracture and Failure of Materials and Structure keynote lecture, June 5-7, 2013, Prague, Czech Republic.
  • Z. Ba啪ant, R. Wendner, M. H. Hubler, Q. Yu, 鈥淧ervasive lifetime inadequacy of long-span box girder bridges and lessons from multi-decade creep prediction.鈥 Third International Symposium on Life-Cycle Civil Engineering, IALCCE, Keynote Lecture, Vienna, October 2012.
  • Z. Ba啪ant, R. Wendner, M. H. Hubler, 鈥淢odel B3.1 for multi-decade concrete creep and shrinkage: Calibration by combined laboratory and bridge data.鈥 Third International Symposium on Life-Cycle Civil Engineering, IALCCE, Vienna, October 2012.
  • C. Hoover, Z. Ba啪ant, R. Wendner, J. Vorel, M. H. Hubler, et. al, 鈥淓xperimental investigation of transitional size effect and crack length effect in concrete fracture.鈥 Third International Symposium on Life-Cycle Civil Engineering, IALCCE, Vienna, October 2012.
  • Z. Ba啪ant, Q. Yu, K.-T. Kim, M. H. Hubler, et. al, 鈥淓xcessive Multi-Decade Deflections of Prestressed Concrete Bridges: How to Avoid Them and How to Exploit Their Monitoring to Improve Creep Prediction Model,鈥 fib Symposium, Prague 2011.
  • Z. Ba啪ant, Q. Yu, M. H. Hubler, V. K艡铆stek, and Z. Bittnar. 鈥淲ake-Up Call for Creep, Myth about Size Effect and Black Holes in Safety: What to Improve in fib Model Code Draft,鈥 Keynote fib Symmposium, Befestigungstechnik Bewehrungstechnik und鈥I, R. Eligehausen 70th Anniversary, Prague 2011.
  • M. H. Hubler, W. Aquino, and C. Earls, 鈥淚n vivo ultrasound bone property determination through inverse finite element modeling,鈥 Extended Abstract, 6th International Conf. on Computation of Shell and Spatial Structures IASS-IACM 2008: 鈥淪panning Nano to Mega,鈥 Cornell University, Ithaca, NY, May 2008.

Books:

  • Z. Ba啪ant, M. H. Hubler, Q. Yu, 鈥淒amage in Prestressed Concrete Structures Due to Creep and Shrinkage of Concrete,鈥 in Handbook of Damage Mechanics. Voyiadjis, George (Ed.) Springer, New York 2014.
  • M. H. Hubler, 鈥淐reep,鈥 in Aging, Shaking and Cracking of Infrastructures: Concrete Dams and Nuclear Structures. V. Saouma and M. A. Hariri-Ardebili, Springer Nature.