Autogenous healing of engineered cementitious composites under wet–dry cycles Y Yang, MD Lepech, EH Yang, VC Li Cement and Concrete Research 39 (5), 382-390, 2009 | 845 | 2009 |
Application of life-cycle assessment to early stage building design for reduced embodied environmental impacts J Basbagill, F Flager, M Lepech, M Fischer Building and Environment 60, 81-92, 2013 | 786 | 2013 |
Water permeability of engineered cementitious composites MD Lepech, VC Li Cement and concrete composites 31 (10), 744-753, 2009 | 403 | 2009 |
Application of ECC for bridge deck link slabs MD Lepech, VC Li Materials and Structures 42, 1185-1195, 2009 | 357 | 2009 |
Life cycle modeling of concrete bridge design: Comparison of engineered cementitious composite link slabs and conventional steel expansion joints GA Keoleian, A Kendall, JE Dettling, VM Smith, RF Chandler, MD Lepech, ... Journal of infrastructure systems 11 (1), 51-60, 2005 | 255 | 2005 |
Design of green engineered cementitious composites for improved sustainability MD Lepech, VC Li, RE Robertson, GA Keoleian ACI Materials Journal 105 (6), 567-575, 2008 | 184 | 2008 |
Sustainable target value design: integrating life cycle assessment and target value design to improve building energy and environmental performance SV Russell-Smith, MD Lepech, R Fruchter, YB Meyer Journal of Cleaner Production 88, 43-51, 2015 | 177 | 2015 |
Large-scale processing of engineered cementitious composites MD Lepech, VC Li ACI Materials Journal 105 (4), 358, 2008 | 177 | 2008 |
Long term durability performance of engineered cementitious composites/Langzeitbeständigkeit systematisch entwickelter zusammengesetzter Zement gebundener Werkstoffe MD Lepech, VC Li Restoration of Buildings and Monuments 12 (2), 119-132, 2006 | 177 | 2006 |
Dynamic life-cycle modeling of pavement overlay systems: Capturing the impacts of users, construction, and roadway deterioration H Zhang, MD Lepech, GA Keoleian, S Qian, VC Li Journal of Infrastructure Systems 16 (4), 299-309, 2010 | 172 | 2010 |
Water permeability of cracked cementitious composites MD Lepech, VC Li | 168 | 2005 |
Cradle-to-gate life cycle assessment for a cradle-to-cradle cycle: biogas-to-bioplastic (and back) KH Rostkowski, CS Criddle, MD Lepech Environmental science & technology 46 (18), 9822-9829, 2012 | 163 | 2012 |
Techno-ecological synergy: A framework for sustainable engineering BR Bakshi, G Ziv, MD Lepech Environmental science & technology 49 (3), 1752-1760, 2015 | 156 | 2015 |
Life-cycle optimization of pavement overlay systems H Zhang, GA Keoleian, MD Lepech, A Kendall Journal of infrastructure systems 16 (4), 310-322, 2010 | 146 | 2010 |
Durable link slabs for jointless bridge decks based on strain-hardening cementitious composites VC Li, G Fischer, Y Kim, MD Lepech, S Qian, M Weimann, S Wang | 134 | 2003 |
Durability of strain-hardening cement-based composites (SHCC) GPAG van Zijl, FH Wittmann, BH Oh, P Kabele, RD Toledo Filho, ... Materials and structures 45, 1447-1463, 2012 | 133 | 2012 |
Development of green engineered cementitious composites for sustainable infrastructure systems VC Li, MD Lepech, S Wang, MB Weimann, GA Keoleian | 115 | 2004 |
Network-level pavement asset management system integrated with life-cycle analysis and life-cycle optimization H Zhang, GA Keoleian, MD Lepech Journal of infrastructure Systems 19 (1), 99-107, 2013 | 112 | 2013 |
Crack resistant concrete material for transportation construction VC Li, G Fischer, MD Lepech | 104 | 2004 |
Modeling and optimization of building mix and energy supply technology for urban districts RE Best, F Flager, MD Lepech Applied energy 159, 161-177, 2015 | 102 | 2015 |