Page 39

2016SpringShotcreteEMag

Sustainability Change Initiatives,” Cement and Concrete Research, V. 38, No. 2, 2008, pp. 115-127. 10. Phair, J.W., “Green Chemistry for Sustainable Cement Production and Use,” Green Chemistry, 2006, V. 8, pp. 763-780. 11. Jolin, M.; Burns, D.; Bissonnette, B.; Gagnon, F.; and Bolduc, L.S., “Understanding the Pumpability of Concrete,” Proceedings of Shotcrete for Underground Support XI, Davos, Switzerland, 2009, 14 pp. 12. Yurdakul, E.; Taylor, P.; Ceylan, H.; and Bektas, F., “Effect of Paste-to-Voids Volume Ratio on the Performance of Concrete Mixtures,” Journal of Materials in Civil Engineering, ASCE, V. 25, No. 12, 2013, pp. 1840-1851. 13. Wassermann, R.; Katz, A.; and Bentur, A., “Minimum Cement Content Requirements: A Must or a Myth?” Materials and Structures, V. 42, No. 7, 2009, pp. 973-982. 14. Armelin, H.S., and Banthia, N., “Development of a General Model of Aggregate Rebound for Dry-Mix Shotcrete (Part II),” Materials and Structures, V. 31, No. 3, 1998, pp. 195-202. 15. Ballou, M., “Shotcrete Rebound—How Much Is Enough?” Shotcrete, V. 11, No. 2, Spring 2009, pp. 44-45. 16. Puri, U.C., and Uomoto, T., “Properties of Shotcrete: Nozzlings Versus Rebound Loss in Shotcrete,” Seisan Kenkyu, V. 51, No. 4, 1999, pp. 153-156. 17. Flower, D.J.M., and Sanjayan, J.G., “Greenhouse Gas Emissions Due to Concrete Manufacturing,” The International Journal of Life Cycle Assessment, V. 12, No. 5, 2007, pp. 282-288. 360, Design of Slabs on Ground; 506, Shotcreting; 544, Fiber-Reinforced Concrete; Joint ACI-ASCE Committee 446, Fracture Mechanics of Concrete; and ASTM and RILEM committees. His research interests include all durability- and crackingrelated aspects of concrete and the development of high-performance fibers for concrete and shotcrete applications. Diego Granell Nebot is a Global Marketing Manager, Underground Mining and Tunneling, at GCP Applied Technologies, Cambridge, MA. He received his master’s degree in civil engineering from the Technical University of Valencia, Spain, in 2005 with a concentration in structural analysis at the École Spéciale des Travaux Publics, Paris, France, and his master’s degree in business administration from Dartmouth College, Hanover, NH, in 2011. He is a member of ASA, and his research interests include all durability-, strength-, and operations related aspects of shotcrete, and the development of high-performance fibers and admixtures for shotcrete applications in underground construction. 1. World Commission on Environment and Development, Our Common Future, Oxford University Press, Oxford, UK, 1987, 400 pp. 2. U.S. Energy Information Administration, “Today in Energy,” July 1, 2013, http://www.eia.gov/todayinenergy/ detail.cfm?id=11911. (last accessed Mar. 31, 2016) 3. Hasanbeigi, A.; Price, L.; and Lin, E., “Emerging Energy-Efficiency and CO2 Emission-Reduction Technologies for Cement and Concrete Production: A Technical Review,” Renewable and Sustainable Energy Reviews, V. 16, No. 8, 2012, pp. 6220-6238. 4. Hanle, L.J., “CO2 Emissions Profile of the U.S. Cement Industry,” 13th International Emission Inventory Conference, Clearwater, FL, 2004, 14 pp. 5. “Energy to 2050: Scenarios for a Sustainable Future,” International Energy Agency, Paris, France, 2003, 224 pp. 6. Batelle, “Towards a Sustainable Cement Industry,” World Business Council for Sustainable Development, Geneva, Switzerland, 2002, 64 pp. 7. Schneider, M.; Romer, M.; Tschudin, M.; and Bolio, H., “Sustainable Cement Production Present and Future,” Cement and Concrete Research, V. 41, No. 7, 2011, pp. 642-650. 8. Naik, T.R., and Moriconi, G., “Environmental-Friendly Durable Concrete Made with Recycled Materials for Sustainable Concrete Construction,” University of Wisconsin– Milwaukee, Milwaukee, WI, 2006, 13 pp. 9. Damtoft, J.S.; Lukasik, J.; Herfort, D.; Sorrentino, D.; and Gartner, E.M., “Sustainable Development and Climate Ezgi Yurdakul is a Concrete Scientist in the R&D Division at GCP Applied Technologies, Cambridge, MA. She received her PhD from Iowa State University, Ames, IA. She is currently the Vice Chair of ACI Committee 211, Proportioning References Concrete Mixtures; Secretary of ACI Subcommittee 211-A, Proportioning Concrete Mixtures- Editorial; and a member of ACI Committees 212, Chemical Admixtures; 325, Concrete Pavements; 506, Shotcreting; 544, Fiber-Reinforced Concrete; and various ASA committees. Her research interests include shotcrete, mixture design optimization, chemical admixtures, and performance-based specifications for concrete. Klaus-Alexander Rieder is a Global R&D Director for Concrete Products at GCP Applied Technologies, Luegde, Germany. He received his ScD in physics from the Technical University of Vienna, Vienna, Austria, in 1995. He is a member of ACI Committees 209, Creep and Shrinkage in Concrete; 215, Fatigue of Concrete; Shotcrete • Spring 2016 37


2016SpringShotcreteEMag
To see the actual publication please follow the link above