Environmental Engineering Reference
In-Depth Information
Rong H, Qian CX, Li LZ (2012) Study on microstructure and properties of sandstone cemented
by microbe cement. Constr Build Mater 36:687-694
Rong H, Qian CX (2012) Development of microbe cementitious material in China. J Shanghai
Jiaotong Univ (Sci) 17:350-355. doi:
10.1007/s12204-012-1285-x
Sarayu K, Iyer NR, Ramachandra Murthy A (2014) Exploration on the biotechnological aspect of
the ureolytic bacteria for the production of the cementitious materials—a review. Appl Bio
Biotechnol 172:2308-2323. doi:
10.1007/s12010-013-0686-0
Stocks-Fischer S, Galinat JK, Bang SS (1999) Microbiological precipitation of CaCO3. Soil Biol
Biochem 31:1563-1571
Tiano P, Addadi L, Weiner S (1992). Stone reinforcement by induction of calcite crystals using
organic
matrix
macromolecules:
feasibility
study.
In
7th
International
Congress
on
Deterioration and Conservation of Stone, Lisbon. pp 1317-1326
Tiano P, Biagiotti L, Mastromei G (1999a) Bacterial bio-mediated calcite precipitation for
monumental stones conservation: methods of evaluation. J Microbiol Methods 36:139-145
Tiano P, Biagiotti L, Mastromei G (1999b) Bacterial bio-mediated calcite precipitation for
monumental stones conservation: methods of evaluation. J Microbiol Methods 36:138-145
Tiano P (1995) Stone reinforcement by calcite crystal precipitation induced by organic matrix
macromolecules. Stud Conserv 40:171-176
Van Tittelboom K, De Belie N, De Muynck W, Verstraete W (2009) Use of bacteria to repair
cracks in concrete. Cem Concr Res 40:157-166
Whiffin VS, Van Paassen LA, Harkes MP (2007) Microbial carbonate precipitation as a soil
improvement technique. Geomicrobiol J 24:417-423
Worrell E, Price L, Martin N, Hendriks C, Meida LO (2001) Carbon dioxide emissions from the
global cement industry. Annu Rev Energy Env 26:303-329
Search WWH ::
Custom Search