**Author details**

Dattaguru Ananthapadmanaban Department of Mechanical Engineering, SSN College of Engineering, Chennai, India

\*Address all correspondence to: ananthapadmanaban.dattaguru@gmail.com

© 2018 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

**37**

2004;**30**:251-255

*Summary of Some Selected Characterization Methods of Geopolymers*

amended fly ash as an expansive soil stabilizer. Soils and Foundations.

[11] Muhammad Faheem MT, Mustafa Al Bakri AM, Kamarudin H, Binhussain M, Ruzaidi CM, Izzat AM. Application of clay-based geopolymer in brick production: A review. Advanced Materials Research. 2013;**626**:878-882

[12] Cui X-M, Zheng G-J, Han Y-C, Feng S, Ji Z. A study on electrical conductivity of chemosynthetic Al2O3- 2SiO2 geopolymer materials. Journal of Power Sources. 2008;**184**:652-656

[13] Lee S, Jou H-T, van Riessen A, Rickard WDA, Chon C-M, Kang N-H. Three-dimensional quantification of pore structure in coal ash-based geopolymer using conventional electron tomography. Construction and Building

[14] Das S, Yang P, Singh SS, Mertens

[15] Duxson P, Provis JL, Lukey GC, Separovic F, van Deventer JSJ. 29Si NMR study of structural ordering in aluminosilicate geopolymer gels. Langmuir. 2005;**21**(7):3028-3036

[16] Alehyen S, EL Achouri M, Taibi M. Characterization, microstructure and properties of fly ash-based geopolymer. Journal of Materials and Environmental Science.

[17] Bansal NP, Singh JP, Kriven WM, Schneider H. Ceramic Transactions.

Materials. 2014;**52**:221-226

JCE, Xiao X, Chawla N, et al. Effective properties of a fly ash geopolymer: Synergistic application of X-ray synchrotron tomography, nanoindentation, and homogenization models. Cement and Concrete Research.

2015;**78**(Part B):252-262

2017;**8**(5):1783-1796

2003;**153**:175

2016;**56**(2):205-212

*DOI: http://dx.doi.org/10.5772/intechopen.82208*

[1] van Deventer JSJ, Provis JL, Duxson P. Technical and commercial progress in the adoption of geopolymer cement. Minerals Engineering. 2012;**29**:89-104

[2] Shi C, Krivenko PV, Roy DM. Alkali-Activated Cements and Concretes. Abingdon (UK): Taylor & Francis; 2006

[3] van Deventer JSJ, Provis JL, Duxson

[4] Nikolov A, Rostovsky I, Nugteren H. Geopolymer materials based on natural zeolite. Case Studies in Construction Materials. 2017;**6**:198-205

[5] Zhuang XY, Chen L, Komarneni S, Zhou CH, Tong DS, Yang HM, et al. Fly ash-based geopolymer: Clean production, properties and applications.

Journal of Cleaner Production.

[6] Louati S, Baklouti S, Samet B. Geopolymers based on phosphoric acid and illito-kaolinitic clay. Advances in Materials Science and Engineering.

[7] Eberle AL, Mikula S, Schalek R. High-resolution, high-throughput imaging with a multibeam scanning electron microscope. Journal of Microscopy. 2015;**259**(2):114-120

[8] Medri V, Fabbri S, Dedecek J, Sobalik Z, Tvaruzkova Z, Vaccari A. Role of the morphology and the dehydroxylation of metakaolins on geopolymerization. Applied Clay Science. 2010;**50**:538-545

[9] Temujin J, Jadambaa T, Burmaa G, Erdenechimeg S, Amarsanaa J,

[10] Sharma AK, Sivapullaiah PV. Ground granulated blast furnace slag

MacKenzie KJD. Ceramics International.

2016;**125**:253-267

2016;**2016**:2359759

P, Brice DG. Chemical research and climate change as drivers in the commercial adoption of alkali activated materials. Waste and Biomass

Valorization. 2010;**1**:145-155

**References**

*Summary of Some Selected Characterization Methods of Geopolymers DOI: http://dx.doi.org/10.5772/intechopen.82208*
