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Potential Application of Nanotechnology on Cement Based Materials

R. P. Selvam / V. J. Subramani / S. Murray / K. Hall

The tensile strength of cement paste is one of the most important mechanical properties that influence shrinkage cracks in cementious materials. Cement pastes which exhibit low tensile strength, tend to exhibit greater shrinkage crack potential and reduced durability. If the tensile strength in cement paste can be increased, then the shrinkage cracking potential can be minimized. It is believed that the strength and cohesion of cement paste is controlled by the formation of Calcium Silicate Hydrate (C-S-H) gel. In order to be able to enhance macroscopic mechanical properties (tensile strength) it is necessary to understand the structure and behavior of C-S-H gel at the atomic level.

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Potential Application of Nanotechnology on Cement Based Materials

R. P. Selvam / V. J. Subramani / S. Murray / K. Hall

The tensile strength of cement paste is one of the most important mechanical properties that influence shrinkage cracks in cementious materials. Cement pastes which exhibit low tensile strength, tend to exhibit greater shrinkage crack potential and reduced durability. If the tensile strength in cement paste can be increased, then the shrinkage cracking potential can be minimized. It is believed that the strength and cohesion of cement paste is controlled by the formation of Calcium Silicate Hydrate (C-S-H) gel. In order to be able to enhance macroscopic mechanical properties (tensile strength) it is necessary to understand the structure and behavior of C-S-H gel at the atomic level.

Potential Application of Nanotechnology on Cement Based Materials

R. P. Selvam / V. J. Subramani / S. Murray / K. Hall

The tensile strength of cement paste is one of the most important mechanical properties that influence shrinkage cracks in cementious materials. Cement pastes which exhibit low tensile strength, tend to exhibit greater shrinkage crack potential and reduced durability. If the tensile strength in cement paste can be increased, then the shrinkage cracking potential can be minimized. It is believed that the strength and cohesion of cement paste is controlled by the formation of Calcium Silicate Hydrate (C-S-H) gel. In order to be able to enhance macroscopic mechanical properties (tensile strength) it is necessary to understand the structure and behavior of C-S-H gel at the atomic level.

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Title:

Potential Application of Nanotechnology on Cement Based Materials

Contributors:

R. P. Selvam (author) / V. J. Subramani (author) / S. Murray (author) / K. Hall (author)

Publication date:

2009

Size:

156 pages

Type of media:

Report

Type of material:

No indication

Language:

English

Keywords:

Construction Equipment, Materials, & Supplies , Ceramics, Refractories, & Glass , Cements , Nanotechnology , Mechanical properties , Tesnile strength , Shrinkage , Cracks , Durability , Calcium silicate , Hydrates , Gels

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