论文信息 - Thermal Characterization of Pozzolanic Activity of Hydrated Cement System Modified by Silica Based Industrial Waste

Thermal Characterization of Pozzolanic Activity of Hydrated Cement System Modified by Silica Based Industrial Waste

This study investigates the potential of using silica based industrial waste specifically waste calcined clay (WCC) from ceramic industry as partial cement replacement. Pozzolanic activity characterization was done by using thermal and mechanical characterization techniques namely Thermal Gravimetric Analysis (TGA) and Compressive Strength Test (CS), respectively. Finely grounded waste vase of varying particles sizes range from less than 75m, 75m and 150m were used as 10%, 20%, and 30% cement replacements with 0.45 water to cement ratio (w/c). First, progression of CS from day 1 to 28 of WCC modified mortar and unmodified cement mortar (UCM) was monitored as an indirect indication of pozzolanic activity. It was found that 75WCC10% performed higher 28 day compressive strength compared to unmodified cement mortar (UCM). To further confirm the result, TGA characterization of Calcium Silicate Hydrate (C-S-H) and Calcium Hydroxide (CH) as pozzolanic activity indicator was done on WCC modified cement pastes in comparison to unmodified cement paste (UCP). TGA analysis has shown the pozzolanic activity indicated by the decrease of CH and the increase of C-S-H in WCC modified cement paste. Based on this study, WCC possesses pozzolanic characteristic which is the main criteria to be qualified as an effective material as partial cement replacement.

N. M. Sutan | Faatima Zahra Ahmat Asim

[1] L. Soriano,et al. Effect of pozzolans on the hydration process of Portland cement cured at low temperatures , 2013 .

[2] Alejandra Tironi,et al. Assessment of pozzolanic activity of different calcined clays , 2013 .

[3] Sidney Mindess,et al. Sustainability of concrete , 2011, Developments in the Formulation and Reinforcement of Concrete.

[4] A. Naceri,et al. Effects of Pozzolanic Admixture (Waste Bricks) on Mechanical Response of Mortar , 2008 .

[5] Eduardo de Moraes Rego Fairbairn,et al. Potential for use of crushed waste calcined-clay brick as a supplementary cementitious material in Brazil , 2007 .

[6] P. Souza,et al. Viability of using calcined clays, from industrial by-products, as pozzolans of high reactivity , 2005 .

[7] Piet Stroeven,et al. STRENGTH AND DURABILITY ASPECTS OF CALCINED KAOLIN-BLENDED PORTLAND CEMENT MORTAR AND CONCRETE , 2001 .

[8] S. Wild,et al. Pore size distribution and compressive strength of waste clay brick mortar , 2001 .

[9] S. Wild,et al. Sulphate resistance of mortar, containing ground brick clay calcined at different temperatures , 1997 .

[10] Karen Scrivener,et al. The origin of the pozzolanic activity of calcined clay minerals: A comparison between kaolinite, illite and montmorillonite , 2011 .

[11] F. Gnanam,et al. Mullitisation behaviour of calcined clay-alumina mixtures , 2003 .