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Relationships between compressive strength of cement–slag mortars under air and water curing regimes
Highlights ► An exponential equation exists between the strengths in air and water curing conditions. ► In duration of 3–7days, wc is the optimum for all groups of mortars with exception of OM500 and SM500. ► Higher strengths obtained using lower binder contents for OPC and OPC-slag cured in water. ► The highest strength for OSM380-wc was obtained at 90days as 80MPa. ► Air curing conditions influenced OPC and slag mortars more than OPC–slag mortars.
Abstract In this investigation 12 mortar mixes including three groups were prepared using binder contents 380 and 500kg/m3. All the specimens were cured after casting and demoulding in curing regimes, i.e. at room temperature (ac) and in water (wc). The highest strength was obtained for cement–slag mortars 380-wc at later ages as 80MPa. For all groups of mortars, there could rarely be strength loss at later ages. It was observed that in duration of 3–7days, wc is the optimum for all groups of mortars with exception of cement mortar 500 and slag mortar 500. In duration of 28–90days, wc is also the optimum for three groups of mortars with exception of cement mortar 500. It was revealed that an exponential relationship exists between the strengths obtained in air and water curing conditions for each group of mortar, i.e. with and without using ground granulated blast furnace slag. It was proved that higher strengths could be obtained using lower binders’ contents for cement and cement–slag mortars provided the specimens were cured in water. This is a new finding having importance from economic and environmental viewpoints; meaning that for producing higher strengths it is not a necessity to use more binders. It was found that increase in level of cement and slag makes the mortars more sensitive to air curing conditions.
Relationships between compressive strength of cement–slag mortars under air and water curing regimes
Highlights ► An exponential equation exists between the strengths in air and water curing conditions. ► In duration of 3–7days, wc is the optimum for all groups of mortars with exception of OM500 and SM500. ► Higher strengths obtained using lower binder contents for OPC and OPC-slag cured in water. ► The highest strength for OSM380-wc was obtained at 90days as 80MPa. ► Air curing conditions influenced OPC and slag mortars more than OPC–slag mortars.
Abstract In this investigation 12 mortar mixes including three groups were prepared using binder contents 380 and 500kg/m3. All the specimens were cured after casting and demoulding in curing regimes, i.e. at room temperature (ac) and in water (wc). The highest strength was obtained for cement–slag mortars 380-wc at later ages as 80MPa. For all groups of mortars, there could rarely be strength loss at later ages. It was observed that in duration of 3–7days, wc is the optimum for all groups of mortars with exception of cement mortar 500 and slag mortar 500. In duration of 28–90days, wc is also the optimum for three groups of mortars with exception of cement mortar 500. It was revealed that an exponential relationship exists between the strengths obtained in air and water curing conditions for each group of mortar, i.e. with and without using ground granulated blast furnace slag. It was proved that higher strengths could be obtained using lower binders’ contents for cement and cement–slag mortars provided the specimens were cured in water. This is a new finding having importance from economic and environmental viewpoints; meaning that for producing higher strengths it is not a necessity to use more binders. It was found that increase in level of cement and slag makes the mortars more sensitive to air curing conditions.
Relationships between compressive strength of cement–slag mortars under air and water curing regimes
Sajedi, Fathollah (author) / Razak, Hashim Abdul (author) / Mahmud, Hilmi Bin (author) / Shafigh, Payam (author)
Construction and Building Materials ; 31 ; 188-196
2011-12-02
9 pages
Article (Journal)
Electronic Resource
English
Relationships between compressive strength of cement–slag mortars under air and water curing regimes
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