Engineering and Mineralogical Properties of Portland Cement Used for Building and Road Construction in Cameroon

“…5 and 8 above) with the absence of very fine particles that can contribute to the reduction of the pore space in the material. The compressive strength of cement obtained in this study, especially at 28 days, are low compared to those of CEM II/A-P 42.5R cements used in Cameroon and studied by [32]. These cements studied by [32] contain 80-94% clinker, 6-20% volcanic scoria and 0-5% secondary components.…”

“…It is at this consistency that the optimum values of the physical and mechanical properties of the specimens are achieved (porosity, water absorption, compressive strength, etc.) In this study, the W/C ratio was determined in accordance with the ASTM C187-16 procedure, using the Vicat apparatus [31,32].…”

“…The setting times of the different cements were also determined, after determination of the W/C ratio, by means of the Vicat apparatus and according to the procedure of the ASTM C191-13 standard [32,33]. This test allows to evaluate the reaction speed of the different raw material with the OPC.…”

“…With f cj = compressive strength at j days expressed in MPa, F = compressive breaking strength expressed in Newton (N) and S = compressed surface of the specimen expressed in mm 2 . The measurement of water absorption is carried out in accordance with ASTM C948-81 [32,34]. In this case, two samples are used per formulation of cement to determine the water absorption rate of the different hardened cements.…”

“…These cements studied by [32] contain 80-94% clinker, 6-20% volcanic scoria and 0-5% secondary components. Furthermore, according to the recommendations of EN 196-1 reported by [32], only CMkm1, CMkb1 and The study of the f c28 /f c56 ratio (f cj = compressive strength at j days of cure) (Table 4) shows that at 28 days, CMkm and CMkb cements (from 10 to 40% of calcined clay), achieve compressive strength greater than 91,5% of those obtained at 56 days as recommended by the [42], unlike CPNf dosed between 20 and 40%, the strengths of which at 28 days are less than 80% of those obtained at 56 days. Indeed, according to [42], Eq.…”

The viability of calcined clays and volcanic scoria from western Cameroon as Supplementary Cementitious Material (SCM)

“…5 and 8 above) with the absence of very fine particles that can contribute to the reduction of the pore space in the material. The compressive strength of cement obtained in this study, especially at 28 days, are low compared to those of CEM II/A-P 42.5R cements used in Cameroon and studied by [32]. These cements studied by [32] contain 80-94% clinker, 6-20% volcanic scoria and 0-5% secondary components.…”

“…It is at this consistency that the optimum values of the physical and mechanical properties of the specimens are achieved (porosity, water absorption, compressive strength, etc.) In this study, the W/C ratio was determined in accordance with the ASTM C187-16 procedure, using the Vicat apparatus [31,32].…”

“…The setting times of the different cements were also determined, after determination of the W/C ratio, by means of the Vicat apparatus and according to the procedure of the ASTM C191-13 standard [32,33]. This test allows to evaluate the reaction speed of the different raw material with the OPC.…”

“…With f cj = compressive strength at j days expressed in MPa, F = compressive breaking strength expressed in Newton (N) and S = compressed surface of the specimen expressed in mm 2 . The measurement of water absorption is carried out in accordance with ASTM C948-81 [32,34]. In this case, two samples are used per formulation of cement to determine the water absorption rate of the different hardened cements.…”

“…These cements studied by [32] contain 80-94% clinker, 6-20% volcanic scoria and 0-5% secondary components. Furthermore, according to the recommendations of EN 196-1 reported by [32], only CMkm1, CMkb1 and The study of the f c28 /f c56 ratio (f cj = compressive strength at j days of cure) (Table 4) shows that at 28 days, CMkm and CMkb cements (from 10 to 40% of calcined clay), achieve compressive strength greater than 91,5% of those obtained at 56 days as recommended by the [42], unlike CPNf dosed between 20 and 40%, the strengths of which at 28 days are less than 80% of those obtained at 56 days. Indeed, according to [42], Eq.…”

The viability of calcined clays and volcanic scoria from western Cameroon as Supplementary Cementitious Material (SCM)

Engineering properties of soda-lime glass powder on Portland cement CEM IV-B-L mortar

Effective function of activated bagasse ash for high early strength geopolymer