Concrete comprises aggregates of various sizes bound by a cementitious paste,with Portland cement(PC)as the primary binder since the 19th century.However,PC production depletes non-renewable natural resources and caus...Concrete comprises aggregates of various sizes bound by a cementitious paste,with Portland cement(PC)as the primary binder since the 19th century.However,PC production depletes non-renewable natural resources and causes environmental degradation.Meanwhile,approximately 130 billion kilograms of cattle bones(CB)are generated globally each year,posing environmental challenges due to their non-biodegradability.CB is rich in calcium oxide,making it a potential supplementary material in cement production.This study explores the feasibility of using pretreated cattle bone ash(CBA)as a partial replacement for PC in concrete,combined with 5%silica fume and 10%fly ash.CBA was incorporated at 10%,25%,50%,and 75%by weight of cement.The results indicated that mixes containing 10%and 25%CBA achieved high-strength concrete exceeding 60 MPa after 28 d,while mixes with 50%and 75%CBA produced structural-grade concrete with strengths above 25 MPa.The findings demonstrate that pre-treated CBA can effectively replace a portion of PC in concrete when combined with an appropriate pozzolanic material.This substitution reduces environmental pollution and promotes the sustainability of concrete production.展开更多
文摘Concrete comprises aggregates of various sizes bound by a cementitious paste,with Portland cement(PC)as the primary binder since the 19th century.However,PC production depletes non-renewable natural resources and causes environmental degradation.Meanwhile,approximately 130 billion kilograms of cattle bones(CB)are generated globally each year,posing environmental challenges due to their non-biodegradability.CB is rich in calcium oxide,making it a potential supplementary material in cement production.This study explores the feasibility of using pretreated cattle bone ash(CBA)as a partial replacement for PC in concrete,combined with 5%silica fume and 10%fly ash.CBA was incorporated at 10%,25%,50%,and 75%by weight of cement.The results indicated that mixes containing 10%and 25%CBA achieved high-strength concrete exceeding 60 MPa after 28 d,while mixes with 50%and 75%CBA produced structural-grade concrete with strengths above 25 MPa.The findings demonstrate that pre-treated CBA can effectively replace a portion of PC in concrete when combined with an appropriate pozzolanic material.This substitution reduces environmental pollution and promotes the sustainability of concrete production.
