A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
A study of engineering properties of cement mortar with stainless steel oxidizing slag and reducing slag resource materials
Highlight ►This study was to develop stainless steel slag (oxidizing slag-SSOS) and (reducing slag-SSRS) of varying fineness to replace concrete binding material. ►The fineness of SSOS and SSRS is approximately 4400 cm2/g in 30% substitution cement, the compressive strength is better than the ASTM C150, the Slag-Activity index of stainless steel SSRS matches the ASTM C989 Grade 80 of B.F. slag and the setting time also confirms to the ASTM C150 requirement. ►The stainless steel slag is no heavy metal dissolution problem.
Abstract The objective of this study was to develop stainless steel slag (oxidizing slag-SSOS) and (reducing slag-SSRS) of varying fineness to replace concrete binding material. The findings indicate that when the fineness of stainless steel SSOS and SSRS is approximately 4400cm2/g in 30% substitution cement, the compressive strength is better than the ASTM C150 standard, the Slag-Activity index of stainless steel SSRS matches the ASTM C989 standard Grade 80 of B.F. slag, the setting time also conforms to the ASTM C150 standard requirement, and there is no heavy metal dissolution problem. Therefore, the stainless steel slag may qualify as a concrete binding material; the need for cement could thereby be reduced, which can contribute to resource recycling and environmental protection.
A study of engineering properties of cement mortar with stainless steel oxidizing slag and reducing slag resource materials
Highlight ►This study was to develop stainless steel slag (oxidizing slag-SSOS) and (reducing slag-SSRS) of varying fineness to replace concrete binding material. ►The fineness of SSOS and SSRS is approximately 4400 cm2/g in 30% substitution cement, the compressive strength is better than the ASTM C150, the Slag-Activity index of stainless steel SSRS matches the ASTM C989 Grade 80 of B.F. slag and the setting time also confirms to the ASTM C150 requirement. ►The stainless steel slag is no heavy metal dissolution problem.
Abstract The objective of this study was to develop stainless steel slag (oxidizing slag-SSOS) and (reducing slag-SSRS) of varying fineness to replace concrete binding material. The findings indicate that when the fineness of stainless steel SSOS and SSRS is approximately 4400cm2/g in 30% substitution cement, the compressive strength is better than the ASTM C150 standard, the Slag-Activity index of stainless steel SSRS matches the ASTM C989 standard Grade 80 of B.F. slag, the setting time also conforms to the ASTM C150 standard requirement, and there is no heavy metal dissolution problem. Therefore, the stainless steel slag may qualify as a concrete binding material; the need for cement could thereby be reduced, which can contribute to resource recycling and environmental protection.
A study of engineering properties of cement mortar with stainless steel oxidizing slag and reducing slag resource materials
Sheen, Yeong-Nain (author) / Wang, Her-Yung (author) / Sun, Te-Ho (author)
Construction and Building Materials ; 40 ; 239-245
2012-09-25
7 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2013
Properties of green concrete containing stainless steel oxidizing slag resource materials
| Online Contents | 2014
Properties of green concrete containing stainless steel oxidizing slag resource materials
| British Library Online Contents | 2014