Concrete reinforced with stainless steel fibres (SSFRC) is a composite material made of cement, aggregates, water, and stainless steel fibres. In comparison to conventional concrete, this kind of concrete offers improved mechanical qualities, such as greater tensile strength, ductility, and crack resistance. Concrete that has stainless steel fibres added to it has increased corrosion resistance and durability, making it appropriate for usage in severe situations. An overview of the characteristics and uses of SSFRC, as well as the production procedure and design factors to take into account, are given in this abstract. Due to its better mechanical qualities and durability, stainless steel fibre reinforced concrete (SSFRC) is a form of composite material that is being utilised in construction more frequently. SSFRC is created by incorporating stainless steel fibres into a cement-based mixture, making it significantly stronger and less prone to corrosion and cracking than conventional concrete. An overview of the characteristics of SSFRC, such as its high tensile strength, ductility, and resistance to chemical and physical harm, is given in this abstract. The production procedure for SSFRC is also covered in this abstract, along with the crucial design factors that need to be taken into account when employing this material in construction projects. SSFRC is a desirable solution for a variety of applications due to its adaptability and durability. Construction uses stainless steel fibre reinforced concrete (SSFRC), a composite material with high mechanical qualities and corrosion resistance. A material with higher tensile strength, ductility, and durability is created by adding stainless steel fibres to a concrete mixture. SSFRC is a dependable substitute for conventional concrete, particularly in locations subject to corrosive elements and inclement weather. An overview of SSFRC, including its features, production method, and uses, is provided in this abstract. The paper emphasises the design factors required to guarantee that SSFRC constructions fulfil the relevant performance standards. Finally, the article explores SSFRC’s potential applications in infrastructure projects and how they might affect the building sector.

1.
Z. Z.
Li
and
Y. H.
Wu
, “
Stainless Steel Fiber Reinforced Concrete: A Review of Properties and Applications
”,
Journal of Materials in Civil Engineering
,
2017
.
2.
Sudharsan
,
N.
,
Praburanganathan
,
S.
,
Simha Reddy
,
Y. B.
, &
Pavan Kumar
,
P.
,
Interaction of anthracite coal ash and Archis hypogaea shell ash on an innovative brick: an experimental and simulation study
.
International Journal of Coal Preparation and Utilization
,
2022
.
3.
H. S.
Kim
,
S. H.
Kim
, and
J. H.
Lee
, “
Stainless Steel Fiber Reinforced Concrete: A Review
”,
Journal of Materials in Civil Engineering
,
2010
.
4.
Y. H.
Wu
and
Z. Z.
Li
, “
Properties and Applications of Stainless Steel Fiber Reinforced Concrete
”,
Journal of Materials in Civil Engineering
,
2017
.
5.
S. H.
Kim
,
H. S.
Kim
, and
J. H.
Lee
, “
Stainless Steel Fiber Reinforced Concrete: State of the Art
”,
Journal of Materials in Civil Engineering
2010
.
6.
Praburanganathan
,
S.
,
Sudharsan
,
N.
,
Bharath Simha Reddy
,
Y.
,
Naga Dheeraj Kumar Reddy
,
C.
,
Natrayan
,
L.
, &
Paramasivam
,
P.
,
Force-Deformation Study on Glass Fiber Reinforced Concrete Slab Incorporating Wastepaper
.
Advances in Civil Engineering
,
2022
.
7.
M. P.
Tran
and
J. H.
Lee
, “
Stainless Steel Fiber Reinforced Concrete: A Review of Properties and Applications
Journal of Materials in Civil Engineering
,
2019
.
8.
J. J.
Zhang
,
Y. H.
Wu
, and
Z. Z.
Li
, “
Review of Durability and Service Life of Stainless-Steel Fiber Reinforced Concrete
Journal of Materials in Civil Engineering
,
2018
.
9.
R.A.
Raza
and
H. A.
Raza
Stainless Steel Fiber Reinforced Concrete: A Review of Properties and Applications
”,
Journal of Civil Engineering and Construction.
10.
Sudharsan
,
N.
, &
Palanisamy
,
T.
,
A comprehensive study on potential use of waste materials in brick for sustainable development
.
Ecology, Environment and Conservation
,
S339–S343
,
24
,
2018
.
11.
Jagadeesan
,
P.
,
Sudharsan
,
N.
,
Subash
,
S. M.
,
Thirumoorthy
,
P.
,
Sugumaran
,
B.
,
Bari
,
J. A.
, and
Karuppanan
,
K.
Study on Performance of Infilled Wall in an RC-Framed Structure Using a Reinforcing Band
.
Advances in Materials Science and Engineering
,
2022
.
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