Continued urbanization and population growth further the growth of impervious urban areas, leading
to concerning adverse environmental and societal impacts. Pervious concrete has remarkable potential
to counteract these adverse impacts while providing necessary structural integrity, thus supporting
continued urbanization. Broader application of pervious concrete could be achieved through increased
raveling resistance and enhanced durability performance. This research emphasizes the development
and characterization of high performance pervious concrete aiming at improved mechanical resistance
and advanced durability properties. In pursuit of this goal an ultra-high performance cement-based
matrix with compressive strengths in excess of 150 MPa (22 ksi) and high durability properties are
designed and applied to the mixture design concept of pervious concrete. The research results show
that compressive strength and elastic modulus increase by up to 150% and 100%, respectively, without
sacrificing the hydraulic conductivity of the concrete. Furthermore, freeze–thaw tests have been
carried out to compare the durability performance of conventional pervious concrete with high
performance pervious concrete. Based on enhanced mechanical properties as well as improved
durability, high performance pervious concrete potentially allows extending the application of
pervious concrete and thus carries a vital potential in effectively counteracting the growth of
impervious urban areas.
 
Continued urbanization and population growth further the growth of impervious urban areas, leadingto concerning adverse environmental and societal impacts. Pervious concrete has remarkable potentialto counteract these adverse impacts while providing necessary structural integrity, thus supportingcontinued urbanization. Broader application of pervious concrete could be achieved through increasedraveling resistance and enhanced durability performance. This research emphasizes the developmentand characterization of high performance pervious concrete aiming at improved mechanical resistanceand advanced durability properties. In pursuit of this goal an ultra-high performance cement-basedmatrix with compressive strengths in excess of 150 MPa (22 ksi) and high durability properties aredesigned and applied to the mixture design concept of pervious concrete. The research results showthat compressive strength and elastic modulus increase by up to 150% and 100%, respectively, withoutsacrificing the hydraulic conductivity of the concrete. Furthermore, freeze–thaw tests have beencarried out to compare the durability performance of conventional pervious concrete with highperformance pervious concrete. Based on enhanced mechanical properties as well as improveddurability, high performance pervious concrete potentially allows extending the application ofpervious concrete and thus carries a vital potential in effectively counteracting the growth ofพื้นที่เขตเมือง impervious
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