The present study envisages the potential alkali鈥搒ilica reactivity; the most common form of alkali aggregate reaction of various aggregate sources of Kashmir and mitigation measures thereof using petrographic analysis and various designated ASTM codes. The chemical analysis was carried out for different...
ASTM C 586, “Standard Test Method for Potential Alkali Reactivity of Carbonate Rocks as Concrete Aggregates (Rock-Cylinder Method),” 1999.ASTM C 586-05a: "Standard Test Method for Potential Alkali Reactivity of Carbonate Rocks as Concrete Aggregates (Rock-Cylinder Method)...
Amo,D.G.,Perez,B.C.Diagnosis of the alkali - silica reactivity potential by means of digital image analysis of aggregate thin sections. Cement and Concrete Composites . 2001AMO D G,PEREZ B C. Diagnosis of the alkali-silica reactivity potential by means of digital image analysis of aggregate...
Petrographic Analysis of Aggregate Particles Used in the Accelerated Mortar Bar Test for Evaluating the Potential Alkali-Reactivity of Recycled Concrete Aggregates ( Rca )Beauchemin, SeanFournier, Benoit
RILEM recommended test method AAR-1: detection of potential alkali-reactivity of aggregates--petrographic method. Materials and Structures 36(7), 480-496.RILEM TC 219-ACS, "RILEM Recommended Test Method AAR-2: Detection of potential alkali-reactivity - Accelerated mortar-bar test method for ...
Alkaline waste materials Eco-pozzolans Chemical reactivity Mineralogical phases Blended cement pastes Physical–mechanical properties 1. Introduction One of the priority goals set out in the cement industry's roadmap for the manufacture of future low-carbon eco-cements is circularity, achieved by using...
Then, the spoon is taken out to wash and immersed into an alkali phosphatase label antibody solution. Then, the spoon is washed, immersed into a phenyl phosphate substrate liquid to incubate and after the addition of a coloring liquid, reaction is stopped to measure the degree of coloration. ...
Fluorinated graphene, a two-dimensional nanomaterial composed of three atomic layers, a central carbon layer sandwiched between two layers of fluorine atoms, has attracted considerable attention across various fields, particularly for its potential use i
Since the discovery of its photocatalytic properties, titanium dioxide has remained one of the most popular and widely used metal oxide photocatalysts. Its
Collagen nanoparticles (collagen-NPs) are promising biopolymeric nanoparticles due to their superior biodegradability and biocompatibility. The low immunogenicity and non-toxicity of collagen-NPs makes it preferable for a wide range of applications. A to