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Transforming waste pharmaceutical blister into sustainable concrete
Transforming waste pharmaceutical blister into sustainable concrete
by Sharma, Keshav Kumar , Pratap, Bheem , Choudhary, Rohan Kumar , Choudhary, Awdhesh Kumar , Asaithambi, Perumal
in 639/166 / 639/301 / 704/172 / Aggregates / Aggressive behavior / Aluminum / Blister / Blister packs / Cement / Circular economy / Compressive Strength / Concrete / Concrete mixing / Construction industry / Construction Materials / COVID-19 / COVID-19 - epidemiology / Decarbonization / Density / Drug Packaging / Environmental impact / Feasibility studies / Filler materials / Heat resistance / High temperature / Humanities and Social Sciences / Humans / Medical wastes / multidisciplinary / Nondestructive testing / Pandemics / Pharmaceutical / Pharmaceutical industry / Pharmaceutical industry wastes / Pharmaceutical Preparations / Plastic debris / Polyethylene terephthalate / Recycling / Recycling - methods / Reinforced concrete / Sand / Sand & gravel / SARS-CoV-2 / Scanning electron microscopy / Science / Science (multidisciplinary) / Sulfur / Sustainability / Transition zone / Waste / Waste management / Waste Management - methods / Waste streams / Waste utilization / X-Ray Diffraction
2025
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Transforming waste pharmaceutical blister into sustainable concrete
by Sharma, Keshav Kumar , Pratap, Bheem , Choudhary, Rohan Kumar , Choudhary, Awdhesh Kumar , Asaithambi, Perumal
in 639/166 / 639/301 / 704/172 / Aggregates / Aggressive behavior / Aluminum / Blister / Blister packs / Cement / Circular economy / Compressive Strength / Concrete / Concrete mixing / Construction industry / Construction Materials / COVID-19 / COVID-19 - epidemiology / Decarbonization / Density / Drug Packaging / Environmental impact / Feasibility studies / Filler materials / Heat resistance / High temperature / Humanities and Social Sciences / Humans / Medical wastes / multidisciplinary / Nondestructive testing / Pandemics / Pharmaceutical / Pharmaceutical industry / Pharmaceutical industry wastes / Pharmaceutical Preparations / Plastic debris / Polyethylene terephthalate / Recycling / Recycling - methods / Reinforced concrete / Sand / Sand & gravel / SARS-CoV-2 / Scanning electron microscopy / Science / Science (multidisciplinary) / Sulfur / Sustainability / Transition zone / Waste / Waste management / Waste Management - methods / Waste streams / Waste utilization / X-Ray Diffraction
2025
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Transforming waste pharmaceutical blister into sustainable concrete
Transforming waste pharmaceutical blister into sustainable concrete
by Sharma, Keshav Kumar , Pratap, Bheem , Choudhary, Rohan Kumar , Choudhary, Awdhesh Kumar , Asaithambi, Perumal
in 639/166 / 639/301 / 704/172 / Aggregates / Aggressive behavior / Aluminum / Blister / Blister packs / Cement / Circular economy / Compressive Strength / Concrete / Concrete mixing / Construction industry / Construction Materials / COVID-19 / COVID-19 - epidemiology / Decarbonization / Density / Drug Packaging / Environmental impact / Feasibility studies / Filler materials / Heat resistance / High temperature / Humanities and Social Sciences / Humans / Medical wastes / multidisciplinary / Nondestructive testing / Pandemics / Pharmaceutical / Pharmaceutical industry / Pharmaceutical industry wastes / Pharmaceutical Preparations / Plastic debris / Polyethylene terephthalate / Recycling / Recycling - methods / Reinforced concrete / Sand / Sand & gravel / SARS-CoV-2 / Scanning electron microscopy / Science / Science (multidisciplinary) / Sulfur / Sustainability / Transition zone / Waste / Waste management / Waste Management - methods / Waste streams / Waste utilization / X-Ray Diffraction
2025

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Mohammed Bin Rashid Library /
Catalogue /
Transforming waste pharmaceutical blister into sustainable concrete
Transforming waste pharmaceutical blister into sustainable concrete
Journal Article

Transforming waste pharmaceutical blister into sustainable concrete

Sharma, Keshav Kumar,
Pratap, Bheem,
Choudhary, Rohan Kumar,
Choudhary, Awdhesh Kumar,
Asaithambi, Perumal
2025
Request Book From Autostore and Choose the Collection Method
Overview
The increasing global focus on sustainability and decarbonization has highlighted the urgent need for effective plastic waste management strategies, including their potential reuse in construction materials. Pharmaceutical blister packaging, primarily composed of plastic aluminium laminates, represents a growing post-consumer waste stream, further exacerbated by the COVID-19 pandemic due to increased reliance on solid medications. Recycling waste pharmaceutical blisters (WPBs) poses significant challenges; however, its incorporation into concrete offers a sustainable alternative for waste utilization. This study explores the feasibility of using WPB in M30 concrete by developing two mix categories through the absolute volume method: (i) direct addition of WPB (0–30% by weight of sand) and (ii) partial replacement of sand with WPB (5–30%). Compressive strength tests identified 20% substitution as optimal, with mixes achieving 92–95% of control strength. Non-destructive evaluation using the Schmidt Rebound Hammer validated destructive testing results. Water absorption analysis revealed that partial sand replacement provided better resistance compared to direct addition. Furthermore Scanning Electron Microscopy (SEM) and X-ray Diffraction (XRD) analyses of the optimum mix after 90 days confirmed well-developed hydration products and strong interfacial bonding between WPB fibers and the cementitious matrix. The results demonstrate that WPB can be effectively utilized in low-strength concrete, providing a promising solution for pharmaceutical waste management while contributing to circular economy and decarbonization goals in the construction sector. Future studies should investigate durability under aggressive environments, behavior at elevated temperatures, and flexural performance, along with advanced microstructural characterization to better understand interfacial transition zones.
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Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject

639/166

/ 639/301

/ 704/172

/ Aggregates

/ Aggressive behavior

/ Aluminum

/ Blister

/ Blister packs

/ Cement

/ Circular economy

/ Compressive Strength

/ Concrete

/ Concrete mixing

/ Construction industry

/ Construction Materials

/ COVID-19

/ COVID-19 - epidemiology

/ Decarbonization

/ Density

/ Drug Packaging

/ Environmental impact

/ Feasibility studies

/ Filler materials

/ Heat resistance

/ High temperature

/ Humanities and Social Sciences

/ Humans

/ Medical wastes

/ multidisciplinary

/ Nondestructive testing

/ Pandemics

/ Pharmaceutical

/ Pharmaceutical industry

/ Pharmaceutical industry wastes

/ Pharmaceutical Preparations

/ Plastic debris

/ Polyethylene terephthalate

/ Recycling

/ Recycling - methods

/ Reinforced concrete

/ Sand

/ Sand & gravel

/ SARS-CoV-2

/ Scanning electron microscopy

/ Science

/ Science (multidisciplinary)

/ Sulfur

/ Sustainability

/ Transition zone

/ Waste

/ Waste management

/ Waste Management - methods

/ Waste streams

/ Waste utilization

/ X-Ray Diffraction

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