Book Chapters
Permanent URI for this collectionhttps://idr.nitk.ac.in/handle/123456789/28507
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Item Effects of chemical admixtures on the properties of concrete(Elsevier, 2025) Barbhuiya, S.; Das, B.B.; Adak, D.This chapter thoroughly explores the effects of chemical admixtures on cement properties, ultimately enhancing concrete performance. It begins with a foundational overview of cement and its integral relationship with concrete, emphasizing the pivotal role of chemical admixtures. The chapter categorizes these additives based on function, unveiling their primary contributions to cement compositions. This framework sets the stage for a detailed examination of their influence on critical cement properties such as setting time, workability, strength development, durability, permeability, heat of hydration, and alkali-aggregate reactivity. The distinctive roles of specific admixtures like water reducers, retarders, accelerators, and more are elucidated in enhancing cement performance for diverse applications. Precision in admixture usage is underscored through emphasis on dosage optimization, compatibility testing, and rigorous quality control measures, ensuring effective integration and superior cement performance. To conclude, the chapter synthesizes essential insights, summarizing key discoveries, discussing implications, and suggesting valuable research directions. It offers a succinct yet comprehensive understanding of chemical admixtures in cement and their pivotal role in molding concrete attributes. © 2025 Elsevier Ltd. All rights reserved.Item Key Variables Influencing the Performance of 3D Printed Concrete: A Comprehensive Analysis(Springer Science+Business Media, 2025) Barbhuiya, S.; Das, B.B.; Adak, D.This chapter examines key variables influencing 3D printed concrete performance, focusing on material, process, environmental, and geometric factors essential for achieving optimal strength and durability. It begins with an overview of 3D printed concrete, performance metrics, and the scope of the study. The chapter then delves into material composition, discussing how cement type, aggregate characteristics, additives, and water-cement ratios affect mix consistency, workability, and structural integrity. Process parameters, such as layer height, print speed, and extrusion rate, are analysed for their impact on layer adhesion and structural stability. Environmental factors—including temperature, humidity, and curing—are examined, highlighting their influence on setting time and strength. Geometric and structural considerations, like wall thickness and layer bonding, reveal the effects of design complexity on stability. The chapter concludes by synthesizing these findings, offering insights into optimizing 3D printed concrete performance through coordinated control of materials, process, and environmental conditions. © 2025 The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG.Item Phase change materials in buildings: Fundamentals, applications, and future perspectives(IGI Global, 2024) Barbhuiya, S.; Das, B.B.; Adak, D.This chapter thoroughly explores Phase Change Materials (PCMs) and their applications in buildings. It begins by introducing the background, context, and objectives before delving into PCM fundamentals, covering types, phase change mechanisms, and key properties. Beyond theory, the chapter explores practical applications in thermal regulation, energy effciency, HVAC systems, thermal energy storage, passive building design, heat recovery, and PCM integration. Discussion includes various PCM types-organic, inorganic, eutectic mixtures, and bio-based-alongside selection criteria for building applications. Methods to enhance PCM performance, such as nano-enhancements, microencapsulation, and hybrid solutions, are explored. The chapter addresses integration and design considerations and concludes with insights into future directions, trends, and implications for sustainable building practices. © 2025, IGI Global. All rights reserved.