Your search keyword '"Dhengare, S. W."' showing total 5 results

1. Development and characterization of red matta rice husk derived Si2N2O bioceramic-epoxy nanocomposite coating for damage and barrier protection of building materials

Author

Dhengare, S. W., Sharun, V, Mariappan, M., and Rao, Pothamsetty Kasi V

Published

2024

2. Enhancement of fresh concrete strength through the integration of quaternary mix with sugarcane bagasse ash, copper slag and hatchery waste.

Author

Dhengare, S. W. and Waghe, U. P.

Subjects

*INDUSTRIAL waste management, *AGRICULTURAL wastes, *CONCRETE waste, *NATURAL resources, *CONCRETE mixing, *BAGASSE, *COPPER slag

Abstract

Sustainable construction demands research on enhancing concrete strength and minimizing environmental impact. This study investigates incorporating quaternary concrete mix with sugarcane bagasse ash, copper slag and hatchery waste for improved mechanical properties. Experimental investigations showed that incorporating sugarcane bagasse ash, copper slag and hatchery waste in concrete enhances strength, durability, and contributes to sustainable waste management by repurposing industrial and agricultural by-products. This research explores eco-friendly construction practices using quaternary concrete mixes with unconventional additives. The optimized combination of traditional cement, sand, aggregates, water, sugarcane bagasse ash, copper slag, and hatchery waste improves performance and conserves natural resources, enhancing structural integrity and environmental responsibility. [ABSTRACT FROM AUTHOR]

Published

2024

3. Development and characterization of red matta rice husk derived Si2N2O bioceramic-epoxy nanocomposite coating for damage and barrier protection of building materials.

Author

Dhengare, S. W., Sharun, V, Mariappan, M., and Rao, Pothamsetty Kasi V

Abstract

In this investigation, the characterisation and preparation of Si2N2O particles from red matta rice husk and its epoxy biocomposites were characterized and examined. This study's objective is to evaluate the mechanical, wear, creep, thermal stability, flammability, and hydrophobicity behaviours of a Si2N2O -epoxy biocomposites coating for wood protection applications. According to the results of this experiment, silane-treated Si2N2O particles perform better when included than as-received particles. The composite with the designation RS22 exhibits the highest measured values for tensile strength, tensile modulus, flexural strength, flexural modulus, and Izod impact, respectively, of about 107 MPa, 4.31 GPa, 141 MPa, 5.61 GPa, and 1.1 J. However, as the volume percentage of Si2N2O particles is increased, a gradual decrement is seen. On the other hand, it is observed that the maximum wear resistance values were noted up to the 0.23 of coefficient of friction (COF) and 0.009 mm3/Nm for specific (sp.) wear rate by addition of 2.0 vol. % of silane-treated Si2N2O particles. Similar to this, for the same composite designation RS33, the lowest reported creep values were noted at about 0.0041, 0.0055, 0.0058, 0.0094, and 0.0103 for 2000 s, 4000 s, 6000 s, 8000 s, and 10,000 s, respectively. For the identical composite designated RS33, addition of silane-treated Si2N2O particles by 2.0 vol.% results in a minimal weight loss, a highest decomposition temperature of around 440°C, and the greatest degree of contact angle of roughly 126°. Accordingly, inclusion of Si2N2O up to 2.0 vol.% influences oxygen permeability in the same manner up to 1.5 (10x-2 cc.mm/(m2.d.atm)) and water permeability around 1.0 WC%. [ABSTRACT FROM AUTHOR]

Published

2024

4. Evaluation of various-shaped elevated RCC water storage vessels in zone V.

Author

Dhengare, S. W., Waghe, U. P., Dakhole, Abhishek, and Bhagat, R. M.

Subjects

*BENDING moment, *WATER storage, *WATER supply, *COLUMNS, *EARTHQUAKES

Abstract

This study examines the structural performance of different Elevated Storage Reservoirs (ESRs) under static earthquake conditions, focusing on Zone V, a severe earthquake zone, to provide water for human habitation and industry. The study analyses axial forces, bending moments, staging displacement, and horizontal bending moments in columns, beams, and tank walls, revealing significant structural variations among different shapes. This comparative analysis enhances ESR design philosophy for economical, safer, and cost-effective solutions, enhancing resilience in earthquake-prone areas for essential water supply. [ABSTRACT FROM AUTHOR]

Published

2024

5. Review on: "Design to reality of building smarter and sustainable development with BIM efficiency".

Author

Pimpalghare, Prerna R., Hirekhan, Sneha G., Nikhade, Harshal, Yadav, Amruta, and Dhengare, S. W.

Subjects

BUILDING information modeling, BUILDING performance, WASTE minimization, ENERGY consumption, CONSTRUCTION management

Abstract

Building information modelling is crucial for the proactive management of construction since it has a big influence on the buildings' performance characteristics and reduction of waste. Infrastructure is made to be recycled when it is destroyed, which lessens its impact on the environment and energy usage. Building information modelling, or BIM is crucial for the proactive management of construction since it has a big influence on the buildings' performance characteristics and reduction of waste. Building information modelling (BIM) and its use in the construction sector was the subject of a meta-analysis study that included 2767 papers. Infrastructure is made to be recycled when it is destroyed, which lessens its impact on the environment and energy usage. Building information modelling is crucial for the proactive management of construction since it has a big influence on the buildings' quality of performance and the reduction of waste. Internet of Things (IoT) and Building Information Modelling (BIM) integration in the construction sector from 2011 to 2023. Based on IC, EC, and high-quality assessment requirements, 87 research papers were chosen. The BIM industry has been gradually expanding, especially during the past six years. Of the chosen research, 83.78% were published in journal sources and 25.5% in proceedings. The concentrated on the adoption of BIM, with 50.05% of it focusing on the integration of BIM and IoT devices. [ABSTRACT FROM AUTHOR]

Published

2024