Current Volume 10
This paper is attempted to provide the investigation of properties and influence of e-waste on concrete. The utilization of the waste generated from the electronic devices adds sustainability for the environment. This study generates a path to find the efficient methods to reutilize the electronic waste in place of the conventional building materials. This paper reports the behaviour of the concrete with E-waste as a partial replacement of fine aggregate due to its compatibility. The percentage of E-waste replacement is 10%, 20%, 30%, 40% and 50% of the fine aggregate. We used the printed circuit boards[ PCBs] as E waste consist of approximately 26% metal, made up mainly of copper, lead, aluminum, iron and tin, as well as other heavy metals such as cadmium and nickel
PCBs, Compressive strength, Flexural Strength, E waste
IRE Journals:
Mr. Vilas Waghmare, Dr Nagesh Shelke, Prof. Milind Darade "Influence of E-Waste as Partial Replacement for Cement Material" Iconic Research And Engineering Journals Volume 3 Issue 9 2020 Page 256-259
IEEE:
Mr. Vilas Waghmare, Dr Nagesh Shelke, Prof. Milind Darade
"Influence of E-Waste as Partial Replacement for Cement Material" Iconic Research And Engineering Journals, vol. 3, no. 9, Mar. 2020
APA:
Mr. Vilas Waghmare, Dr Nagesh Shelke, Prof. Milind Darade
(2020). Influence of E-Waste as Partial Replacement for Cement Material. Iconic Research And Engineering Journals, 3(9).
MLA:
Mr. Vilas Waghmare, Dr Nagesh Shelke, Prof. Milind Darade
"Influence of E-Waste as Partial Replacement for Cement Material" Iconic Research And Engineering Journals, vol. 3, no. 9, Mar. 2020.
@article{1702456,
author = {Mr. Vilas Waghmare, Dr Nagesh Shelke, Prof. Milind Darade},
title = {Influence of E-Waste as Partial Replacement for Cement Material},
journal = {Iconic Research And Engineering Journals},
year = {2020},
volume = {3},
number = {9},
pages = {256-259},
issn = {2456-8880},
url = {https://www.irejournals.com/formatedpaper/1702456.pdf},
abstract = {This paper is attempted to provide the investigation of properties and influence of e-waste on concrete. The utilization of the waste generated from the electronic devices adds sustainability for the environment. This study generates a path to find the efficient methods to reutilize the electronic waste in place of the conventional building materials. This paper reports the behaviour of the concrete with E-waste as a partial replacement of fine aggregate due to its compatibility. The percentage of E-waste replacement is 10%, 20%, 30%, 40% and 50% of the fine aggregate. We used the printed circuit boards[ PCBs] as E waste consist of approximately 26% metal, made up mainly of copper, lead, aluminum, iron and tin, as well as other heavy metals such as cadmium and nickel},
keywords = {PCBs, Compressive strength, Flexural Strength, E waste},
month = {March}
}