The need for infrastructure development, electrical equipment, and plastic-manufactured goods has increased exponentially with the arrival of the twenty-first century. Demand growth was followed by a notable increase in construction debris and electronic-plastic (e-plastic). Due to its nonbiodegradability and dangerous metallic waste, e-plastic waste, which consists primarily of wires and discarded plastic components from TVs, refrigerators, and other electronic devices, poses a serious ecological threat. Being the primary component of construction waste, cement considerably contributes to CO2 emissions, which cause global warming.. Situations become more distressing for towns with a large population when such waste is dumped or burned, either of which pollutes the environment. Thus, the purpose of the article is to evaluate whether e-plastic waste can substitute some of the coarse aggregates in concrete. In the experiment, the compressive strength of an M40 concrete mix with weight replacements of coarse aggregates of 5 percent, 10 percent, 15 percent, and 20 percent made from e-plastic waste was measured and compared to a control mix. In the experiment, e-plastic wastes were made up of acrylonitrile butadiene styrene (ABS), a high-density polymer plastic, and polypropylene (PP), a low-density plastic primarily found in electronic gadgets. For efficient test results, a total of 30 cube specimens with varying proportions of cement, fine aggregate, coarse aggregate, and eplastic were created. According to the conclusions drawn from tests carried out in accordance with Bureau of Indian Standard (IS), a noticeable increase in compressive strength was seen at a 5 percent replacement of e-plastic. Nevertheless, a further rise in replacement showed a fall in compressive strength.