Abstract:
This project encompasses the design and fabrication of a semi-automated plastering machine, undertaken as part of the requirements for the Bachelor of Science degree in Water Resources
Engineering. The primary objective of this project was to develop a machine that streamlines the plastering process, reducing reliance on manual labor while enhancing efficiency within the construction industry. The report highlights the background and challenges prevalent in the construction sector due to labor-intensive manual plastering techniques, emphasizing the need for automated solutions to improve productivity, reduce labor costs, and expedite project timelines.
The report outlines the methodology encompassing the design, fabrication, and testing phases, incorporating key considerations such as material selection, component design, and performance testing. Through a comprehensive review of automated plastering technologies, this deigns project addresses the significance, scope, and objectives of the design. The fabricated system, comparisons with manual methods, and financial analysis carried out elucidate the transformative impact this project aimed to deliver, aligning with Sustainable Development Goals and offering substantial benefits to the construction industry in terms of efficiency, productivity, and sustainable growth.
Keywords: Plastering, Manual, Labor cost, Fabrication, Automation, Plastering time, etc.
