Title:
Proposing a New Solution to Change the Vibration Force of Vibratory Rollers in Construction Operations.

Authors:
Hoa Xuan Thang, Le Thanh Duc, Viet Nam

Abstract:

A current construction machinery has been widely used for a long time, and its operating principles have remained essentially unchanged since their inception. Among these machines is the vibratory roller. The cause of vibration in this type of machine is based on the centrifugal force of the rollers. The purpose of this paper is to introduce a dynamic change driven by electrical command information. Knowledge related to machine configuration in this field has been relatively well demonstrated. Using mathematical learning methods and classical physics, the paper presents a new, supplementary alternative to previously available methods. During the research, the author found that this action is an effective method in designing machines with vibration-induced causes, such as vibratory rollers. If this method is widely applied, it will save costs and energy. Costs include: the machine design process, the machine manufacturing mode, and the personnel involved in this work. Construction tools involve many stages. Foundation reinforcement is one of the most important steps. The proposed solution reduces time and increases efficiency. However, like other theoretical studies, this paper still requires specific experiments in machine design and construction.

DOI: http://dx.doi.org/10.51505/ijaemr.2026.1205