Modeling of segmental excavator working tool for soil compaction

¹ Tashkent State Transport University, Tashkent, Uzbekistan
² Public Security University of the Republic of Uzbekistan, Tashkent, Uzbekistan

^* Corresponding author: xankelovt9@gmail.com

Abstract

The development of a methodology for physical modeling of the working process and a replaceable working tool of an excavator for soil compaction in the construction, maintenance, and repair of man-made engineering structures in confined spaces are considered in the article. This methodology is based on a rheological model of the soil compaction process containing Hooke and Newton's elements connected in parallel (the Voigt model is the method of integral analogs that have been used to obtain the main similarity criteria that adequately characterize the process of static compaction during elastoviscoplastic soil deformation). The formulas for the transition from the model parameters to the parameters of the full-scale process of soil compaction by a segmental working tool are obtained based on similarity criteria for modeling the option without changing soil properties.