neobjavljeni prilog sa skupa
The following paper presents the introduction of a new methodological approach aimed at calculating the deterioration coefficient for construction equipment with greater accuracy. A mathematical model specifically designed for construction machinery and equipment engineering is proposed, to enhance the accuracy of practical effects estimation during the computation of construction machinery.
The model incorporates five input parameters identified as having the most significant impact on the deterioration of construction equipment: equipment age, working hours, usage intensity, maintenance protocols, and operator expertise. These parameters are considered for a comprehensive assessment of deterioration.
To validate the effectiveness of the proposed model, a comprehensive empirical analysis is conducted, which encompasses various types of construction equipment and operational scenarios. The results derived from this analysis are expected to demonstrate the model's accuracy in estimating deterioration coefficients and its practical utility in refining engineering calculations for construction machinery. Adjustments to the model will be made if necessary.
In conclusion, the proposed model is recognized as a significant advancement in construction equipment management, providing a systematic framework for utilizing deterioration coefficients to enhance the precision of engineering calculations. Its application is anticipated to streamline maintenance practices, optimize equipment utilization, and ultimately improve operational efficiency in the construction industry.
Deterioration Coefficient; Engineering Calculations; Mathematical Model; Construction Equipment; Maintenance Optimization; Operational Efficiency
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