USE OF HIGHER-ORDER DERIVATIVES IN DETERMINING THE OPTIMAL SHAPE OF A GRINDING HAMMER AND JAW IN TECHNOLOGICAL MACHINES

Authors

  • Sayitjonova Mashxuraxon Tulkinovna Assistant of the Department of “Technological Machines and Labor Protection” Andijan State Technical Institute

Keywords:

crusher hammer, crusher jaw, working element, optimal shape, higher-order derivatives, stress, energy consumption.

Abstract

This paper studies the optimal shape of crusher hammers and jaws using higher-order derivatives. Working surfaces are modeled as functions to analyze stress extrema and deformation gradients. Results show that a smooth shape reduces stress and energy consumption. Findings support improved durability and energy efficiency of machines.

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References

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A Fundamental Model of an IndustrialScale Jaw Crusher. Minerals Engineering, 105:69–78, 2017 — jaw crusher (jag‘li maydalagich) ning fundamental matematik modeli ishlab chiqilgan.

Assessing the Energy Efficiency of a Jaw Crusher. Energy, 74:119–130, 2014 — jaw crusher energiya samaradorligi va optimizatsiya yondashuvlari tahlil qilingan.

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Published

2026-04-21

How to Cite

Sayitjonova Mashxuraxon Tulkinovna. (2026). USE OF HIGHER-ORDER DERIVATIVES IN DETERMINING THE OPTIMAL SHAPE OF A GRINDING HAMMER AND JAW IN TECHNOLOGICAL MACHINES. Journal of Applied Science and Social Science, 16(4), 902–906. Retrieved from https://www.internationaljournal.co.in/index.php/jasass/article/view/4123

Issue

Vol. 16 No. 4 (2026): Journal of Applied Science and Social Science

Section

Articles

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