Static analysis of the screw-nut transmission with the implementation of a wedge gap in the engagement of the thread turns.

Authors

  • Prokshin Sergey Sergeevich Ufa University of Science and Technology
  • Minigaleev Sergey Munirovich Ufa University of Science and Technology
  • Mukhamadeev Vener Rifkatovich Ufa University of Science and Technology

Keywords:

mechanical transmission, screw-nut, running thread, contact strength problem, transmission efficiency, wedge clearance

Abstract

Mechanical transmissions with the transformation of rotational motion into translational motion in addition to rack and pinion gears have become widespread. The most commonly used gears are based on conventional or special threads – sliding screw-nut gears with high load capacity, tech-nologically and structurally uncomplicated. The article presents a comparative analysis of screw-nut gears by load capacity, confirming the effectiveness of the proposed transmission. doi 10.54708/19926502_2024_28410669

Author Biographies

Prokshin Sergey Sergeevich, Ufa University of Science and Technology

Candidate of technical Sciences, Associate Professor at the Department of the Foundations of Design of Mechanisms and Machines, Ufa University of Science and Technology. Dipl. Engineer (UAI, 1964). Research in the field of mechanical transmissions of the aircraft equipment and vehicles.

Minigaleev Sergey Munirovich, Ufa University of Science and Technology

Candidate of technical Sciences, Associate Professor at the Department of the Foundations of Design of Mechanisms and Machines, Ufa University of Science and Technology. Dipl. Engineer (USATU, 1997). Research in the field of tribology and improve the efficiency of the blade machining process.

Mukhamadeev Vener Rifkatovich, Ufa University of Science and Technology

Senior Lecturer at the Department of the Foundations of Design of Mechanisms and Machines, Ufa University of Science and Technology. Master’s degree in engineering and technology (USATU, 2007). Research in the field of wear resistance of the cutting tool.

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Published

2025-08-01

Issue

Vol. 28 No. 4(106) (2024)

Section

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