,
Abdusattorov Nodirjon Abdujalil o‘g‘li,
Yunusxanov Doniyorbek Dilmurod o‘g‘li*
This article explores the theoretical foundations for improving the durability of housing-type parts restored with WEICON-TI metal-polymer, focusing especially on bearing assemblies, where thermal conductivity is crucial. Modern mechanical systems rely heavily on the reliable performance of bearings, as they are constantly exposed to dynamic loads, friction, and varying operating temperatures. When the housing surfaces become worn or damaged, restoring them using polymer-metal composites like WEICON-TI provides an efficient and cost-effective alternative to traditional repair methods. One of the key factors affecting the performance of these restored assemblies is the material’s ability to conduct heat away from contact surfaces. Proper thermal conductivity not only helps stabilize operating temperatures but also reduces the risk of localized overheating, which can lead to accelerated wear, microstructural damage, or even failure of the assembly. Therefore, understanding the principles of heat transfer in metal-polymer restored surfaces is essential for predicting service life and ensuring long-term reliability. This article systematically analyzes these theoretical aspects and shows how the thermal conductivity of WEICON-TI contributes to the enhanced load-bearing capacity, stability, and operational safety of restored bearing assemblies. By efficiently transferring heat, the material prevents excessive temperature rises, minimizes wear, and helps maintain the mechanical integrity of the system. As a result, parts restored with WEICON-TI last longer, operate more safely, and provide more stable performance under demanding conditions. Understanding these principles allows engineers to optimize repair processes and ensure that mechanical systems continue to function reliably over time, even in challenging thermal and mechanical environments.
| Published in | American Journal of Mechanics and Applications (Volume 12, Issue 4) |
| DOI | 10.11648/j.ajma.20251204.13 |
| Page(s) | 87-92 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2025. Published by Science Publishing Group |
Reliability, Durability, Thermal Conductivity, Housing-type Parts, Bearing, Physico-mechanical Properties, Adhesive, Joint, Surface, Hub, WEICON-TI Metal Polymer, Restoration, Thermal Conditions
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APA Style
Sattorovich, P. A., o‘g‘li, A. N. A., o‘g‘li, Y. D. D. (2025). The Theoretical Foundations of the Thermal Conductivity of Housing-Type Part Assemblies Restored with WEICON-TI Metal Polymer. American Journal of Mechanics and Applications, 12(4), 87-92. https://doi.org/10.11648/j.ajma.20251204.13
ACS Style
Sattorovich, P. A.; o‘g‘li, A. N. A.; o‘g‘li, Y. D. D. The Theoretical Foundations of the Thermal Conductivity of Housing-Type Part Assemblies Restored with WEICON-TI Metal Polymer. Am. J. Mech. Appl. 2025, 12(4), 87-92. doi: 10.11648/j.ajma.20251204.13
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Download@article{10.11648/j.ajma.20251204.13,
author = {Polvonov Abdujalil Sattorovich and Abdusattorov Nodirjon Abdujalil o‘g‘li and Yunusxanov Doniyorbek Dilmurod o‘g‘li},
title = {The Theoretical Foundations of the Thermal Conductivity of Housing-Type Part Assemblies Restored with WEICON-TI Metal Polymer
},
journal = {American Journal of Mechanics and Applications},
volume = {12},
number = {4},
pages = {87-92},
doi = {10.11648/j.ajma.20251204.13},
url = {https://doi.org/10.11648/j.ajma.20251204.13},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajma.20251204.13},
abstract = {This article explores the theoretical foundations for improving the durability of housing-type parts restored with WEICON-TI metal-polymer, focusing especially on bearing assemblies, where thermal conductivity is crucial. Modern mechanical systems rely heavily on the reliable performance of bearings, as they are constantly exposed to dynamic loads, friction, and varying operating temperatures. When the housing surfaces become worn or damaged, restoring them using polymer-metal composites like WEICON-TI provides an efficient and cost-effective alternative to traditional repair methods. One of the key factors affecting the performance of these restored assemblies is the material’s ability to conduct heat away from contact surfaces. Proper thermal conductivity not only helps stabilize operating temperatures but also reduces the risk of localized overheating, which can lead to accelerated wear, microstructural damage, or even failure of the assembly. Therefore, understanding the principles of heat transfer in metal-polymer restored surfaces is essential for predicting service life and ensuring long-term reliability. This article systematically analyzes these theoretical aspects and shows how the thermal conductivity of WEICON-TI contributes to the enhanced load-bearing capacity, stability, and operational safety of restored bearing assemblies. By efficiently transferring heat, the material prevents excessive temperature rises, minimizes wear, and helps maintain the mechanical integrity of the system. As a result, parts restored with WEICON-TI last longer, operate more safely, and provide more stable performance under demanding conditions. Understanding these principles allows engineers to optimize repair processes and ensure that mechanical systems continue to function reliably over time, even in challenging thermal and mechanical environments.
},
year = {2025}
}
TY - JOUR T1 - The Theoretical Foundations of the Thermal Conductivity of Housing-Type Part Assemblies Restored with WEICON-TI Metal Polymer AU - Polvonov Abdujalil Sattorovich AU - Abdusattorov Nodirjon Abdujalil o‘g‘li AU - Yunusxanov Doniyorbek Dilmurod o‘g‘li Y1 - 2025/10/28 PY - 2025 N1 - https://doi.org/10.11648/j.ajma.20251204.13 DO - 10.11648/j.ajma.20251204.13 T2 - American Journal of Mechanics and Applications JF - American Journal of Mechanics and Applications JO - American Journal of Mechanics and Applications SP - 87 EP - 92 PB - Science Publishing Group SN - 2376-6131 UR - https://doi.org/10.11648/j.ajma.20251204.13 AB - This article explores the theoretical foundations for improving the durability of housing-type parts restored with WEICON-TI metal-polymer, focusing especially on bearing assemblies, where thermal conductivity is crucial. Modern mechanical systems rely heavily on the reliable performance of bearings, as they are constantly exposed to dynamic loads, friction, and varying operating temperatures. When the housing surfaces become worn or damaged, restoring them using polymer-metal composites like WEICON-TI provides an efficient and cost-effective alternative to traditional repair methods. One of the key factors affecting the performance of these restored assemblies is the material’s ability to conduct heat away from contact surfaces. Proper thermal conductivity not only helps stabilize operating temperatures but also reduces the risk of localized overheating, which can lead to accelerated wear, microstructural damage, or even failure of the assembly. Therefore, understanding the principles of heat transfer in metal-polymer restored surfaces is essential for predicting service life and ensuring long-term reliability. This article systematically analyzes these theoretical aspects and shows how the thermal conductivity of WEICON-TI contributes to the enhanced load-bearing capacity, stability, and operational safety of restored bearing assemblies. By efficiently transferring heat, the material prevents excessive temperature rises, minimizes wear, and helps maintain the mechanical integrity of the system. As a result, parts restored with WEICON-TI last longer, operate more safely, and provide more stable performance under demanding conditions. Understanding these principles allows engineers to optimize repair processes and ensure that mechanical systems continue to function reliably over time, even in challenging thermal and mechanical environments. VL - 12 IS - 4 ER -
Transport Faculty, Namangan State Technical University, Namangan, Uzbekistan
Transport Faculty, Namangan State Technical University, Namangan, Uzbekistan
Transport Faculty, Namangan State Technical University, Namangan, Uzbekistan
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