Optimized use of cooling holes to decrease the amount of thermal damage on a plastic gear tooth

Koffi, Demagna; Bravo, Alencar; Toubal, Lotfi; Erchiqui, Fouad

doi:10.1177/1687814016638824

Cited by 10 publications

(3 citation statements)

References 17 publications

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“…Several constraints are observed when comparing plastic gears and metal gears, including the operating temperature, thermal expansion, capacity, dimensional stability (low because of shrinkage), and moisture absorption [2,11,12]. The temperature dependence of certain properties is problematic.…”

Section: Introductionmentioning

confidence: 99%

Gear fatigue life and thermomechanical behavior of novel green and bio-composite materials VS high-performance thermoplastics

et al. 2018

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Section: Introductionmentioning

confidence: 99%

Gear fatigue life and thermomechanical behavior of novel green and bio-composite materials VS high-performance thermoplastics

et al. 2018

Self Cite

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“…Gear holes shown in Figure 10 185 However, numerically method shows moderate increase in stresses and tooth deflection in gears with drilled holes. 186 Metallic insertion in hybrid polymer reduces bulk temperature by evacuating heat from meshing surface. Simulations have been conducted on material selection of inserting pins in plastic gear and found performance of aluminum pin better than copper and steel pins.…”

Section: Gear Tooth and Profile Modificationmentioning

confidence: 99%

A review on materials and performance characteristics of polymer gears

Jain

Patil

2022

Proceedings of the Institution of Mechanical Engineers, Part C:

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In this research work an extensive review on use of advance materials and performance of polymer gears. Further, literature on polymer gears has been divided into four divisions based on the type of gear material, performance characteristic, modifications, and manufacturing techniques. Materials like polyamide and acetal and their composites are focused due to their huge application quotient. Use of in total six grades that is, PA6, PA66, PA12, PA46, PA618, and PA645 as gear material have been identified. Use of glass and carbon fiber reinforcements in PA gears with varying percentage in a range of 20%–35% and 15%–30%, respectively have been observed. Failure and performance characteristics such as wear, thermal, fatigue, load, transmission, and operational have been illustrated and described in detail. Research studies to improve thermal performance of plastic gears by modifying gear tooth and its profile has also been discussed along with their effects. Application of advance manufacturing technique such as 3D printed additive manufacturing in producing plastic gears is also talked over in this article. This compiled review work aims to assist researchers in selection of plastic gear material and to explore various factors and parameters affecting the failure behavior and performance of plastic gears.

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“…Considering the relative complexity of the iterative method, Koffi et al [31] proposed an empirical formula for calculating the actual contact ratio of plastic gears based on an iterative method. Most of the subsequent research [5,[32][33][34] on plastic gears is based on this empirical formula. A Cartesian coordinate system is established with O as the coordinate origin, 𝐴𝐵 is the x-axis, 𝑂𝐵 as the positive direction of the x-axis, and the y-axis as the direction perpendicular to AB through point O.…”

Section: Contact Ratio Of Steel-plastic Gear Pair Under Loadmentioning

confidence: 99%

Investigation on the time-varying meshing stiffness and dynamic characteristics of steel-plastic gear pair

Xiong

Huang

et al. 2022

Preprint

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Large errors in time-varying mesh stiffness calculations of steel-plastic gears can result from the use of the potential energy method.Therefore, this paper considers the meshing characteristics and material properties of the steel-plastic gear pair, and proposes a method to calculate the time-varying mesh stiffness. The influence of load change on the time-varying mesh stiffness and dynamic performance of the steel-plastic gear pair is also considered. The simulation results show that the stiffness changes linearly with the load. The dynamic performance of the steel-plastic gear pair deteriorates with the increase in load. Under the same load condition, the dynamic response considering the effects of premature and extended tooth contact is better than that of the gear pair that does not consider the premature and extended tooth contact; this advantage is more evident at higher load.

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Optimized use of cooling holes to decrease the amount of thermal damage on a plastic gear tooth

Cited by 10 publications

References 17 publications

Gear fatigue life and thermomechanical behavior of novel green and bio-composite materials VS high-performance thermoplastics

Gear fatigue life and thermomechanical behavior of novel green and bio-composite materials VS high-performance thermoplastics

A review on materials and performance characteristics of polymer gears

Investigation on the time-varying meshing stiffness and dynamic characteristics of steel-plastic gear pair

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