line contact
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2021 ◽  
Author(s):  
Mingyang Wang ◽  
Yuehai Sun

Abstract To improve the meshing performance and increase the bearing capacity and service life of spiral gear pairs, the cutter head approximation machining method based on controlling topological deviations was proposed to solve the problem where line contact spiral bevel gears with tapered teeth depth cannot be directly machined by cutter heads. First, the mathematical model of line contact conjugate flanks was established, and meshing equations and conjugate flank equations of bevel gear pairs were derived. Second, the gear tooth flank was set as the datum tooth flank for priority machining, and the pinion theoretical tooth flank which is fully conjugate with the gear tooth flank and the pinion machining tooth flank matching with the gear were solved. Then, the geometric topological deviations model of the comparison between the pinion machining tooth flank and its theoretical tooth flank can be established. Finally, with the pinion machining tooth flank approaching its theoretical tooth flank as the modification, the additional cutting motions and machining compensation parameters of cutter heads were obtained to control the pinion machining tooth flank deviations and reduce them to the allowable deviations of its theoretical tooth flank. The contact simulation analysis and rolling test verified the correctness of the line contact conjugate flank model and feasibility of the cutter head approximation machining method.


2021 ◽  
Vol 13 (2) ◽  
pp. 124-129
Author(s):  
Sergiu Spinu ◽  
◽  

The line-contact is a particular type of contact with a contact length much greater than its width. Such contact scenarios can be treated in the frame of a two-dimensional plane-strain problem if the contacting surfaces can be considered nominally smooth. However, surface irregularities inherent to any manufacturing technique lead to a discontinuous contact area that differs from the one derived on the basis of the smooth profile assumption. It is therefore tantalizing to pursue the solution of a line-contact problem using an intrinsically three-dimensional (3D) model, which can only be numerical due to lack of general analytical solutions in contact mechanics. Considering the geometry of the line-contact, a major challenge in its numerical modelling is that the expected contact area is orders of magnitude larger in one direction compared to the other. This may lead to an unreasonably large number of grids in the contact length direction, which translates to a prohibitive computational burden. An alternative approach, employed in this paper, is to treat the line-contact as non-periodic in the contact width direction, but periodic in the contact length direction, with a period equal to the window required to capture and replicate the surface specific texture. This periodicity encourages the contact problem solution by spectral methods based on the fast Fourier transform (FFT) algorithm. Based on this idea, two methods are derived in this paper from the existing Discrete Convolution Fast Fourier Transform (DCFFT) technique, which was previously developed for purely non-periodic contact problems. A first algorithm variant employs a special padding technique for pressure, whereas a second one mimics the contribution of multiple pressure periods by summation of the influence coefficients over a domain a few times larger than the target domain. Both techniques are validated against the existing analytical Hertz solution for the line-contact and a good agreement is found. The advanced methods seem well adapted to the simulation of contact problems that can be approximated as periodic in one direction and non-periodic in the other.


2021 ◽  
Vol 386 ◽  
pp. 114132
Author(s):  
Leoluca Scurria ◽  
Dieter Fauconnier ◽  
Pavel Jiránek ◽  
Tommaso Tamarozzi

2021 ◽  
pp. 1-26
Author(s):  
Jiang Zhao ◽  
Wei Sheng ◽  
Zhengminqing Li ◽  
Hong Zhang ◽  
Rupeng Zhu

Abstract The relative sliding at the meshing point directly affects the contact and lubrication characteristics of the gear pair, and is the main cause of gear wear and power loss. In this research, for investigation of a new type of low sliding ratio (LSR) gear pair whose tooth profile is constructed by a cubic function, a Three-dimensional (3D) mixed EHL line contact model was established with consideration of the effect of tooth profile geometry, transient motion characteristics, load distribution and machining roughness. The distribution of the center film thickness of the LSR gear along the meshing line was predicted through an example the result of which was compared with a typical line contact EHL formula to verify the model. In addition, the difference was investigated in film thickness distribution, of friction coefficient and temperature rise between LSR spur gears and involute spur gears. Basing on above, there was discussion about the effect of 3D rough tooth surface on the contact lubrication characteristics of LSR gears. The results demonstrated that the minimum center film thickness of the LSR gear appeared at the alternating point of the concave and convex tooth surfaces. At the same time, compared with the involute gear, the LSR gear significantly increased the film thickness at the start and ending points of the meshing, and reduced the friction coefficient and the flash temperature rise.


2021 ◽  
Vol 17 (2) ◽  
pp. 121
Author(s):  
Asdiar Surya Kurniawan
Keyword(s):  

Keausan merupakan fenomena tribologi yang terjadi pada setiap peralatan akibat kontak mekanik antara dua komponen. Dalam kurun waktu yang lama keausan ini akan menimbulkan kerusakan pada peralatan. Untuk meningkatkan keandalan dan efisiensi peralatan, maka fenomena keausan ini perlu dikaji lebih lanjut. Penelitian ini bertujuan menghitung kedalaman aus dan volume aus sebuah pin berbentuk silinder pendekatan line contact menggunakan tribometer pin-on-disc. Variasi yang dilakukan adalah pembebanan yaitu sebesar 6 N, 8 N, dan 10 N. Pengujian keausan dilakukan pada keadaan tanpa pelumas. Hasil eksperimen kemudian dibandingkan dengan metode analitik GIWM (Global Incremental Wear Model). Hasil penelitian memperlihatkan bahwa eksperimen tribometer pin-on-disc dan GIWM sama-sama berbanding lurus dengan pembebanan. Pada beban 10 N dengan jarak sliding 904,32 m memiliki kedalaman aus 2,46096E-05 m dan volume keausan 1,62778E-08 m3. Pada beban 6 N pada jarak sliding yang sama memiliki kedalaman aus 1,75067E-05 m dan volume aus 9,76666E-09 m3. Semakin bertambah pembebanan dan jarak sliding maka nilai keausan semakin bertambah.


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