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Journal of Failure Analysis and Prevention
Erschienen in: Journal of Failure Analysis and Prevention 5/2016

01.10.2016 | Technical Article---Peer-Reviewed

Structure Design and Optimization of Deep Cavity Rollers of Rotary Steering Spindle System

verfasst von: Xiaodong Zhang, Huiping Lu, Bo Li

Erschienen in: Journal of Failure Analysis and Prevention | Ausgabe 5/2016

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Abstract

The center shaft of rotary steering spindle system is bendable under bias force. A severe partial load effect occurs among rollers, the inside and outside circles of the first cantilever bearing. Simulation analysis was conducted by loading boundary condition of the spindle under bias force. Furthermore, three different types of deep cavity rollers, which were cylindrical, conical, and spherical, respectively, were analyzed by finite element method. The effects of deep cavity angles, radius, and offset on mechanical properties of bearing were studied. The data obtained by simulation analysis were trained and predicted by Back Propagation (BP) neural network, and then the BP neural network model was incorporated into fmincon function. Thereby, structure optimization of rollers was established based on BP neural network model and fmincon function. The results show that structure of the conical deep cavity roller gets optimal mechanical performance. After being optimized, maximum stress of edge region and elliptical area decreases, respectively, by 22 and 17% than before, indicating that structure optimization method of the neural network and fmincon function can be used in optimization of deep cavity rollers. This method can quickly search for the optimal solution with sufficient engineering accuracy, ease of use, and adaptability.
Vorheriger Artikel Finite Element Analysis of Hydrogen Transport in Steel Pressure Vessel at High Temperature
Nächster Artikel A Simulation Study on the Transient Motion of a Reciprocating Compressor Suction Valve Under Complicated Conditions

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Literatur
1.
S. Minett, D. Stroud, J. Paget, Real-time whirl detector aids drilling optimization. SPE 135110 (2010)
2.
Q. Zhou, B.L. Liu, Y. Li, Research on the effects of bending of cantilever bearing of rotary steering tool spindle. J. Petrol. Mach. 38(10), 14–17 (2010)
3.
S. Stuart, Application of Point the Bit Rotary Steerable System in Directing Drilling Prototype Well-bore Profile. SPE62591 (2000)
4.
D. Stroud, Roller reamer fulcrum in point-the-bit-rotary steerable system reduces stick-slip and backward whirl.SPE 151603 (2011)
5.
H.B. Liu, Partial load effect analysis of axle journal bearing of railway cargo. Southwest Jiao tong University (2014)
6.
Y.X. Mao, X.J. Shen, X.Y. Chen et al., Contact stress of roller bearing load distribution calculation and design of roller crown. J. Mech. Eng. 20(16), 1918–1922 (2009)
7.
S. Kenji, S. Masamichi, S. Masaaki, Roller bearing and a method of process the same United Stated 6318897. 2001-11-20
8.
P.M. Johns, R. Gohar, Roller bearing under radial and eccentric loads. Tribol. Int. 14(3), 131–136 (1981)CrossRef
9.
Y.G. Wei, Z.L. Ge, Q.Y. Jiang, Partial load analysis of high speed passenger car axle box bearing and the bearing roller asymmetric modification. Lubr. Seal. 12(2), 9–12 (2002)
10.
Y.G. Wei, X.J. Zhang, X.M. Liu, Element analysis of deep cavity short cylindrical roller bearing finite of passenger car axle box. J. Dalian Railw. Inst. 20(4), 26–29 (1999)
11.
Y.G. Wei, New type of rolling element bearing, deep hole hollow cylindrical roller bearing performance of theoretical study. J. Mech. Eng. 9(2), 107–111 (2005)CrossRef
12.
J. Zhang, Z. Liang, C.J. Han et al., Numerical studies of deep hole hollow roller bearing for cone bit. J. Mech. strength 4(5), 723–727 (2014)
13.
J. Zhang, Z. Liang, C.J. Han et al., Deep hole hollow thrust tapered roller bearing design and contact analysis. J. Huazhong Univ. Sci. Technol. 42(6), 28–32 (2014)
14.
J.S. Du, B.L. Liu, Q.T. Li et al., Mechanical model and optimization of rotary steering system offset mandrel. J. Petrol. Mach. 4(8), 28–31 (2008)
15.
J.H. Yu, J.W. Yao, Innovation design of elastic composite cylindrical roller bearing based on TRIZ contradiction matrix. Mechanical 39(2), 1–3 (2012)
16.
D.Y. Xue, Y.Q. Chen, Higher Application of Mathematical Problem by MATLAB Solving (Tsinghua University Press, Beijing, 2008)CrossRef
17.
W. Yang, Q.S. Yao, J.H. Yu et al., Study of the elastic composite cylindrical roller bearing performance. J. Mech. Transm. 37(5), 6–9 (2013)
18.
G.D. Zhang, K.Q. Gu, The nonlinear structural optimization based on genetic algorithms and parametric modeling. J. Comput. Mech. 20(6), 764–768 (2003)
Metadaten
Titel
Structure Design and Optimization of Deep Cavity Rollers of Rotary Steering Spindle System
verfasst von
Xiaodong Zhang
Huiping Lu
Bo Li
Publikationsdatum
01.10.2016
Verlag
Springer US
Erschienen in
Journal of Failure Analysis and Prevention / Ausgabe 5/2016
Print ISSN: 1547-7029
Elektronische ISSN: 1864-1245
DOI
https://doi.org/10.1007/s11668-016-0149-3

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