Development Trends of Research on Monitoring Wear of Sliding Main Bearing for Diesel Engine

Jun Zhu; Jian Guo Yang

doi:10.4028/www.scientific.net/AMR.472-475.1702

Paper Titles

Performance Studying of Cotton Fibers before and after Cationic Modification
p.1681

Design and Study of a Phase Change Micro-Channel Heat Sink
p.1686

Investigation of Conducting Pins in Sphere Filled with Phase Change Material for Enhancing Heat Transfer in Thermal Energy Storage
p.1693

Research on the Influence of Ocean Atmosphere to Infrared Detection
p.1698

Development Trends of Research on Monitoring Wear of Sliding Main Bearing for Diesel Engine
p.1702

A Study of Paddy Heating for Insect Elimination and Improving Milled Rice Quality
p.1707

Solving Seepage Problems in Soils using Element Free Galerkin Method
p.1717

Microstructure and Electrochemical Properties of La_0.35Ce_0.65Ni_3.8-XCo_0.8Mn_xAl_0.4 Hydrogen Storage Alloys
p.1729

Analysis on Evaluation Method of Macroeconomic Situation
p.1734

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 472-475Development Trends of Research on Monitoring Wear...

Development Trends of Research on Monitoring Wear of Sliding Main Bearing for Diesel Engine

Abstract:

This paper reviews the monitoring diagnostic methods for the sliding main engine bearing wear. Those methods by oil, temperature, vibration, strain and other surveillance means are in more engineering applications. Moreover, this paper expounds a kind of new diagnostic method for main bearing wear monitoring - the thermoelectric power monitoring method.

You might also be interested in these eBooks

Advanced Manufacturing Technology, ICMSE 2012

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 472-475)

Pages:

1702-1706

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.472-475.1702

Citation:

Cite this paper

Online since:

February 2012

Authors:

Jun Zhu, Jian Guo Yang

Keywords:

Diesel Engine, Main Bearing, Wear

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Zhi hua Liu, Hong Liu. TBM main bearing fault diagnosis of lubricating oil sample analysis [J]. Construction mechanization. 2008.6:64-65.

Google Scholar

[2] Qiong wei LI. New oil on-line monitoring technology [J]. Measurement and Control Technology, 2005, 24 (04) :6-10.

Google Scholar

[3] Li sen Yin. Bearing temperature control system [J]. Vehicle engine, 1987 (05) :7-8.

Google Scholar

[4] Kongsberg Engine Monitoring Systems. www.km.kongsberg.com/ks/web/nokbg0240.nsf/AllWeb/9FF78B87F1DBD783C125755F00469556? OpenDocument.

Google Scholar

[5] Yi huai Hu, Yi chen Zhou. Diesel engine vibration fault diagnosis of sliding bearings of the main study [J]. Diesel .1997 (04) :30-35.

Google Scholar

[6] Shitao Xiong. Diesel engine main bearing wear and theoretical analysis [J]. Journal of the internal combustion engine. 2002,20 (06) :569-574.

Google Scholar

[7] Xiaowu Wang, Jianguo Yang. The use of vibration monitoring and diagnostic parameters of the main engine bearing wear sliding state of research [J] . Diesel Engine. 2000:29-33.

Google Scholar

[8] Jinyu Li, Dewu Song. The use of diesel engine fault diagnosis system for the main bearing instrument accurately determine the failure of W [J] . Rolling stock workers, 2004, 7 (07) :8-10.

Google Scholar

[9] Yonghua Yu, Jianguo Yang, Xinping Yan, etc. Sliding the main engine bearing wear monitoring of strain method [J]. Journal of the internal combustion engine. 2002,20 (03) :252-256.

Google Scholar

[10] Sybille Schaller. BeCOMS Bearing Condition Online Monitoring System. Minutes of Meeting of CIMAC WG 18 - ERS Engine Room Safety 4th Meeting at Wartsila Italia.2008,10.

Google Scholar

[11] Feng Ouyang. Thermocouple contact potential mechanism of Analysis [J]. Automation Instrumentation, 1991 (04) :15-17.

Google Scholar

[12] Shizhu Wen. Tribology theory [M]. Beijing: Tsinghua University Press .1990.1-2.

Google Scholar