Tribological Analysis and Design of a Modern Automobile Cam and Follower (Engineering Research)
Guangrui Zhu/ Chris M Taylor
ISBN 10: 1860582036 ISBN 13: 9781860582035
Published by John Wiley & Sons Inc, 2001
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About this Item
Description:
1st edition. 154 pages. 12.00x8.50x1.00 inches. In Stock. Seller Inventory # __1860582036
Synopsis:
An Engineering Research Series title.
This excellent and long awaited book is based upon extensive research carried out by the Institute of Tribology at the University of Leeds in the UK and the Ford Motor Company Ltd. It is concerned with both the theoretical and experimental study of the tribological performance of an automobile valve train, having an offset taper cam and a domed follower, incorporated with an hydraulic lash adjuster, with particular reference to the ZETA engine valve train.
A sophisticated theoretical model has been developed that predicts the tribological performance of the valve train, and also provides a useful tool for the consideration of the tribological design of valve trains. Additionally the model can estimate the instantaneous and average rotational frequency of the follower, and the performance of the hydraulic lash adjuster.
In order to validate the theoretical model, the experimental measurements have been correlated with the theoretical predictions that simulate the test conditions of the valve train. The agreement between the measurements and the predictions show that the model is very reliable. This gives readers great confidence in using the model when dealing with novel and alternative designs of the valve train.
COMPLETE CONTENTS:
- Part One – Theoretical Formulation. Kinematics and dynamics of the cam and follower
- Hydraulic lash adjuster
- The maximum hertzian stresses
- Asperity interactions
- The oil film thickness
- Friction and power loss of the valve train
- The rotation of the follower
- The overall solution procedure and input/output data
- An example of the tribological analysis of a valve train.
- Part Two – Experimental Study. Test apparatus and the instrumentation
- Calibration of the instrumentation and commissioning tests
- Test procedure
- Data processing
- Experimental results and discussions
- Part Three – Correlation of theory and experiments. Experimental evidences
- Theoretical predictions
- Comparison of results and discussions
- Overall conclusions.
About the Author:
Dr. Guangrui Zhu gained his PhD on engine valve train tribology at the University of Leeds, UK in 1988. He has worked in an industry-based R&D environment since then. He has published numerous journal and conference papers on journal bearings, trust bearings, mechanical seals, and valve trains.
Professor Chris Taylor has researched in the area of lubrication for over 30 years, with engine tribology being a major theme in recent times.
"About this title" may belong to another edition of this title.
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Title: Tribological Analysis and Design of a Modern...
Publisher: John Wiley & Sons Inc
Publication Date: 2001
Binding: Hardcover
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Tribological Analysis and Design of a Modern Automobile Cam and Follower (Hardcover)
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ISBN 10: 1860582036
ISBN 13: 9781860582035
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Hardcover. Condition: new. Hardcover. An Engineering Research Series title. This excellent and long awaited book is based upon extensive research carried out by the Institute of Tribology at the University of Leeds in the UK and the Ford Motor Company Ltd. It is concerned with both the theoretical and experimental study of the tribological performance of an automobile valve train, having an offset taper cam and a domed follower, incorporated with an hydraulic lash adjuster, with particular reference to the ZETA engine valve train. A sophisticated theoretical model has been developed that predicts the tribological performance of the valve train, and also provides a useful tool for the consideration of the tribological design of valve trains. Additionally the model can estimate the instantaneous and average rotational frequency of the follower, and the performance of the hydraulic lash adjuster. In order to validate the theoretical model, the experimental measurements have been correlated with the theoretical predictions that simulate the test conditions of the valve train. The agreement between the measurements and the predictions show that the model is very reliable. This gives readers great confidence in using the model when dealing with novel and alternative designs of the valve train. COMPLETE CONTENTS: Part One Theoretical Formulation. Kinematics and dynamics of the cam and followerHydraulic lash adjusterThe maximum hertzian stressesAsperity interactionsThe oil film thicknessFriction and power loss of the valve trainThe rotation of the followerThe overall solution procedure and input/output dataAn example of the tribological analysis of a valve train.Part Two Experimental Study. Test apparatus and the instrumentationCalibration of the instrumentation and commissioning testsTest procedureData processingExperimental results and discussionsPart Three Correlation of theory and experiments. Experimental evidencesTheoretical predictionsComparison of results and discussionsOverall conclusions. Concerned with both the theoretical and experimental study of the tribological performance of an automobile valve train, this work is based upon the research carried out by the Institute of Tribology at the University of Leeds in the UK and the Ford Motor Company Ltd. It is a tool for the consideration of the tribological design of valve trains. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. Seller Inventory # 9781860582035
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Tribological Analysis and Design of a Modern Automobile Cam and Follower (Hardcover)
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ISBN 10: 1860582036
ISBN 13: 9781860582035
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Hardcover. Condition: new. Hardcover. An Engineering Research Series title. This excellent and long awaited book is based upon extensive research carried out by the Institute of Tribology at the University of Leeds in the UK and the Ford Motor Company Ltd. It is concerned with both the theoretical and experimental study of the tribological performance of an automobile valve train, having an offset taper cam and a domed follower, incorporated with an hydraulic lash adjuster, with particular reference to the ZETA engine valve train. A sophisticated theoretical model has been developed that predicts the tribological performance of the valve train, and also provides a useful tool for the consideration of the tribological design of valve trains. Additionally the model can estimate the instantaneous and average rotational frequency of the follower, and the performance of the hydraulic lash adjuster. In order to validate the theoretical model, the experimental measurements have been correlated with the theoretical predictions that simulate the test conditions of the valve train. The agreement between the measurements and the predictions show that the model is very reliable. This gives readers great confidence in using the model when dealing with novel and alternative designs of the valve train. COMPLETE CONTENTS: Part One Theoretical Formulation. Kinematics and dynamics of the cam and followerHydraulic lash adjusterThe maximum hertzian stressesAsperity interactionsThe oil film thicknessFriction and power loss of the valve trainThe rotation of the followerThe overall solution procedure and input/output dataAn example of the tribological analysis of a valve train.Part Two Experimental Study. Test apparatus and the instrumentationCalibration of the instrumentation and commissioning testsTest procedureData processingExperimental results and discussionsPart Three Correlation of theory and experiments. Experimental evidencesTheoretical predictionsComparison of results and discussionsOverall conclusions. Concerned with both the theoretical and experimental study of the tribological performance of an automobile valve train, this work is based upon the research carried out by the Institute of Tribology at the University of Leeds in the UK and the Ford Motor Company Ltd. It is a tool for the consideration of the tribological design of valve trains. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability. Seller Inventory # 9781860582035
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