An Experimental and Analytical Investigation of the Dynamic Response of a High-Speed Cam-Follower System. Part 2: A Combined, Lumped/Distributed Parameter Dynamic Model

A. P. Pisano; F. Freudenstein

Source: Journal of Mechanical Design:;1983:;volume( 105 ):;issue: 004::page 699

Author:

A. P. Pisano

F. Freudenstein

DOI: 10.1115/1.3258539

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Part 2 describes the development of a dynamic model of a high-speed cam-follower system in which the return spring is modeled as a distributed-parameter element. The dynamic response requires the solution of a coupled set of differential equations, one ordinary and one partial. The dynamic model has the unique capability of faithfully reproducing the effect of the higher harmonics of the cam lift curve on system performance. The model, which has been refined and verified with the aid of the results described in Part 1, is capable of accurately predicting both normal system response as well as pathological behavior associated with the onset of toss, bounce, and spring surge. In comparison, a lumped-parameter dynamic model (differing only in the modeling of the valve spring) does not adequately predict the onset of pathological behavior.

keyword(s): Dynamic response , Dynamic models , Springs , Surges , Differential equations , Modeling AND Valves ,

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An Experimental and Analytical Investigation of the Dynamic Response of a High-Speed Cam-Follower System. Part 2: A Combined, Lumped/Distributed Parameter Dynamic Model

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contributor author	A. P. Pisano
contributor author	F. Freudenstein
date accessioned	2017-05-08T23:16:00Z
date available	2017-05-08T23:16:00Z
date copyright	December, 1983
date issued	1983
identifier issn	1050-0472
identifier other	JMDEDB-28036#699_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/97376
description abstract	Part 2 describes the development of a dynamic model of a high-speed cam-follower system in which the return spring is modeled as a distributed-parameter element. The dynamic response requires the solution of a coupled set of differential equations, one ordinary and one partial. The dynamic model has the unique capability of faithfully reproducing the effect of the higher harmonics of the cam lift curve on system performance. The model, which has been refined and verified with the aid of the results described in Part 1, is capable of accurately predicting both normal system response as well as pathological behavior associated with the onset of toss, bounce, and spring surge. In comparison, a lumped-parameter dynamic model (differing only in the modeling of the valve spring) does not adequately predict the onset of pathological behavior.
publisher	The American Society of Mechanical Engineers (ASME)
title	An Experimental and Analytical Investigation of the Dynamic Response of a High-Speed Cam-Follower System. Part 2: A Combined, Lumped/Distributed Parameter Dynamic Model
type	Journal Paper
journal volume	105
journal issue	4
journal title	Journal of Mechanical Design
identifier doi	10.1115/1.3258539
journal fristpage	699
journal lastpage	704
identifier eissn	1528-9001
keywords	Dynamic response
keywords	Dynamic models
keywords	Springs
keywords	Surges
keywords	Differential equations
keywords	Modeling AND Valves
tree	Journal of Mechanical Design:;1983:;volume( 105 ):;issue: 004
contenttype	Fulltext

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