Portale della Didattica

Fundamentals of fluid film lubrication: models and applications

02TBARO

A.A. 2022/23

Course Language

Inglese

Degree programme(s)

Doctorate Research in Ingegneria Meccanica - Torino

Course structure

Teaching	Hours
Lezioni	15

Lecturers

Teacher	Status	SSD	h.Les	h.Ex	h.Lab	h.Tut	Years teaching
Colombo Federico	Professore Associato	IIND-02/A	15	0	0	0	3

Co-lectures

Espandi

Context

SSD	CFU	Activities	Area context
* N/A *

Date d'appello

Orario delle lezioni

Statistiche superamento esami

Presentazione
Course description

Il corso intende fornire agli studenti le basi della lubrificazione con fluidi incomprimibili. Le lezioni saranno volte non solo a presentare le equazioni di base, ma anche a fornire una spiegazione fisica di tali equazioni. Verr� anche affrontata la trattazione numerica per la soluzione sia di problemi stazionari che transitori tramite lo strumento Matlab.

The course is intended to furnish to students the basis of theory of fluid film lubrication for incompressible fluids. It will involve both theoretical explanations with simple exercises to apply the basic formulas, and also examples of numerical solutions with Matlab software.

Prerequisiti
Pre-requirements

Corso di Meccanica Applicata

Applied Mechanics

Programma
Course topics

Introduzione Regimi di lubrificazione Propriet� fisiche lubrificanti Equazione di Reynolds 1D, soluzione analitica e numerica Equazione di Reynolds 2D, soluzione numerica Problema stazionario e transitorio Identificazione coefficienti di rigidezza e smorzamento cuscinetti rotativi Analisi della stabilit� Applicazioni industriali

Introduction Lubrication regimes Fluid properties( Newtonian fluids, pressure/temperature effect on viscosity) Monodimensional Reynolds equation, examples and exercises Numerical solution Bidimensional Reynolds equation, examples and exercises Numerical solutions for steady and transient problems Perturbation method for dynamic identification of the bearing coefficients Industrial applications (axial thrust bearings, journal bearings, tilting pad bearings, squeeze film dampers) The course will be in English.

Tipo di erogazione
Tipo di erogazione

In presenza

On site

Modalit� d'esame
Modalit� d'esame

Presentazione report scritto

Written report presentation

Periodo Didattico
Periodo Didattico

P.D.2-2 - Aprile

P.D.2-2 - April

Informazioni aggiuntive
Additional information

Lesson 1 � Introduction, lubrication regimes, lubricant properties � Derivation of Reynolds equation Lesson 2 � Physical meaning of terms of Reynolds equation � 1D taper slider and thermal considerations � Proposed exercise in Matlab: o plot pressure distribution, flow rate, load capacity and shear stress o design the 1D taper slider with thermal effect Lesson 3 � Kinematics of journal bearing and fluid film forces � Short JB model with � film cavitation model � Proposed exercise in Matlab: o analysis of steady state motion, pure radial squeeze motion and pure tangential squeeze motion Lesson 4 � Stiffness and damping coefficients for the short JB � Proposed exercise in Matlab: t.b.d. Lesson 5 � Stability analysis � Imbalance response � Proposed exercise in Matlab: t.b.d. Students will be asked to prepare a short report on the proposed Matlab exercises. The credits will be assigned after an oral discussion on the report. A minimum of 3 presences is requested to obtain credits.