1.

Record Nr.

UNINA9910811176903321

Autore

Lad Bhupesh K.

Titolo

Machine tool reliability / / Bhupesh K. Lad, Divya Shrivastava and Makarand S. Kulkarni

Pubbl/distr/stampa

Hoboken, New Jersey ; ; Salem, Massachusetts : , : Scrivener Publishing : , : Wiley, , 2016

©2016

ISBN

1-5231-1088-0

9781119038955

1-119-03894-4

Descrizione fisica

1 online resource (328 p.)

Collana

Performability Engineering Series

Disciplina

621.902

Soggetti

Machine-tools - Reliability

Machine-tools - Maintenance and repair

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Description based upon print version of record.

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

Cover ; Title Page; Copyright Page; Contents; Preface; 1 Introduction; 1.1 Basic Reliability Terms and Concepts; 1.2 Machine Tool Failure; 1.3 Machine Tool Reliability: Manufacturer's View Point; 1.4 Machine Tool Reliability: User's View Point; 1.5 Organization of the Book; 2 Basic Reliability Mathematics; 2.1 Functions Describing Lifetime as a Random Variable; 2.2 Probability Distributions Used in Reliability Engineering; 2.2.1 Exponential Distribution; 2.2.2 Weibull Distribution; 2.2.3 Normal Distribution; 2.2.4 Lognormal Distribution; 2.3 Life Data Analysis; 2.3.1 Empirical Methods

2.3.2 Unbiased Estimation of Parameters2.4 Stochastic Models for Repairable Systems; 2.5 Simulation Approach for Reliability Engineering; 2.6 Use of Bayesian Methods in Reliability Engineering; 2.7 Closing Remarks; 3 Machine Tool Performance Measures; 3.1 Identifying Performance Measures; 3.2 Mechanism to Link Users' Operational Measures with Machine Reliability and Maintenance Parameters1; 3.2.1 Availability Model1; 3.2.2 Performance Rate Model; 3.2.3 Quality Rate Model; 3.2.4 Overall Equipment Effectiveness Model; 3.2.5 Life Cycle Cost (LCC) Model; 3.2.6 Cost per Piece (CPP) Model


3.3 Closing Remarks4 Expert Judgement-Based Parameter Estimation Method for Machine Tool Reliability Analysis; 4.1 Expert Judgement as an Alternative Source of Data in Reliability Studies; 4.2 Expert Judgement-Based Parameter Estimation Methods; 4.2.1 Non-Repairable Component; 4.2.2 Repairable Assembly; 4.3 Some Desirable Properties of a "Good" Estimator; 4.4 Closing Remarks; 5 Machine Tool Maintenance Scenarios, Models and Optimization; 5.1 Overview of Maintenance; 5.1.1 Maintenance Models; 5.1.2 Maintenance Optimization Techniques; 5.2 Machine Tool Maintenance

5.3 Machine Tool Maintenance Scenarios5.4 Preventive Maintenance Optimization Models for Different Maintenance Scenarios; 5.4.1 Preventive Maintenance Optimization in Maintenance Scenario 1 (MSc 1) (Replacement Model); 5.4.2 Preventive Maintenance Optimization in Maintenance Scenario 2 (MSc 2) (Repair-Replacement Model); 5.4.3 Preventive Maintenance Optimization in Maintenance Scenario 3 (MSc 3) (Overhauling Model); 5.5 Closing Remarks; 6 Reliability and Maintenance Based Design of Machine Tools; 6.1 Optimal Reliability Design; 6.2 Optimal Reliability Design of Machine Tools

6.2.1 Machine Tool Functional Design Scenarios6.2.1.1 Special Purpose Machine Tool Design; 6.2.1.2 General Purpose Machine Tool Design; 6.2.1.3 Customized Machine Tool Design; 6.2.2 Simultaneous Optimization of Reliability and Maintenance under Three Functional Design Scenarios; 6.2.2.1 Simultaneous Optimization for Special Purpose Machine Tool; 6.2.2.2 Simultaneous Optimization for General Purpose Machine Tool Design Scenario; 6.2.2.3 Simultaneous Optimization for Customized Machine Tool Design; 6.3 Failure Mode and Effects Analysis; 6.3.1 Cost-Based FMEA Approach; 6.4 Closing Remarks

7 Machine Tool Maintenance and Process Quality Control