Preventive maintenance - Methods and technologies

Add to my library

MT9571 V2 Article

Preventive maintenance - Methods and technologies

Author : Gilles ZWINGELSTEIN

Publication date: April 10, 2026 | Lire en français

Add to my library Add to my library

Logo Techniques de l'Ingenieur You do not have access to this resource.
Request your free trial access! Free trial

Already subscribed?

Overview

ABSTRACT

This article presents the fundamentals of preventive maintenance, whose objective is to prevent the occurrence of failures. It provides a typology of the different forms of preventive maintenance, along with the associated tasks and activities. It traces the evolution of these practices from the 1950s to the paradigms of Industry 4.0 and 5.0. The article also details the classification of available techniques and technologies, the processing of information, and the criteria for selecting methods to define maintenance intervals. Finally, it presents the new principles of predictive maintenance based on RUL within the context of Industry 4.0 and 5.0.

Read this article from a comprehensive knowledge base, updated and supplemented with articles reviewed by scientific committees.

Read the article

AUTHOR

  • Gilles ZWINGELSTEIN : Engineer from the École nationale supérieure d'électrotechnique, d'électronique, d'informatique et d'hydraulique et des télécommunications de Toulouse (ENSEEIHT); Doctor of Engineering; Doctor of Science; retired associate professor, Université Paris-Est Créteil, France

 INTRODUCTION

This article presents the objectives of preventive maintenance within the framework of maintenance management, the applicable standards, as well as the methods, technologies, and procedures for implementing maintenance programs. It also describes the developments and improvements brought about in preventive maintenance by Industry 4.0 and 5.0 concepts, particularly through the widespread use of artificial intelligence.

The first section describes the challenges of preventive maintenance in accordance with the EN NF 13306 and IEC 60050-192 standards. The characteristic parameters of the degradation curve leading to failure are then described in detail, as they are used to establish an equipment monitoring policy. To this end, the concepts of potential failure, P-F intervals, and “net P-F interval” are introduced.

The second section summarizes the key definitions related to maintenance and clarifies the role of preventive maintenance. In accordance with current standards, hierarchical classifications of maintenance types and activities are also provided in accordance with the EN NF 13306 standard.

The third section provides a chronological overview of the evolution of preventive maintenance from 1950 to 2025. It details the major milestones from the 1950s—when preventive maintenance was primarily planned and manual—through to the connected and intelligent approaches of Industry 5.0. This section describes, in sequence: the beginnings of scheduled maintenance in the 1950s and 1960s; the emergence of the first sensors and condition-based maintenance in the 1970s and 1980s; the rise of computerization and CMMS in the 1990s and 2000s; the advent of Industry 4.0 with the Internet of Things (IoT), Big Data, and AI in the 2010s; and finally, the era of Industry 5.0, characterized by human-machine collaboration, digital twins, and resilient industrial environments. It also includes statistics on trends in maintenance types by company size between 2000 and 2025.

The fourth section provides a detailed classification of the methods used in preventive maintenance. It distinguishes between: non-destructive surface testing (visual inspection, penetrant testing, magnetic particle testing); volumetric testing (ultrasonic testing, radiography, eddy current testing, thermography, etc.); and complementary techniques, such as lubricant analysis, vibration analysis, and electrical monitoring.

The fifth section addresses the processing of information obtained from monitoring and inspections. It explains how the collected data (vibrations, temperatures, images, sounds) are analyzed to identify defects and assess the condition of equipment. It details the three key steps in the decision-making process: detection of...

You do not have access to this resource.
Logo Techniques de l'Ingenieur

Exclusive to subscribers. 97% yet to be discovered!

You do not have access to this resource. Click here to request your free trial access!

Already subscribed?


KEYWORDS

maintenance   |   methodologies   |   prediction   |   failure

Ongoing reading
Preventive maintenance - Methods and technologies

Article included in this offer

"Maintenance"

( 78 articles )

Complete knowledge base

Updated and enriched with articles validated by our scientific committees

Services

A set of exclusive tools to complement the resources

View offer details

Contenus associés

Sur le même sujet

Veille personnalisée : Inscrivez-vous !

Dans les ressources documentaires

La maintenance prédictive-prévisionnelle-intelligente pour l’industrie 4.0

Cet article présente les concepts de la maintenance prédictive intelligente pour l’industrie 4.0, dont l'...

La sûreté de fonctionnement : méthodes pour maîtriser les risques

La sûreté de fonctionnement, déclinée maintenant dans tous les secteurs, englobe un grand nombre de métho...

Sûreté de fonctionnement - Analyse et bases de données de fiabilité

Cet article présente les étapes de la réalisation d’une étude de sûreté de fonctionnement des systèm...

Sûreté de fonctionnement des systèmes de commande - Principes et méthodes

Les systèmes de commande jouent un rôle majeur dans le pilotage des systèmes technologiques modernes. Ils...

WhitePaper Entreprises et énergie
26 August 2016
Entreprises et énergie

Décryptage des contraintes et des opportunités découlant de l\'audit énergétique.

Tous les livres blancs
Toutes les actualités
Contact us