Smart Maintenance: getting a grip on maintenance processes

For the big players – companies like VDL, ASML, Philips, Vanderlande – smart maintenance is now fully part of the business processes. By already taking into account the later maintenance process in the design phase of a system, they ensure that their products are not only designed for quality but are also reliable in their use. This is certainly not the case for all smaller companies: according to PWC calculations, no less than 89% of companies do not take predictive maintenance sufficiently into account. If they did, these companies could increase their returns by tens of percent annually, McKinsey has calculated. And maintenance also provides a lot of employment: the maintenance market in the Netherlandsalready has a value of over thirty billion, or more than 4% of the gross domestic product, with employment for approximately 300,000 people.

Essential to this is the use of key technologies such as data science and artificial intelligence. With these, even smaller companies can make the step to predictive maintenance faster and thus become more sustainable, safer, and internationally competitive, says Roland Grimm, Program Manager Maintenance & Services at the Brabant Development Agency (BOM). “The way we build things is as smart as it can get; maintenance is often more of a challenge. How can we make the maintenance of machines, planes, wind turbines, and factories future-proof and thus strengthen the industry’s sustainability and international competitiveness? That is what ‘Smart Maintenance’ is all about: it ensures that the innovative strength of Brabant will also be an international success in the future.”

That these are not empty words is also confirmed by Michael Pecht, founder and director of the Center for Advanced Life Cycle Engineering (CALCE), and professor at the University of Maryland. “Problem around the world is that many companies, especially in the tech corner, are already satisfied when their products leave the factory ‘clean.’ Quality is just a snapshot; reliability creates a structural value.” Pecht says data science is an indispensable part of smart maintenance, for example, to determine the time-to-failure and remaining life of a product, but also to predict the moment when specific maintenance actions are needed. “Data science helps us gain knowledge when we are still testing. By reading data as early as during testing, we can see what is actually happening in the electronics. Data science can see things that a human can’t see.”

It’s not just about testing, however. Thanks to sensors and “digital twins” (a digital copy of a product that can accurately track its twin’s real-life life journey), usage information can remain visible continuously. “In fact, the product can monitor itself and in some cases, potential disasters can be mitigated or prevented in this way. You can imagine that this way of working could be crucial for the medical or aviation industries.”

Working together, better

These are exactly the industries within which Brabant also wants to play a bigger role with smart maintenance. To do so, Grimm says, it is essential that, in addition to focusing on key technologies, companies in the value chain work together even better. “In Brabant, we can connect the strengths, by making cross-sectoral connections between the high-tech manufacturing industry and the maintenance industry, for example around the aircraft maintenance industry in West Brabant. That offers opportunities to make innovations fundamentally circular, maintenance-friendly and recyclable.”

John den Ridder, Program Manager Hightech Maintenance at REWIN, sees West Brabant as a key player in the Smart Maintenance ecosystem, “with a link to Zeeland, central Brabant, Rotterdam, and Antwerp.” The focus is on sectors such as aerospace, maritime, and the industries around food, chemicals, and mechanical engineering. “There are many companies that understand the importance of smart maintenance, but at the same time we have to conclude that there is still a lot of work to be done.” Den Ridder is committed to cooperation between educational institutions, companies, and the government in order to build a future-proof maintenance sector. “Together with the business community, municipalities, Curio and Avans University of Applied Sciences, for example, we are working on robotization and digitization. Partly thanks to European funding, we can set up hubs where we can bring together companies and knowledge institutions to inspire others to give smart maintenance the attention it deserves. This is especially essential for the somewhat smaller companies.”