Strategising for the circular economy through servitisation

2.1 Servitisation actors and processes for circular business models

Servitisation is a business strategy that aids the circular ambitions of industrial firms by providing novel solutions, orientated around environmental performance as the core value proposition, in addition to other financial and customer benefits. This requires industrial firms to consider their core products and how complementary services can be offered to reverse resource flows (Spring and Araujo, 2017).

Raddats et al. (2019) provide a model that helps elaborate on why, how and what services are offered, as well as by whom from a strategic perspective that can be applied to circular servitisation strategies. Drawing on prior work (Cusumano et al., 2015), Raddats et al. describe the different intentions behind service offerings as helping product sales (e.g. financing, insurance, repair or technical support), expanding product functionality or substituting the product (e.g. data processing services). These services can be base (e.g. product-equipment provisions), intermediary (e.g. maintenance and technical help) or advanced (e.g. assurance, agreements and warranties) (Baines et al., 2013).

Meanwhile, service strategies elaborate on how services are offered within firms (Raddats et al., 2019). These include the structural decisions around, for example, having integrated or separated service and production divisions (Oliva et al., 2012), as well as the resources and capabilities needed to develop, offer and deliver base, intermediary and advanced services (see also Gremyr et al., 2014) in-house or in collaboration. As Gebauer (2008) illustrates, the configuration of service strategies offered by industrial companies can range from after sales services based on cost leadership and product functionality, to service differentiation based on value through customer support or cost leadership by outsourcing service provision. Service strategies may also include research and developmental services with partners (ibid.).

A characteristic feature of these important works on service strategies, is their focus on financial and customer value based on a traditional business logic. However, this fails to incorporate the environmental aspect of value pertinent to circular principles and the reverse resource flows that entails for industrial companies (Spring and Araujo, 2017). That being said, the extant emphasis on product functionality, quality issues, service developments and differentiation are also important for circular service offerings, and may well be achieved through offering intermediary and advanced services that focus on slowing, closing or narrowing resource loops.

The connections between servitisation and circularity are also evident in studies on service networks as orchestrated by focal manufacturing firms. As an example, Gebauer et al. (2013) draw on the interactions between upstream-downstream actors to characterise the service networks of manufacturing organisations. Both the vertical life-cycle network and horizontal service integration networks proposed by Gebauer et al. assert the importance of a focal firm in designing, manufacturing and maintaining equipment through the life cycle of a product. This is achieved by offering services for the equipment produced by the firm and includes the participation of upstream suppliers and downstream customers to achieve such strategies, whereby the focal firm is the orchestrator of interactions to provide specific service solutions (see Möller et al., 2005) [2]. Although the focus here is on the longevity of industrial products, such life cycle approaches to service networks can easily be related to circular principles; that is, to “repair, reuse, remanufacture, refurbish and recycle” industrial products (Geissdoerfer et al., 2017).

In summary of this strategic perspective on servitisation and related to the context of circularity, two analytical areas can be discerned as important:

1. The managerial strategies implemented and their structural effects (i.e. decisions related to, in this case, circular service provision and offerings – the why, how and what services are offered); and,

2. The firm’s capabilities and availability of resources to meet these strategic aims in collaboration with the customers buying those very services (i.e. decisions related to resources in terms of what more is needed to ensure the success of such circular service offerings and by whom?).

It is these two areas that the following sub-sections are centred on.

2.2 Managerial strategies for circular business models

Bocken and Ritala (2021) provide a typology of the different strategic choices that managers make when implementing or, in this case, transitioning towards circular business models. While the innovation strategy regards “the extent to which circularity is achieved with internal or external stakeholders”, the resource strategy regards “how companies achieve circularity by narrowing, slowing or closing resource loops” (ibid., p. 184). An understanding of these intra-organisational dimensions and their connection to one another is therefore important for knowing more about how industrial organisations implement servitisation for circularity.

Service models can be introduced for the various resource strategies proposed by Bocken and Ritala (2021, p. 185):

For example, a product may be produced using cleaner production processes (narrowing the loop), using recycled materials (closing the loop) and in a way that the product is durable and that services allow for a long product lifetime (slowing the loop).

Meanwhile, innovation strategies distinguish between closed and open innovation (see Chesbrough and Appleyard, 2007). Closed innovation regards organising circularity within the firm’s boundaries through, for example, initiatives that encourage customers to close the loop by returning used products to be remanufactured in-house, which is beneficial to retain control and monitor resources (Bocken and Ritala, 2021). Open innovation, on the other hand, uses external parties to achieve circularity. Some examples include firms working together to combine industrial waste into new products or partnering with distributors to resell customer products (ibid.). Combining these resource and innovation strategies, leads to various archetype strategies for circular business models with different value logics, many of which include service offerings.

2.3 Resources and capabilities for circular business models

An internal qualification of the resources and capabilities needed to develop and deliver circular service offerings in relation to product biographies is also important for industrial firms (Spring and Araujo, 2017). According to the dynamic capabilities view (DCV), competitive advantage is not only the result of the resources themselves, but also the firm’s competencies: “[d]ynamic capabilities enable business enterprises to create, deploy, and protect the intangible assets that support superior long – run business performance” (Teece, 2007, p. 1319). This asserts that competitive advantage can be achieved through sensing, seizing and transforming capabilities, in this case, for circular transitions.

Amui et al. (2017) propose the DCV as important for elaborating on complex issues such as sustainability given that the capability of sensing regards the ability to identify new business opportunities. When related to the work of Raddats et al. (2019) and Cusumano et al. (2015), this would imply that sensing relates to why and what services are offered, and seizing regards taking up the opportunities identified through new service offerings. For circularity, this would mean the operational aspects put in place to meet circular strategic ambitions, for example, through the development of new services (Khan et al., 2020). Meanwhile, reconfiguration regards the ability of the organisation to reconfigure its structures and resources in response to market and technological changes. For circularity, knowledge integration and redevelopment are vital for reconfiguration capabilities (Khan et al., 2021). Wade et al. (2022) even suggest that firms must have “strong capabilities in experimentation” for circular solutions. Based on the DCV, therefore, the strategic choices made by an industrial organisation in terms of its service offerings for circularity require the focal firm to sense its market and wider institutional concerns regarding particularly, ecological value (see Palakshappa et al., 2023). Meanwhile, the seizing and reconfiguring capabilities regard the (re)organisation of resources and capabilities based on closed or open innovation strategies to achieve this.

Figure 1 summarises the prior discussion into an analytical model that frames this research. This is intended to help elaborate on how industrial organisations implement servitisation to support their circular ambitions. Categorising the findings around the strategic choices made and how these are realised in practice within firms is important given that extant research emphasises macro-level approaches focused on circular ecosystems (Merli et al., 2018; Aarikka-Stenroos et al., 2021; Kanda et al., 2021). Meanwhile, the analytical model takes the internal strategic servitisation decisions made by an industrial firm for circular transitions as its point of departure; that is, even if these strategic decisions are contingent on the involvement of various upstream and downstream actors (illustrated in the feedback loops) as part of a wider (industrial) network [3].

3.1 Case background

The case organisation selected is an international manufacturer of heavy equipment for mining and construction customers, hereafter referred to as Company X. Company X has an extensive product portfolio of high-quality and highly customised industrial machines that are designed to last. This contributes to customer lock in as customers buy the services offered to improve the productivity and longevity of their machines.

Although headquartered in Europe, Company X has a huge international presence, with production sites and customers in over 150 countries, and has few direct competitors for its machines [5]. It functions somewhat as a decentralised company, with several global divisions. While two of the divisions relate to the types of products sold, the remaining three focus on the aftermarket, namely: aftermarket services [see Oliva et al., 2012]), attachments and digital solutions. This structure was a recent development (2020) and the reason behind it was to organise the company in a way that relates to its core revenue-generating streams. Within each division, responsibilities are further divided into regions. While some departments such as marketing and R&D are specific for each division, others such as HR or IT serve support functions for the group.

Company X’s strategy is influenced by institutional pressures to become more sustainable, such as the European Union’s incoming Corporate Sustainability Reporting Directive (CSRD) (2022 / 2464/EU) and associated reporting standards that assert the need for applicable firms to reduce and report Scope 3 emissions (i.e. the emissions from the machines sold to customers). This has implications for not only the types of machines sold but also the types of services offered to reduce emissions (e.g. replacing diesel machines with electric ones) [6]. The company also has a vision, as communicated in visionary video footage by its CEO, for complete circularity by 2030. This means that like many other industrial companies, Company X is transitioning from its linear past to incorporate circular elements more explicitly into its strategy.

While servitisation has been adopted since 2012 to provide customers with solutions for maintaining the longevity of their machines, the circular elements of Company X’s service portfolio have increasingly come into focus (e.g. midlife and remanufacturing), and additional services have been introduced to support circular ambitions (e.g. electrification that incorporates batteries and chargers as services). These services are part of a wider portfolio that includes other services (e.g. training and automation services) which support social sustainability ambitions such as workplace health and safety. Overall, such factors make Company X a good case to explore the role of servitisation on circularity in terms of the internal strategic choices made to achieve such circular service offerings.

Of particular importance to circular service provision in Company X is the aftermarket service division and the “sustainability department”. The aftermarket service division incorporates managers who make decisions regarding what services to offer and why. Meanwhile, the sustainability “department” is both divisional and cross divisional in that there are sustainability managers assigned to each division that report to the Board, as well as other (more senior) sustainability personnel that are assigned strategic roles in relation to, for example, electrification, meaning that they work across divisions. Service sales, however, are conducted within the cross-divisional service centres that are located around the world and closest to the customers. Personnel within the service centres have responsibilities that extend beyond service sales at the customer interface, to include the sales of capital equipment and attachments, among others. These responsibilities are sometimes undertaken by dealers affiliated to Company X in certain parts of the world.

3.2 Empirical data

Fifteen semi-structured interviews with people mainly working in the aftermarket (services and attachments divisions), but also within the support functions of IT and sustainability, form the main bulk of the primary data. Importantly, even though sustainability functions as its own department, various interviewees spoken to from the aftermarket also have distinct roles that constitute sustainability issues (e.g. electrification strategies that include batteries and chargers as services etc.).

Most interviews were arranged through a snowballing approach, and some were directed to by the primary company contact, the Process and Application manager. Where possible, interviews were conducted on site in Company X buildings and production sites. However, given the geographical scope of Company X and its distance work approach, many interviews were conducted online with Aftermarket managers across Europe, Africa and North America. This was beneficial as it allowed access to interviewees in geographically diverse places (characteristics of international manufacturing companies) that would otherwise not have been possible. Additionally, site visits to the local factory and the warranty and quality department, as well as internal video footage of the CEO’s strategic sustainability ambitions inform the empirics (see Table 1 below).

In addition to the interview transcripts, notes were taken during and after the site visits, and often referred to in later interviews to clarify points. The service portfolio (obtained directly from the primary contact) and annual sustainability reports constituted examples of secondary data that were drawn on to inform the backgrounding questions. Combined, both primary and secondary material provide a rich data set for the purpose of this study and its emphasis on servitisation as one firm-centric strategy that can aid an industrial firm’s transition to increasingly circular business models.

The initial interview guides were operationalised around understanding Company X’s servitisation strategy and its organisational structure (i.e. who were the main decision makers, how it planned to meet its service ambitions and connections to circular strategies etc.). These initial guides became increasingly theory informed over time as the links between servitisation and circularity came increasingly into focus. In this sense, both the analytical development of the servitisation for circularity framework and empirical data-gathering and analysis occurred concurrently, suggesting an overall abductive approach (see Alvesson and Sköldberg, 2017). Nevertheless, the main concepts in the analytical model were not explicitly addressed through the questions. Rather, a more inductive approach to coding in terms of the content of the responses was used and then connected to the “why”, “what” (more) and “how” questions of the analytical model (Figure 3). See Supplementary File A for examples of the questions asked.

3.3 Data analysis procedure

The data analysis procedure involved various stages of reiteration. The first stage regarded revisiting the interview transcripts and field notes and grouping interesting quotations or other data into preliminary codes. These preliminary codes were then broadly related to the analytical model and categorised under the “why and what services were offered” and the “how and by whom such service offerings were achieved” in practice. These categorisation terms were used to structure the findings section.

The second stage regarded elaborating on these quotations through a narrative description for the first categorisation. Information from corporate reports and the company website were also necessary here to know why certain strategic objectives were set. A narrative presentation of the findings (rather than further coding) was deemed sufficient as the reasons for engaging in circular service strategies and offerings were more descriptive or fact based (i.e. the “why”); i.e. relating to the “sensing” aspects of the analytical model.

For the second categorisation (i.e. the “how and by whom?”), the initial quotations and notes were merged into two sub-groupings after various rounds of iteration that connected to the seizing and reconfiguring aspects of the analytical model, namely: proactive service provision and preventative maintenance, and electrification infrastructure. The key findings from these groupings were then operationalised into a summary figure to illustrate the connections between the core capabilities and resources needed to meet them (i.e. Figure 2).

As a final step, the findings from both headings were summarised into the analytical model (Figure 3) on the “firm-level” strategic aspects of servitisation for circularity. Within this model, three key feedback loops became apparent regarding the actors and processes involved in circular service provision by Company X. These were then elaborated on and related to the wider (service) marketing literature and theory in the following discussion, particularly Bocken and Ritala’s (2021) earlier work on circular business model strategies (Figure 4).

4.1 Why and what services? Strategies for circular service offerings

As already mentioned, the official transition towards servitisation began in 2012 as Company X recognised the need to move away from providing products to providing solutions as a revenue-generating stream. The value of service provision for Company X is clear, with the aftermarket being more than 50% of its repeat business and customer experience is orientated around having safe, reliable, productive and sustainable products. Over time, such services have become increasingly marketed in terms of their circular effects:

Service matters because we start with selling a machine. But, this machine has a life. And, we need to make sure that this machine performs during its life and that’s a big part of our business. So, we make sure that the customer has a successful experience when using our products. And, then that is also how we gain more business. So, service really becomes more like circular, because we need to take care of the machine (S9).

Even though a roadmap for electrification was already established in 2011, the environmental value of service provision has come increasingly into focus as Company X transitions towards a (more) circular business model due to legislative and customer demands:

Over the last decade, the bigger focus is not so much on the price of a machine but looking at the total cost of ownership and the value of product, as we see an increased value of low carbon products (Sust2).

Out of the 12 core services currently offered in the growing service portfolio, electrification, midlife and remanufacturing are being pushed because of their importance to not only economic but particularly, environmental performance. As of 2023, there was an internal target to have 50% of the machines sold on such service agreements (S7).

To detail, services embraced under electrification include providing batteries and charging points as services whereby diesel machines are replaced with battery-powered ones. This has been an imperative strategy for Company X since 2011, partly because of the EU’s Battery Directive (2006/66/EC) and New Battery Regulation (2023/1542) as part of the European Green Deal [7]. Such institutional concerns recognise the importance of electrification infrastructures to reduce the reliance on fossil fuels yet are not without their own challenges, especially in terms of battery production as the Zero Emission manager notes (e.g. mining lithium for battery production and humanitarian concerns, especially in the Democratic Republic of Congo).

Focusing on service provision, however, Company X provides the batteries and charging infrastructures as services through leasing contracts with industrial customers, meaning that Company X “owns the asset [i.e. the battery] and the customer pays when they use it” (S9). This is marketed to the industrial customer as beneficial for having a low total cost of ownership and:

[…] serves circularity, because we keep the ownership of the battery when it’s time for replacement, we will replace it. We’ll take the old one back and make sure we have a plan for recycling or second life (Sust2).

It also ensures customer lock-in in terms of service provision with Company X. Currently, however, battery recycling is conducted in collaboration with an upstream partner as Company X does not have the internal resources or capabilities to do this internally.

Meanwhile, the midlife service involves component replacements, upgrades and/or technological additions to extend product life. This service has, over time, been increasingly marketed as circular, much like the remanufacturing service which is based on a core recycling programme, where parts are returned to be reused in further product designs and replaced with remanufactured alternatives. Additionally, service agreements and audits are sold as services to ensure the high productivity and reliability of the machines which can also support circular resource loops. These services are either sold at the same time as the machines or marketed via the service centres after commissioning. All services described aim for energy, materials and waste to be embedded within increasingly closed loops whereby Company X directly provides the circular service offerings to its customers, even if some services require partner organisations (e.g. recycling batteries).

While there are marketing campaigns each year with sections on the circular economy targeting Company X’s biggest mining customers, the service centres are nevertheless key for meeting KPIs related to the circular service agreement targets:

We need to be able to say to a customer, ‘okay, maybe this part is a little bit old, have you thought about midlife?' Or, 'this diesel machine is becoming outdated, how about we do a battery conversion?' (Sust1)

Providing the best service therefore requires “figuring out what services to provide, how to provide them and what kind of [service] portfolio can achieve that” (S4). This relies on getting data directly from the machines while in operation, as well as from customer interactions with service centre staff or through selling service agreements that include machine servicing at periodic intervals:

Getting data is a fantastic opportunity to know more. Imagine that we were only doing the capital equipment and not the service, right? You send out the machines and you don’t have a clue what happened, right? You need that feedback loop regarding what is not working and through this, you build the relationship with the customer (S5).

Knowing exactly how the machines are used (i.e. operational hours, peak usage etc.) and when they need to be serviced or components replaced is essential not only for customer satisfaction related to product longevity and performability, but also for R&D related to circular product innovations. It is also important for developing services that support social sustainability goals such as training and machine automation that relate to safe productivity. Company X’s service portfolio is currently operationalised in a way that makes it easier for customers to repair and replace components through modular system designs. One key part of this is moving away from reactive to preventative maintenance through getting information from the machines, customers and technicians. Another is through upselling services related to product maintenance and circular solutions, which are not only key for Company X’s circular ambitions but also important from a traditional business logic to increase customer lock in.

4.2 How and by whom? Capabilities and resources for circular services

Although the aftermarket service division is responsible for developing and providing services in connection with the product portfolio (i.e. the service portfolio) at the more strategic level of the organisation, the service centres are responsible for selling them.

At the group level, a cross-divisional Service Council of senior managers was established in 2022 to “track what is working [in the aftermarket], establish and share the best practices in the organisation and seek together how improvements can be made” (S8). It was seen as a way of “finding synergies and collaboration when it comes to service provision in a very divisionalised organisation” (S5). This collaboration involves discussions relating to circularity through its recently developed CE working group, which aims to connect the circular services offered in the aftermarket with other circular strategies and organisational divisions. Other working groups have been established in areas such as CRM data management and digital solutions, which are considered important for providing information that supports circular transitions. As of 2023, key individuals within the Council had been assigned responsibility for the working groups to bring actionable decisions to others in the Council.

Evidently, there are global (i.e. Service Council and aftermarket service division back office) and local (i.e. the service centres) dimensions when it comes to making service decisions and then providing those very services in terms of seizing opportunities and reconfiguring structures. Within both these strategic and operational levels, various capabilities and resources are important for the circular service provision.

4.3 Summary of findings

Figure 2 summarises and connects the key service provisions and resources required by Company X to provide (circular) services related to preventative maintenance and electrification. These provisions are dynamic in that Company X assesses and uses both its existing internal and external resources to provide and develop its circular service offerings through obtaining feedback (e.g. from machines, customers and its employees) that is translated into actionable insights. It also draws on industrial knowledge regarding how to innovate and/or provide circular services. All these resources are contingent on interactions with upstream and downstream actors, which is expressed in the model through “collaboration” as an overarching resource necessary to support circular transitions. This collaboration can draw on both closed and open innovation as illustrated as feedback loops in the summative “servitisation for circularity framework” (Figure 3) that are elaborated in the discussion that follows.

5.1 Resource and innovation strategies for circular service provisions

5.2 Challenges of a firm-centric view of servitisation for circularity

In this study, servitisation is posed as one strategy adopted to help industrial firms as they transition from linear business models to increasingly circular ones by offering services to keep materials and resources in closed loops, orchestrated by the focal firm. The entry and use of raw materials at the production phase and the emissions associated with providing services in Company X with its huge global reach are also circular issues that have not been covered. This means that the strategic focus on servitisation needs to be embedded within the wider context of circular business models for industrial firms as one of many strategic tools that are used in combination with one another (e.g. sustainability controls, product and process innovations, and GHG accounting, among others) for circular business models and resultant CEs.

Moreover, like many other large multinational manufacturing companies, Company X’s transition is ongoing and faces various issues in moving forward, especially when it comes to its electrification infrastructure and battery recycling capabilities. Albeit, through such provisions, other unsustainable practices may come into play (e.g. the construction of roads, pipelines etc. that compromise ecological and social systems). At the more pragmatic level, there is also an element of risk in offering preventative maintenance services for functional machines that can be seen as intrusive by the mining and construction customers.

Together, such challenges imply that Company X is not (yet) circular – and, from a more critical stance, perhaps will not be in the immediate future. However, the resource and innovation strategies it adopts nevertheless help move it one step closer to providing more circular service offerings. As the case examples highlight, in some instances, this might require collaborations with or even acquisitions of upstream actors as the focal firm senses if and how its assets can provide circular solutions for its customers.

6.1 Research contributions

The research contributions from this study are mainly analytical and conceptual, stemming from the introduction of the servitisation for circularity framework. Additionally, while some of the findings are specific for circular service provisions, others support earlier research on the role of servitisation for industrial firms.

First, this study offers an understanding of how servitisation strategies can support circularity by moving away from the extant research focus on servitisation as supporting bottom-line performance (e.g. Gebauer, 2008; Cusumano et al., 2015; Raddats et al., 2019) by explicitly bringing in the environmental elements of value resultant from such strategies. This study is one of the first to empirically link the types of servitisation strategies adopted by an industrial firm to support circular ambitions and top line performance. These strategies are used in combination with others to support the transition of industrial firms to (more) circular business models and, inter alia, CEs.

Second, through combining and building on previous servitisation and CE literature, this study puts forward a framework that can help researchers frame their empirical work on strategic servitisation for circularity. Using the “servitisation for circularity framework” as an analytical tool helps elaborate on the internal resources and capabilities needed for industrial firms to meet their circular aims (see Scarpellini et al., 2020). It also helps frame in different cases when and what open innovation and resource strategies with upstream partners are necessary (illustrated through the feedback loops). This can allow researchers gain a better understanding of the managerial strategies for circular service offerings used in different companies and the dynamic capabilities needed to meet such offerings, taking a focal industrial firm as the unit of analysis rather than the business network.

Third, this study emphasises the importance of customer interfaces (both human and technical) for circular service provision. This finding is nothing new but rather builds upon the relationship marketing principle as an important coping mechanism for industrial companies operating in geographically diverse areas. It also confirms recent service-led research (e.g. Raddats et al., 2019; Chaudhary et al., 2022) which emphasises the importance of people for servitisation. Here, the degree of trust, communication and technical expertise at the customer interface appears especially important for low volume, highly customised product industries where human interaction between the seller and the buyer remains key.

Fourth, this study implies that open innovation strategies may be contingent on physical distance, rather than strategically designed from the outset as part of circular ecosystems. This finding is particularly novel in that coopetition, partnerships and acquisitions come down to locational factors, which affect (circular) service provision, rather than cultural or psychological distance (see Kucza and Gebauer, 2011).

Fifth, the findings nuance the definition of open innovation through collaboration in that innovation strategies can regard “open” knowledge exchange (e.g. through knowledge exchange networks) but the innovations themselves for circularity, nevertheless take place within the firm’s borders (i.e. as closed innovation strategies [see Bocken and Ritala, 2021]).

Finally, the findings provide an example of network orchestration in practice for circular service offerings (cf. Möller et al., 2005). Extending prior works that take focal manufacturing firms as point of departure (e.g. Gebauer et al., 2013) to circular service offerings, the findings point to the use of certain upstream partners to support particular services (e.g. batteries as services). There are also examples of the case organisation being part of orchestrated innovation networks (e.g. the Advanced Service Group) composed of multisector actors. Such examples imply that knowledge innovations for circular service solutions may be (more) contingent on different types of orchestrated network forms that include actors not part of the immediate business network.

6.2 Managerial implications

Open innovation strategies with upstream actors are important for international manufacturing companies to 1) provide (circular) service offerings in geographically remote areas and 2) improve product performativity and lifespan through information exchange. This means that managers should be open to collaborations with competitors, suppliers and other stakeholders to ensure that circular services can be provided across the globe. Acquisitions may also be another strategy for circular service provision if resources permit.

Additionally, managers must ensure that the customer-facing staff (i.e. sales teams and technical personnel) have adequate knowledge of and technical training on the circular services offered. These personnel are vital for successful circular service strategies in their relationships with industrial customers as “business partners” for material and component circularity. That being said, servitisation is one strategy that can help industrial firms transition to more circular business models through the development of services that support circularity. Therefore, offering circular services needs to be combined with other strategies (e.g. product innovations, environmental controls, GHG accounting) for circular transitions to be realised.

6.3 Limitations and future research

This paper focuses on servitisation as one strategy that helps firms in their circular transitions. It is based on the analysis of one international industrial firm, and the managerial strategies it implements to support its circular ambitions, as well as the resources and capabilities needed to meet such strategic aims. In doing so, the contributions are mainly empirical, analytical and conceptual, rather than theoretical.

Future research should continue to explore the role of circular servitisation strategies for circular business models from a firm-centric perspective, especially those in different industries and contexts that focus on environmental value propositions. This is important as it appears that closed resource and innovation strategies are preferred in some instances, with contrasts much wider research focus on service and circular ecosystems. It could also be valuable to draw on different theoretical perspectives or frameworks (e.g. the resource-based view, dynamic capabilities, knowledge-based approaches and/or the business model canvas, among others) and/or building on the “servitisation for circularity framework” put forward in this study. This would benefit from multiple case study designs to increase the analytical and theoretical generalisations from the findings.

It would also be of particular interest to follow industrial companies through longitudinal research designs to assess the long-term impacts of (current) circular servitisation strategies on not only the companies being explored, but the wider effects on manufacturing industries in terms of the CE. Such research could aim to address the environmental consequences of servitisation strategies for industrial firms as well as their upstream and downstream partners (see Russell-Bennett et al., 2023).

Additionally, the finding that geography conditions open innovation strategies (i.e. deliberate strategies to collaborate with upstream actors as part of a wider circular ecosystem) is based on this case. Future research could explore different industries and companies, providing researchers with a deeper understanding on the different types, roles and use of servitisation strategies for circularity, and the CE in different contexts, and the decisions behind when open or closed innovation strategies are preferred. For example, future research could elaborate on the circumstances when acquisitions and mergers are used as strategies to offer more circular services. This could build on recent research on the modes of servitisation (see Öberg, 2023), but for circular transitions in industrial economies. There could also be attempts to integrate CE principles more clearly into extant characterisations of service networks in manufacturing companies, building on the prior work of Gebauer et al. (2013). This is important given the various institutional pressures for CEs.