Abstract
Purpose
This study aims to provide a foundation for the development of subcontracts that suit takt production in construction.
Design/methodology/approach
This is a non-empiric conceptual study, which integrates takt production and general construction literature into new proposals for subcontract clauses suitable for takt production in construction. This study uses literature reviews, from which proposals regarding takt production viable subcontract clauses are conducted via logical reasoning.
Findings
A total of 13 proposals for takt production applicable subcontracts are provided in this study. The proposals emphasize detailed and collaborative planning, suitable payment methods and flexibility for takt plan modification.
Originality/value
Previous takt literature has not properly addressed the development of subcontracts for takt production, despite regular attempts to use subcontracting in takt production. This study aims to aid main contractors to create fair and suitable subcontracts, so that adhering to takt schedules could be more viable in practice. This study also acts as a foundation for further empirical studies regarding the subject.
Keywords
Citation
Keskiniva, K., Saari, A. and Junnonen, J.-M. (2023), "Suggestions for takt production subcontract clauses – a conceptual study", Construction Innovation, Vol. 23 No. 2, pp. 425-442. https://doi.org/10.1108/CI-09-2021-0176
Publisher
:Emerald Publishing Limited
Copyright © 2022, Kimmo Keskiniva, Arto Saari and Juha-Matti Junnonen.
License
Published by Emerald Publishing Limited. This article is published under the Creative Commons Attribution (CC BY 4.0) licence. Anyone may reproduce, distribute, translate and create derivative works of this article (for both commercial and non-commercial purposes), subject to full attribution to the original publication and authors. The full terms of this licence may be seen at http://creativecommons.org/licences/by/4.0/legalcode
1. Introduction
1.1 Background and purpose statement for this paper
Takt production originates from Lean and has been used in construction production particularly in the past decade (Haghsheno et al., 2016). Takt production has been claimed to stabilize construction production (Haghsheno et al., 2016), clarify, standardize and routinize tasks (Frandson et al., 2013; Binninger et al., 2017a), shorten production lead times (Binninger et al., 2018), as well as reduce waste and increase productivity (Vatne and Drevland, 2016). However, fully executing takt production in accordance with the current takt production models has been reported to be challenging (Linnik et al., 2013; Lehtovaara et al., 2020), which is why development should be pursued.
Takt production is a new phenomenon in construction and published data regarding it is limited. The publications are mostly conference papers, in which various authors have discussed takt production in a very fragmented manner. Practices in the practical implementation of takt production vary in different companies and countries (Gardarsson et al., 2019), further adding to the fragmentation of information. Fragmented data and reported varying practices currently make the implementation of takt production a challenging task in practice.
Based on experience, takt production implementation seems to require incorporating new takt practices with traditional construction practices. At least two key reasons can be identified for this. Firstly, the construction industry has established codes of conduct that currently make implementing takt production in practice challenging. Currently, takt production is often a mixture of the new and the old, rather than a down-to-the-detail fully reinvented production model. Furthermore, not every detail has to necessarily be reinvented for takt production to function properly. Currently, adhering to takt production challenges organizations and their employees to reevaluate and reinvent their thinking and routines, which may take time and practice. Secondly, knowledge gaps and differing opinions still exist regarding takt production in the context of construction, which directs contractors to trial-and-error and improvement-over-time approaches in practice (Lehtovaara et al., 2020). For example, details regarding subcontracting are rarely discussed, yet subcontractors are regularly used in takt production projects (Dlouhy et al., 2016; Gardarsson et al., 2019; Lehtovaara et al., 2020). There have been challenges regarding the implementation of takt production (Alhava et al., 2019; Andersen and Fyhn, 2019; Lehtovaara et al., 2019; Keskiniva et al., 2020). Some of these problems stem from construction in general that are emphasized by the ambitious requirements of takt production. For example, production prerequisite management and worker commitment are not novel challenges. Takt production sets certain unconventional requirements for the subcontractors (Frandson et al., 2013; Dlouhy et al., 2016; Lehtovaara et al., 2019). However, suitable subcontracts related to such unconventional production practices have not been discussed in the previous takt production literature.
This study aims to create a conceptual foundation for the development of subcontract clauses suitable for takt production. The foundation aims to help main contractors develop subcontracts that facilitate takt production in a realistic and sustainable manner. The foundation consists of propositions that have not been empirically tested. Instead, future testing in practice is recommended based on this study. This study is important from the perspectives of the main contractor and the subcontractors. Unrealistic subcontracts can lead to many issues during the production phase. For example, if adhering to the takt plan is not economically viable for the subcontractors, it can disturb the production flow, as subcontractors are economically forced to deviate from the takt plan.
This is a conceptual paper. The subcontracting clauses are established via literature review and logical reasoning as a conceptual study. Such conceptual research method is deemed suitable for this study, as takt literature is limited but similarly themed challenges and contractual solutions have partly been discussed in general construction literature previously without takt context. For example, adhering to a steady production rate is not completely unique to takt production and stage payments have been recommended as a solution in general literature. Because takt production seems to currently be a mixture of the new and the old, considering general construction literature is a logical foundational solution in the current absence of takt production knowledge. As the proposals in this study are theoretically derived, they must be empirically validated in practice. This study strives to advance takt production research by concretizing further research needs related to subcontracts in the form of proposed solutions.
1.2 The takt production method
In takt planning production is divided into small, repetitive segments based on location, time and work. Locations are ideally divided into similarly sized and repetitive takt areas (Frandson et al., 2013; Dlouhy et al., 2016). Time is divided into static durations called takt time (Frandson et al., 2013). The duration of the takt time is usually between 1 and 5 workdays depending on the project (Dlouhy et al., 2018). Work is divided into identical work packages carried out in one takt area during one takt time (Dlouhy et al., 2016). Takt scheduling is an iterative and time-consuming process, in which subcontractors can be used (Frandson et al., 2013). Modifying the schedule during production is challenging, because there is little time to react to production disturbances. Furthermore, the number of details that require modification may be great if the takt schedule is detailed (Dlouhy et al., 2018). Therefore, work packages are divided into work steps that can be completed flexibly as long as all work steps are completed within the takt time (Haghsheno et al., 2016).
Detailed takt plans require more planning and coordination (Dlouhy et al., 2018). Partly because of this, one week is the most used takt time, as it allows for more flexibility in the daily takt production management and because each weekend is a buffer (Binninger et al., 2018). Dividing the plan into smaller segments increases the number of repetitions and steers to plan the task execution in detail (Haghsheno et al., 2016). Some projects may require shorter takt times (Binninger et al., 2018). For example, in an apartment building interior phase, a takt time of 1–2 workdays may be more suitable than a week (Lehtovaara et al., 2019; Keskiniva et al., 2020). In takt production, exceptionally precise and recurring milestones can be set, which can be monitored closely.
2. Method and structure
This study is based on a literature review of general construction and takt literature, from which new recommended subcontract clauses are concluded by means of logical reasoning. Takt construction literature is reviewed for current takt production practices, issues and recommendations that require subcontract clauses, presuming subcontracting is used. General construction literature is reviewed for contractual solutions, which purposes seem to align with the findings discovered in takt production literature.
2.1 Conceptual research method
Theoretical papers have a significant role in research. Conceptual papers do not contain or analyze data, as their focus is to integrate and propose new connections between existing concepts (such as in this study between takt production and traditional production) (Gilson and Goldberg, 2015), while, at the same time, serving as a reference point for new studies and a new kind of thinking (McGregor, 2018). The evidence is based on valid and credible logical argumentation, not on empirical testing of arguments (Whetten, 1989; McGregor, 2018). Particularly in cases where testing theory in practice is challenging, there is a place for conceptual papers (Gilson and Goldberg, 2015).
Conceptual papers begin with a short general description of the subject of the study, after which the subject is elaborated from a theoretical point of view (Gilson and Goldberg, 2015). A conceptual paper should focus on developing existing theory through several elements (Whetten, 1989). A competent conceptual paper can build theory by offering propositions regarding previously untested connections between concepts (Gilson and Goldberg, 2015; Whetten, 1989). The difference between a proposition and a hypothesis is that a proposition is not tested empirically (Whetten, 1989). Even so, if propositions are used, they should describe logical conclusions in such a form that hypotheses can be derived from them for future empirical studies (Whetten, 1989; Weick, 1989).
Takt production is novel, and there have been challenges in its implementation (Lehtovaara et al., 2020). Current takt practices often differ from theoretical takt production (Lehtovaara et al., 2021). Consequently, it is justifiable to develop conceptual takt production models even without empiricism, as comprehensive testing of theoretical takt production is currently challenging, particularly if the objective is to pilot several new development ideas at the same time. By theoretically developing the concept, the takt production model can be made more viable in practice. In this study, the existing takt production theory is developed and new connections between it and general construction theory are created according to the process described by Gilson and Goldberg (2015), by proposing new contractual procedures that can be empirically tested in the future. The suitability of the subcontract clauses implemented in takt production is, thus, evaluated by means of logical reasoning according to the recommendation by Whetten (1989). The processes of the logical reasoning in this study are described in more detail below.
2.1.1 Logical reasoning in conceptual research.
Logical reasoning is based on truthful arguments, i.e. premises, from which a new logical conclusion is drawn (Ferguson and Priest, 2016). If the premises are true and the logical chain of reasoning valid, the conclusion is also true (Ferguson and Priest, 2016). In this study, the premises assumed to be true are the contractual practices recommended in general production and the identified current practices, deficiencies and challenges related to takt production. By logical reasoning, propositions for subcontract clauses are determined based on these challenges and recommendations. The conclusions logically derived from the premises in this study are propositions, because they have not been empirically tested.
For example, a premise in general construction literature is that stage payments steer subcontractors to follow production schedules rigorously (Potts, 1988). Another premise is that following production schedules is exceptionally important in takt production because production schedules are drawn up in exceptional detail (Haghsheno et al., 2016), parties are committed to following them (Lehtovaara et al., 2020), and reactive schedule modification during production is challenging (Lehtovaara et al., 2019). The logical conclusion from P1 and P2 is that stage payments as a method to steer commitment to takt schedule is worth exploring.
2.2 Description of the literature reviews
Conceptual papers often generate new ideas by synthesizing and integrating data from existing literature (McGregor, 2018). Therefore, a literature review into the existing takt production literature was conducted in this study to investigate subcontracts in takt production. The purpose was to discover relevant themes regarding subcontracts in takt production in the literature and find relevant information related to them.
The takt production literature searches were conducted in the Scopus database. The used search term was “Takt”, and “Engineering” was used to limit the results. Altogether 45 books and conference or journal quality papers have been published about takt production. Twenty-one results studied one or more case projects. The key points presented in Table 1 were deemed relevant in the development of the subcontracts. In the selection, the relevance and validity of the sources and the relevancy regarding takt production subcontracts were evaluated. The planning and control phases of takt production were both included, as they both can involve subcontractor activities.
At the beginning of the study, a presumption was made that traditional construction literature would contain information useful in drafting takt production subcontracts. Therefore, further information was sought in general literature based on the discovered takt production themes. The search was conducted in the Scopus database and in the custom search engine of the university of the authors of this study. The search terms used were subcontract*; partnering; payment methods; and procurement. The term “Construction Industry” was used to limit the search. The search terms were selected based on the themes mentioned above. Table 2 presents the relevant themes and found sources regarding subcontracts covered in general literature.
3. Results
3.1 Subcontracts in construction – status based on the literature review
Production involves many organizations that have their own interests, objectives and competences, making construction management complex. Procurement is an important part of production planning and coordination, and successful procurement enables cost, quality and risk management (Pesämaa et al., 2009). Typically, in the procurement of subcontracts, not enough attention is paid to the generation of trust and collaboration even though they are essential for the success of a project (Eriksson and Laan, 2007; Eriksson, 2008; Yin et al., 2014).
Viable procurement requires functioning tender evaluation criteria. Lowest price tendering has been criticized and claimed to cause disputes and confrontations that lead to rising costs, longer construction periods, deterioration of quality and poor customer satisfaction (Pesämaa et al., 2009). Lowest price tendering also reduces long-term cooperation, as project parties vary between projects (Dubois and Gadde, 2000; Ahola et al., 2008). Lowest price tendering-based procurement is most appropriate for simple and standardized tasks with little uncertainties (Eriksson, 2008). Main contractors often use limited tendering in the selection of subcontractors or negotiate directly with one subcontractor (Eriksson, 2008). The emphasis on cooperation in the selection of contractors has increased, as it is considered to lead to better results (Wong and Cheung, 2005; Pesämaa et al., 2009).
3.1.1 Subcontracts in construction in general based on the literature review.
The majority of construction is currently subcontracting (Dubois and Gadde, 2000; Kumaraswamy and Matthews, 2000; Arditi and Chotibhongs, 2005; Eriksson and Westerberg, 2011), making subcontracts critical. The responsibilities of project parties are defined in subcontracts, indicating liabilities and compensations during disputes (Yik et al., 2006). Consequently, subcontractors consider the clauses to be the biggest risk for their operation (Uher and Davenport, 2009). Subcontracts should be fair to both parties. Even if partnering is sought, contracts must be clear and comprehensive. Otherwise, unclear cooperation arrangements related to production models may, unintentionally, change the responsibilities and distribution of risks between the contracting parties (Yik et al., 2006).
Limited resources are a common challenge in construction. Shortage of workers on a site may be due to incorrect understanding of the workload or thinking that work can be done out of schedule (Thomas and Flynn, 2011). Furthermore, the resources may be divided between several sites, one of which may be late thus taking up more resources than planned (Thomas and Flynn, 2011). According to Thomas’s and Flynn (2011) interviews, specifying to the subcontractors what is expected from them before production begins is the most important aspect.
Deciding the payment method is an essential part of drafting a subcontract. Payment method practices may vary according to country. According to ICE (2009), in most contracts the subcontractor is paid monthly for the work done based on unit prices defined in the contract. The contractor is paid for producing units but not steered to produce completed sections in one go (ICE, 2009). Because production involves several trades, handing areas over in schedule for the following trades is essential for production flow (McGuinness, 2008). Consequently, a reimbursable cost contract may be used to pay according to costs incurred (Whitticks, 2005). Reimbursable cost contracts increase flexibility, making it simpler to modify plans and plan collaboratively (Whitticks, 2005). The disadvantages of reimbursable cost contracts include that it is difficult to know the total cost in advance, there is no incentive for the subcontractor to reduce costs or fully complete tasks as rapidly as possible and the main contractor must supervise the accumulation of working hours (Whitticks, 2005).
Subcontractors can be steered toward completing areas swiftly via stage payments. The contractor is paid percentages of the contract price for completing milestones defined in the stage payments (ICE, 2009). Setting milestones ensures that the subcontract is completed at a steady production rate, allowing locations to be handed over to following trades at a steady pace (McGuinness, 2008). Furthermore, monitoring the progression of the subcontract becomes easier if milestones are set (Yik et al., 2006).
Rigorous contractual requirements can be risky. A subcontractor may consider strict requirements as financial risks or unfair opportunism by the main contractor (Yik et al., 2006) and may tender with higher prices to cover the risk (Yik et al., 2006; Uher and Davenport, 2009). This may partly be because in the experience of subcontractors, the in-house drafted conditions of the main contractor can sometimes be unfavorable to the subcontractor (Uher and Davenport, 2009). Furthermore, milestones increase the contractual requirements for the main contractor to ensure that there are locations available for the subcontractor at agreed times, which may reduce the willingness of the main contractor to set many milestones (McGuinness, 2008).
3.1.2 Integrating subcontractors in takt planning.
Employee involvement refers to giving employees a wider influence than in the contractual job description, such as in problem-solving and decision-making (Marchington et al., 1992). Involvement may include decisions regarding work methods, independent quality monitoring or scheduling work (Maloney and Federle, 1993). The objectives of involving subcontractors are better cooperation between the different parties, innovation, greater commitment and linking employee skills to production management (Maloney and Federle, 1993; Marchington et al., 1992). Integrating subcontractors into planning may have positive effects from financial (Errasti et al., 2007), schedule (Elfving et al., 2005), quality (Errasti et al., 2007) and innovation (Eriksson et al., 2007a, 2007b) viewpoints.
Nearly all clients, main contractors and subcontractors that responded to Arditi and Chotibhongs’s (2005) survey believed a partnering agreement to be beneficial for all parties. Particularly early pre-contract involvement is considered to have significant positive effects on developing mutual understanding, reducing constructability problems and improving scheduling and planning (Arditi and Chotibhongs, 2005). According to surveys, most construction workers are willing to influence their work (Maloney and Federle, 1993; Coffey, 2000).
Regarding collaborative takt planning, schedule changes should be approved by all subcontractors, because different tasks are closely linked, and schedule changes affect everybody (Gardarsson et al., 2019). The participation of subcontractors in planning is a critical factor (Frandson et al., 2013; Frandson et al., 2015; Gardarsson et al., 2019) because poorly planned or managed takt production subtly slips toward the traditional production method of weekly based control (Andersen and Fyhn, 2019; Lehtovaara et al., 2019). Gardarsson (2019) describes a case, in which involving subcontractors in takt planning engaged the subcontractors to follow the takt schedule and solve problems independently. According to Gardarsson et al. (2019), this led to a reduction in construction defects and sick leaves. Yet, subcontractors are not always involved in early takt planning and scheduling (Frandson et al., 2013; Dlouhy et al., 2016; Gardarsson et al., 2019). Subcontractors must be introduced to the takt production model for early collaborative planning to be possible (Gardarsson et al., 2019).
In some takt projects, subcontractors have not been involved in early production planning but have participated in daily takt meetings that monitor the situation and aim to solve problems during production (Dlouhy et al., 2016; Binninger et al., 2017c; Gardarsson et al., 2019). Once takt production has started, subcontractors can participate in minor daily collaborative production planning and problem-solving (Binninger et al., 2017c) as well as in reporting the production status (Dlouhy et al., 2016). Daily meetings have been found to be a functioning construction management method in several projects irrespective of takt time duration (Lehtovaara et al., 2021).
3.1.3 Takt production subcontracts based on the literature review.
Only a few mentions of suggestions regarding subcontracts exist in the takt literature (Gardarsson et al., 2019; Lehtovaara et al., 2019; Vatne and Drevland, 2016). However, the literature does include supplementary information that must be considered in the subcontracts. For example, the literature describes takt production practices that set expectations and limitations for the subcontractors, which logically relate to subcontracts.
The work of the subcontractor can be influenced within the limits of the contract. Subcontracting and subcontracts have been a challenge in most projects implementing several lean construction tools (Shang and Pheng, 2014; Devaki and Jayanthi, 2018; Ayarkwa et al., 2012) and in takt production projects (Vatne and Drevland, 2016; Lehtovaara et al., 2019). For example, unfit clauses may make it difficult to adhere to a detailed takt production schedule (Lehtovaara et al., 2019).
Takt production requires a suitable payment method (Vatne and Drevland, 2016; Lehtovaara et al., 2019). A subcontractor cannot afford to keep workers in a site that constantly has too little work to do and generates poor income for the subcontractor (Thomas and Flynn, 2011). Also, a subcontractor may view contractually prohibiting working ahead of schedule as a risk and therefore submit a higher tender. These aspects may conflict with the objectives of takt production. This has not been covered in the literature from the viewpoint of takt production subcontracts.
Takt production requires a steady number of workers on the construction site, as work progresses at a steady pace (Dlouhy et al., 2016), there is no significant time buffer between tasks (Dlouhy et al., 2019), and takt production is used particularly in repetitive locations (Haghsheno et al., 2016). Lehtovaara et al. (2021) mention that payments should be tied to reported progress of work packages. This way subcontractors could be motivated to follow the takt schedule (Lehtovaara et al., 2021). Lehtovaara et al. (2021) do not mention stage payments in this context directly, but payments according to work package progression seem analogous to stage payments.
In takt production, unit priced subcontracts may steer subcontractors to leave small parts of tasks unfinished or undone altogether until the end of the subcontract, as finishing small tasks immediately may lower the subcontractor’s hourly earnings (Lehtovaara et al., 2019). Subcontractors may in such situations deviate from the schedule by reserving too many locations and optimizing only their own work (Lehtovaara et al., 2021). This may impede or prevent consequent work packages to be carried out on schedule.
The hourly earnings of subcontractors may also rise because of takt production. Vatne and Drevland (2016) describe a project where production progressed smoothly, which resulted in hourly subcontractor earnings rising to 18% higher than average. Takt production did not lower project costs, as due to unit pricing, the subcontracts did not save money for the main contractor. The foremen recommended hourly rate subcontracting for smoothly executed takt production to benefit more from the shortened production lead time.
In lump sum subcontracts, the revenue increases by carrying out the subcontract rapidly. The faster the subcontract is completed, the higher the hourly earnings are for the subcontractor. In takt production, the objective is to standardize all production rates (Frandson et al., 2013; Dlouhy et al., 2016). Therefore, faster rates are slowed down and slower rates hastened (Binninger et al., 2017c). It is also recommended that the workload of workers is lowered to factor in uncertainties (Frandson et al., 2015). Another option is to make more laborious tasks slightly over-resourced by addition of workers (Frandson et al., 2015; Gardarsson et al., 2019). For lump sum and unit price subcontracts, this means that the hourly earnings in slowed down subcontracts fall because of the reduced production rate. This may lead to complying with takt production being economically unattractive for a subcontractor if the subcontractor cannot respond to the reduction of production rate by cutting down its own resources or if there is no workable backlog outside the takt production [the use of which has been recommended by Frandson et al. (2015) and Gardarsson et al.( 2019)]. In relation to this, Lehtovaara et al. (2020) mention that sometimes when there has not been enough work, this has resulted either in a penalty for the main contractor or the subcontractor leaving the site to work elsewhere.
Reimbursable cost subcontracts are either based on trust between the main contractor and the subcontractor, or on monitoring of the subcontractor’s working hours and costs (Whitticks, 2005). The risk in hourly payments is that the subcontractor may try to slow down its production rate to generate more billable hours. It may be difficult to verify if the hours invoiced correspond to the actual hours worked, particularly if the employees are not always at the same site or if monitoring is infrequent. For this reason partnering with subcontractors should be considered, where work between the parties is based on trust and long-term cooperation (Lehtovaara et al., 2020). On the other hand, takt production enables production monitoring in greater detail (Dlouhy et al., 2018; Keskiniva et al., 2021), which allows the comparison of hours worked and hours invoiced in more detail for example with digital tools.
3.2 Logical reasoning – the recommended subcontract clauses in takt production
Based on the literature, little has been written about the subcontract clauses suitable for takt production. On the other hand, the literature offers recommendations for takt production that should, based on logical reasoning, be considered in takt production subcontracts. To be able to execute takt production as planned, the subcontracts should be developed to better fit the takt production model.
3.2.1 Considering cooperation in drafting subcontracts.
Based on the literature, takt production emphasizes cooperation between the production stakeholders. The following chapters introduce the premises (indicated by capital P and the number of the premise), found in the literature, regarding the significance of subcontracting cooperation in takt production:
P1: Sometimes the main contractor drafts a subcontract that is favorable to the main contractor at the expense of the subcontractor (Uher, 1991; Arditi and Chotibhongs, 2005).
P2: Unfair subcontracts hinder cooperation (Wong and Cheung, 2005).
P3: Takt planning should use subcontractors (Frandson et al., 2013, 2015; Haugen et al., 2020; Lehtovaara et al., 2020).
P4: It must be possible for the production stakeholders to follow the takt plan rigorously (Haghsheno et al., 2016; Haugen et al., 2020).
P5: Open communication during the planning and implementation of takt production is important (Frandson et al., 2013; Dlouhy et al., 2016).
Next, a new proposition is deduced from the premises above. To distinguish between the propositions and the premises, the propositions are from now on called conclusions (indicated by capital C and the number of the conclusion) and are presented in bold and inside square frames. The following conclusion can be logically drawn from P1 to P5:
When drawing up a subcontract in takt production, the objectives of the subcontractor and the main contractor must be harmonized.
Subcontracts must be fair for it to be possible to rigorously implement takt production. Fair subcontracts are worth pursuing, in general, but in takt production they seem to be compulsory. This has not been previously mentioned regarding takt production.
Subcontracts must enable the cooperation between the main contractor and subcontractors. Next, the premises in the literature concerning the responsibilities of the subcontractor and the main contractor regarding subcontracts are described:
P6: Effective subcontracting requires that subcontractors know what the execution of production requires of them already in the procurement phase (Shen et al., 2017).
P7: The expectations regarding the subcontractor’s task planning and scheduling, required production rate and staffing, quality, safety and possible other matters must be made clear in the procurement phase (Thomas and Flynn, 2011).
P8: Collaborative planning of takt production in workshops is recommended (Frandson et al., 2013), and for that reason among others, subcontractors must be orientated about takt production (Lehtovaara et al., 2020).
P9: Takt production logistics can be standardized with repeating takt area specific transportations (Lehtovaara et al., 2019, 2020), in which case subcontractors must know their role in the logistics system.
P10: Takt production should be steered in daily takt meetings, in which subcontractors must participate (Dlouhy et al., 2016; Lehtovaara et al., 2019).
P11: Workers can be used in digital reporting of takt production progress (Alhava et al., 2019).
From the above premises P6–P11, it can be logically concluded that:
The expectations regarding the tasks of the subcontractor must be clearly presented in the procurement phase. They must also be brought up in relation to takt production and its special features, and they can be demanded in subcontracts, if necessary.
These special features include, among others, participation in orientations and collaborative planning workshops, participation in production phase takt meetings, requirements regarding material and tool transportations and storage, adhering to the collaboratively planned takt schedule, always maintaining steady and adequate resources on the site and possibly documenting the production status depending on the monitoring process used by the main contractor. The special features of takt production have been sporadically covered in previous literature, but taking them into account in subcontracts has not been mentioned.
3.2.2 Takt production progression management via subcontracts.
In takt production, firm and strictly monitored targets are set for production. There have been challenges in complying with takt production. Subcontractors can be steered to comply with these targets by means of subcontract clauses. Next, the premises regarding the management of takt production progression through subcontracts are described:
P12: Tasks or work packages that have not finished in one go according to the takt plan have been a challenge in takt production (Lehtovaara et al., 2021).
P13: Fully complying with the first takt schedule version often fails (Lehtovaara et al., 2021).
P14: With smooth handovers, takt production tasks can follow one another independently (Haugen et al., 2020).
P15: There are at least two conditions for takt production handovers from one subcontractor to another: the location must be clean and the work packages 100% complete (Haugen et al., 2020).
P16: The main contractor and subcontractors should know what tasks and subtasks (including cleaning and inspections) must be completed before moving from one takt location to the next and what is the required quality for these tasks (Lehtovaara et al., 2021).
P17: It may be worthwhile to pay subcontractors based on work package progress (Lehtovaara et al., 2021).
P18: In stage payments, the project is divided into smaller sections, for the completion of which the contractor is paid percentages of the contract price (Potts, 1988).
P19: Stage payments motivate the contractor to complete sections of the project in one go if the stage payments are tied to the stage of completion of the sections of the project (Potts, 1988).
P20: Stage payments can be used to achieve steady progression of tasks (Potts, 1988).
P21: Steady progression is one of the most important goals of takt production (Dlouhy et al., 2016).
From the above premises P12–P21, it can be logically concluded that:
Stage payments should be tied to completing work packages, as this generates motivation for the subcontractor to fully complete work packages in one go ready for the next subcontractor.
In the literature, the use of stage payments has not been directly mentioned previously, but Lehtovaara et al. (2021) have mentioned payment per work package progress.
From the above premises, it can also be logically concluded that:
In stage payments, the work package specific start and finish dates defined in the preliminary takt schedule should not be set in stone, as they may have to be changed during production when the takt schedule is modified.
Locking up the dates based on the preliminary takt schedule makes it more difficult to modify the takt schedule later. The connection between subcontract clauses and the flexibility required in elaborating takt plans during production has not been previously discussed in the literature.
3.2.3 Considering adequate revenue for subcontractors in subcontracts.
Based on the literature, there have been challenges regarding the selection of the subcontract revenue model in takt production. Next, the premises regarding subcontract revenue models are described:
P22: More functioning revenue models, which consider the revenue logic of all stakeholders, are required in takt production subcontracting (Lehtovaara et al., 2019).
P23: Takt production aims to minimize work waiting for workers, which enhances the progression of areas and minimizes the amount of work in process (Linnik et al., 2013; Lehtovaara et al., 2021).
P24: In takt production, workers must be underloaded, e.g. 70%–80% of possible capacity (Frandson et al., 2015). The purpose of underloading is to make sure that despite reasonable production rate variation, there is always enough workforce to complete tasks (Linnik et al., 2013). If work is finished on time, the extra capacity can be used to complete the workable backlog or to prepare for handovers (Frandson et al., 2015; Lehtovaara et al., 2021).
P25: On the other hand, underloading may also lead to idle time (Linnik et al., 2013) if there are not enough tasks in the workable backlog.
From the above premises P22–P25, it can be logically concluded that:
If subcontractors are not paid for idle time, compliance with takt production may cause resistance or it may be economically impossible.
Idle time has been mentioned previously in the takt production literature (Linnik et al., 2013), but taking considering it in subcontracts has not been discussed. If idle time cannot be allocated to workable backlog, compensation for idle time should be considered to make the subcontracts financially sustainable. In relation to compensating the subcontractors for idle time, two further propositions can be logically concluded:
If hourly payment is used, work hours calculations must consider the idle hours resulting from production rate standardization and underloading. The subcontractors must be compensated for them.
In unit price or lump sum payment methods, the economic viabilities of production rate standardization and restriction must be considered from the perspective of the subcontractors.
3.2.4 Considering practices regarding delays in takt production.
Rigorous adherence to the takt plan is important. Because production delays may occur, corrective practices must be clearly defined in subcontracts. Next, the premises regarding the practices for delays are defined:
P26: Practices regarding delays are usually defined in subcontracts (Uher, 1991).
P27: There are several ways to react to delays, such as production crashing or modifying the schedule (Pierce, 2013).
P28: In takt production, work packages are drawn up based on milestones defined together with the client, which is why the schedule must be followed and work packages completed on time (Haghsheno et al., 2016).
P29: Because it is important to complete work packages on time, production crashing should be used after delays (Haghsheno et al., 2016).
P30: With a takt time of one week, weekends act as a time buffer for production crashing (Haghsheno et al., 2016).
P31: After formidable delays, production may be stopped for additional planning and problem-solving. Then it is possible to collaboratively reschedule as necessary (Binninger et al., 2017a, 2017b, 2017c).
From the above premises P26–P31, it can be logically concluded that:
The methods to make up for delays must be defined in subcontracts.
In projects with a takt time of less than one week, delay management is particularly challenging, as there is no weekend buffer at the end of every work package:
Takt production crashing may introduce extra costs, the responsibility for which must be defined in the subcontract.
The main contractor tends to ensure that the subcontractor compensates the main contractor for delays it has caused (Uher, 1991). On the other hand, main contractors often do not compensate subcontractors for delays the main contractor themselves cause (Uher, 1991). According to Uher (1991), it is for the best if terms like these work both ways. From the above premises, it can be further concluded that:
Subcontracts must clearly define, under what kinds of circumstances and on what terms production crashing takes place.
For example, if a work package is delayed because of the subcontractor, the subcontractor may be required to complete the work package before the next takt at their own expense. Similarly, it must be clearly stated what is done when work packages must be crashed due to reasons beyond the responsibility of the subcontractor. Taking work package crashing into account in subcontracts has not been previously discussed in the literature. However, schedule crashing is not always appropriate, which is why:
If the takt schedule cannot be crashed, the schedule is modified so that it is possible to steer production in the future.
Thus, production steering without an up-to-date plan can be avoided. Modifying the takt schedule is not a new recommendation but adding it as a secondary solution alongside primarily crashing is a new recommendation. Also, it is a new proposition that this matter should be considered in subcontracts.
3.2.5 Allowing adequate flexibility for takt production in subcontracts.
The takt plan may be modified during production. For this to be possible, subcontracts must not prevent it. Next, the premises related to allowing modifications to the takt schedule during production are presented:
P32: Takt production is not a stable process: as production progresses, the plans must be honed, because the preliminary “estimated schedule” cannot be executed as such (Dlouhy et al., 2016; Frandson and Tommelein, 2016).
P33: Modification mechanisms exist for modifying the schedule during production (Binninger et al., 2017a, 2017b, 2017c) that are described in P28.
P34: Contractually locking up the takt production rate, start and finish dates and the workable backlog may make it difficult to modify the schedule during production.
P35: At the beginning of a project, the suitability of takt production should be test-ran with a reduced workload, by reducing the initial size of the first few takt areas (Frandson et al., 2013; Lehtovaara et al., 2021).
From the above premises P32–P35, it can be logically concluded that:
For it to be possible to modify takt plans, the subcontracts must allow it.
The first schedule version must be highly viable to minimize detailed and laborious replanning during production. Minimizing replanning also requires less flexibility from the subcontracts. The importance of the first takt schedule draft has not been previously emphasized in the literature. Subcontractors must understand that developing the takt schedule is in the interests of all stakeholders, or causes no harm to anyone. If making significant changes poses a risk to the revenue of the subcontractor, the subcontract may need to be renegotiated after the schedule modification, depending on the content of the original contract. The connection between subcontract clauses and takt schedule modification during production has not been previously discussed in the literature. Logically concluding from the above:
Subcontract supplementation should be done together with subcontractors after collaborative planning and a test run.
The content of subcontracts should, simultaneously, strive for clauses that steer for takt schedule adherence and for retaining adequate flexibility for the development of the takt schedule during production. Matters to be supplemented include the uniform takt production rate, the start and finish dates of the subcontract and agreeing on the workable backlog. Subcontract supplementation has not been previously mentioned in the literature but seems to be advisable.
4. Conclusions
Takt production utilization in construction has increased over the last two decades. However, challenges exist in the implementation which are partly related to subcontracting and subcontracts. There are specific objectives and practices related to takt production. Considering these in subcontracts has not been previously discussed.
This article creates a foundation for subcontracts suitable for takt production. Based on a literature review and conceptually, by means of logical reasoning, this article develops subcontract clauses, for better implementation of takt production in the future. Fair and detailed subcontracts define common and clear ground rules for the main contractor and the subcontractor, which makes operating clearer.
Based on logical reasoning, 13 new recommendations were defined regarding the drafting of subcontracts. The expectations and needs of subcontractors and main contractors should be coordinated for takt production to be viable. The goals and requirements for the subcontractor should be made clear in the procurement phase already and they should be considered in subcontracts. Based on the literature, these requirements include collaborative takt planning workshops, daily takt meetings and other site meetings, having a steady number of resources on the construction site, work package completion in one go within the takt, responsibilities regarding material transportation, rigorously following the takt schedule and, if necessary, digital production status reporting.
Stage payments may be used to steer subcontractors to comply with takt production and complete work packages in one go. Leveling production rates may cause waiting, and the principles of paying for this must be addressed in subcontracts. The selected payment method for subcontracts must be suitable for takt production. Following the takt schedule is important, which is why liabilities and practices, such as production crashing, should be clearly defined in advance.
Takt plans must be modified during production, so subcontracts should be flexible enough to allow this. On the other hand, takt production sets detailed and frequent milestones for the subcontractors. Therefore, subcontract clauses should be supplemented partly in cooperation with the subcontractor to make the clauses realistic, applicable and reasonable. Based on this study, it is recommended that subcontracts are complemented during the first run study at the beginning of takt production when the workload is lighter. Figure 1 illustrates a summary of the recommendations developed based on this study and their interrelations.
The recommendations of this study are preliminary, as they have not been tested in practice. Consequently, a recommended subject for further research is to study the subcontract clauses recommended in this article in practical takt production projects. Practical studies may also give rise to a need for new subcontract clauses to complement the recommendations of this study. Supplementing subcontracts during takt production should be studied more closely to find out what kinds of challenges and possibilities are related to it and what are the detailed recommended practices regarding contract supplementation. Presumably, it may be necessary to adjust the content of subcontracts project by project, to some extent. For example, different types of projects or takt production cooperation that continues from project to project may, possibly, impact subcontract content requirements.
Figures
Matters to be considered in the development of takt production subcontracts based on the literature review
Theme | Facts that must be considered in the subcontracts | Literature source |
---|---|---|
Subcontractor role in takt planning | Takt production should be planned in workshops cooperatively with the subcontractors. Collaboration is emphasized in takt production | Frandson et al. (2013), Frandson et al. (2015); Gardarsson et al. (2019), Haugen et al. (2020) |
Subcontractors must be familiarized early with takt production for collaborative takt planning and production execution | Gardarsson et al. (2019), Lehtovaara et al. (2020) | |
The takt plan may be modified during production (which logically requires flexibility from the subcontracts) | Gardarsson et al. (2019) | |
Subcontractors partake in daily takt meetings during takt production, which have their own requirements and procedures | Dlouhy et al. (2016) | |
Logistics in takt production should be planned precisely | Lehtovaara et al. (2019) | |
Takt production control | The execution of takt production has been challenging | Lehtovaara et al. (2019), Lehtovaara et al. (2020) |
Delayed takt production is restored with additional resources and overtime work | Gardarsson et al. (2019), Dlouhy et al. (2019) | |
Digitalization can be utilized for monitoring and information transfer in takt production and workers can be used for status reporting | Alhava et al. (2019) | |
Takt production subcontracts | Suitable payment methods for subcontractors must be studied further in takt production | Vatne and Drevland (2016), Lehtovaara et al. (2019) |
Production rates are equalized in takt production, which must be considered in subcontracts | Linnik et al. (2013), Frandson et al. (2015) |
Themes and sources in general construction literature
Relevant themes in general construction literature | Literature sources |
---|---|
Creating trust and collaboration between the main contractor and subcontractor via subcontracts | Eriksson and Laan (2007a); Eriksson (2008), Yin et al. (2014); Wong and Cheung (2005); Pesämaa et al. (2009); Arditi and Chotibhongs (2005) |
Suitable subcontract payment method selection | Whitticks (2005), McGuinness (2008); ICE (2009) |
Requirement for fair subcontracts | Uher (1991), Arditi and Chotibhongs (2005); Yik et al. (2006), Uher and Davenport (2009) |
Subcontractor participation in production planning | Marchington et al. (1992), Maloney and Federle (1993); Coffey (2000) |
Early subcontractor informing and training to achieve fair subcontracts and production plan adherence | Thomas and Flynn (2011); Shen et al. (2017) |
Subcontractor steering with stage payments | Potts (1988); McGuinness (2008), ICE (2009) |
Procedures and responsibilities regarding production delays | Uher (1991), Uher and Davenport (2009) |
References
Ahola, T., Laitinen, E., Kujala, J. and Wikström, K. (2008), “Purchasing strategies and value creation in industrial turnkey projects”, International Journal of Project Management, Vol. 26 No. 1, pp. 87-94.
Alhava, O., Rinne, V., Laine, E. and Koskela, L. (2019), “Can a takt plan ever survive beyond the first contact with the trades on-Site?”, Proceedings of the Annual Conference of the International Group for Lean Construction, Dublin, Ireland, 3-5 July.
Andersen, L. and Fyhn, H. (2019), “Organizational and cultural preconditions for extending the use of Takt-Time planning”, Proceedings of the Annual Conference of the International Group for Lean Construction, 3-5 July, Dublin.
Arditi, D. and Chotibhongs, R. (2005), “Issues in subcontracting practice”, Journal of Construction Engineering and Management, Vol. 131 No. 8, pp. 866-876.
Ayarkwa, J., Agyekum, K., Adinyira, E. and Osei-Asibey, D. (2012), “Barriers to successful implementation of lean construction in the Ghanaian building industry”, International Journal of Engineering Science, Vol. 2 No. 4, pp. 37-45.
Binninger, M., Dlouhy, J. and Haghsheno, S. (2017a), “Technical takt planning and takt control in construction”, Proceedings of the 25th Annual Conference of the International Group for Lean Construction, Heraklion, Greece, 9-12 July.
Binninger, M., Dlouhy, J., Müller, M., Schattmann, M. and Haghsheno, S. (2018), “Short takt time in construction – a practical study”, Proceedings of the 26th Annual Conference of the International Group for Lean Construction, Chennai, India, 18-20 July.
Binninger, M., Dlouhy, J., Oprach, S. and Haghsheno, S. (2017b), “Learning simulation game for takt planning and takt control”, Proceedings of the 25th Annual Conference of the International Group for Lean Construction, Heraklion, Greece, 9-12 July.
Binninger, M., Dlouhy, J., Steuer, D. and Haghsheno, S. (2017c), “Adjustment mechanisms for demandoriented optimisation in takt planning and takt control”, Proceedings of the 25th Annual Conference of the International Group for Lean Construction, Heraklion, Greece, 9-12 July.
Coffey, M. (2000), “Developing and maintaining employee commitment and involvement in lean construction”, Proceedings of the 8th Annual Conference of the International Group for Lean Construction, Brighton, UK, 17-19 July.
Devaki, M.P. and Jayanthi, R. (2018), “Barriers to implementation of lean principles in the Indian construction industry”, International Journal of Engineering Research and Technology, Vol. 3 No. 5, pp. 1189-1192.
Dlouhy, J., Binninger, M. and Haghsheno, S. (2019), “Buffer management in takt planning – an overview of buffers in takt production systems”, Proceedings of the Annual Conference of the International Group for Lean Construction, Dublin, Ireland, 3-5 July.
Dlouhy, J., Binninger, M., Oprach, S. and Haghsheno, S. (2016), “Three-level method of takt planning and takt control – a new approach for designing production systems in construction”, Proceedings of the 24th Annual Conference of the International Group for Lean Construction, Boston, MA, USA, 20-22 July.
Dlouhy, J., Oprach, S., Binninger, M., Richter, T. and Haghsheno, S. (2018), “Using takt planning and takt control in production projects–comparison of construction and equipment phases”, Proceedings of the 26th Annual Conference of the International Group for Lean Construction, Chennai, India, 18-20 July.
Dubois, A. and Gadde, L.E. (2000), “Supply strategy and network effects – purchasing behaviour in the construction industry”, European Journal of Purchasing and Supply Management, Vol. 6 Nos 3/4, pp. 207-215.
Elfving, J.A., Tommelein, I.D. and Ballard, G. (2005), “Consequences of competitive bidding in project-based production”, Journal of Purchasing and Supply Management, Vol. 11 No. 4, pp. 173-181.
Eriksson, P.E. (2008), “Procurement effects on coopetition in client-contractor relationships”, Journal of Construction Engineering and Management, Vol. 134 No. 2, pp. 103-111.
Eriksson, P.E. and Laan, A. (2007a), “Procurement effects on trust and control in client‐contractor relationships”, Engineering, Construction and Architectural Management, Vol. 14 No. 4, pp. 389-399.
Eriksson, P.E. and Westerberg, M. (2011), “Effects of cooperative procurement procedures on construction project performance: a conceptual framework”, International Journal of Project Management, Vol. 29 No. 2, pp. 197-208.
Eriksson, P.E., Dickinson, M. and Khalfan, M.M.A. (2007b), “The influence of partnering and procurement on subcontractor involvement and innovation”, Facilities, Vol. 25 Nos 5/6, pp. 203-214.
Errasti, A., Beach, R., Oyarbide, A. and Santos, J. (2007), “A process for developing partnerships with subcontractors in the construction industry: an empirical study”, International Journal of Project Management, Vol. 25 No. 3, pp. 250-256.
Ferguson, T.M. and Priest, G. (2016), “Deduction”, A Dictionary of Logic, 1st ed.; Oxford University Press, Oxford.
Frandson, A.G. and Tommelein, I.D. (2016), “Takt time planning of interiors on a Pre-Cast hospital project”, Proceedings of the 24th Annual Conference of the International Group for Lean Construction, Boston, MA, USA, 20-22 July.
Frandson, A.G., Seppänen, O. and Tommelein, I.D. (2015), “Comparison between location based management and takt time planning”, Proceedings of the 23rd Annual Conference of the International Group for Lean Construction, Perth, Australia, 29-31 July.
Frandson, A., Berghede, K. and Tommelein, I.D. (2013), “Takt time planning for construction of exterior cladding”, Proc. 21st Ann. In Proceedings of the 21st Annual Conference of the International Group for Lean Construction (IGLC 21), Fortaleza, Brazil, 31-2 August.
Gardarsson, M.H., Lædre, O. and Svalestuen, F. (2019), “Takt time planning in Porsche Consulting, The Boldt Company and Veidekke”, Proceedings of the Annual Conference of the International Group for Lean Construction, Dublin, Ireland, 3-5 July.
Gilson, L.L. and Goldberg, C.B. (2015), “Editors’ comment: so, what is a conceptual paper?”, Group and Organization Management, Vol. 40 No. 2, pp. 127-130.
Haghsheno, S., Binninger, M., Dlouhy, J. and Sterlike, S. (2016), “History and theoretical foundations of takt planning and takt control”, Proceedings of the 24th Annual Conference of the International Group for Lean Construction, Boston, MA, USA, 20-22 July.
Haugen, C.G., Lædre, O. and Aslesen, S. (2020), “Takt performance indicators”, Proceedings of the 28th Annual Conference of the International Group for Lean Construction (IGLC 28). Berkeley, CA, 6-10 July pp. 457-468.
Institution of Civil Engineers (2009), “Labour planning”, Civil Engineering Procedure, 6th ed. ICE Publishing, London, pp. 79-100.
Keskiniva, K., Saari, A. and Junnonen, J.M. (2020), “Takt planning in apartment building renovation projects”, Buildings, Vol. 10 No. 12, p. 226.
Keskiniva, K., Saari, A. and Junnonen, J.M. (2021), “Takt production monitoring and control in apartment renovation projects”, Buildings, Vol. 11 No. 3, p. 92.
Kumaraswamy, M.M. and Matthews, J.D. (2000), “Improved subcontractor selection employing partnering principles”, Journal of Management in Engineering, Vol. 16 No. 3, pp. 47-57.
Lehtovaara, J., Heinonen, A., Lavikka, R., Ronkainen, M., Kujansuu, P., Ruohomäki, A., Örmä, M., Seppänen, O. and Peltokorpi, A. (2020), “Takt maturity model: from individual successes towards systemic change in Finland”, Proceedings of the 28th Annual Conference of the International Group for Lean Construction (IGLC 28). Berkeley, CA, 6-10 July, pp. 433-444.
Lehtovaara, J., Mustonen, I., Peuronen, P., Seppänen, O. and Peltokorpi, A. (2019), “Implementing takt planning and takt control into residential construction”, Proceedings of the Annual Conference of the International Group for Lean Construction, Dublin, Ireland, 3-5 July.
Lehtovaara, J., Seppänen, O., Peltokorpi, A., Kujansuu, P. and Grönvall, M. (2021), “How takt production contributes to construction production flow: a theoretical model”, Construction Management and Economics, Vol. 39 No. 1, pp. 73-95.
Linnik, M., Berghede, K. and Ballard, G. (2013), “An experiment in takt time planning applied to non-repetitive work”, Proceedings of the 21st Annual Conference of the International Group for Lean Construction (IGLC 21), Fortaleza, Brazil, 31-2 August.
McGregor, S. (2018), “Conceptual and theoretical papers”, Understanding and Evaluating Research: A Critical Guide, 1st ed., SAGE Publications, Thousand Oaks, pp. 497-528.
McGuinness, J. (2008), The Law and Management of Building Subcontracts, John Wiley and Sons, Hoboken, NJ.
Maloney, W.F. and Federle, M.O. (1993), “Employee involvement in engineering and construction”, Journal of Management in Engineering, Vol. 9 No. 2, pp. 174-190.
Marchington, M., Goodman, J., Wilkinson, A. and Ackers, P. (1992), New Developments in Employee Involvement, 1st ed., Manchester School of Management, UMIST, Manchester.
Pesämaa, O., Eriksson, P.E. and Hair, J.F. (2009), “Validating a model of cooperative procurement in the construction industry”, International Journal of Project Management, Vol. 27 No. 6, pp. 552-559.
Pierce, D.R. Jr (2013), “Monitoring and controlling the project”, Project Scheduling and Management for Construction, John Wiley and Sons, Hoboken, NJ.
Potts, K.F. (1988), “An alternative payment system for major ‘fast track’ construction projects”, Construction Management and Economics, Vol. 6 No. 1, pp. 25-33.
Shang, G. and Pheng, L.S. (2014), “Barriers to lean implementation in the construction industry in China”, Journal of Technology Management in China, Vol. 9 No. 2, pp. 155-173.
Shen, W., Tang, W., Yu, W., Duffield, C.F., Hui, F.K.P., Wei, Y. and Fang, J. (2017), “Causes of contractors’ claims in international engineering-procurement-construction projects”, Journal of Civil Engineering and Management, Vol. 23 No. 6, pp. 727-739.
Thomas, H.R. and Flynn, C.J. (2011), “Fundamental principles of subcontractor management”, Practice Periodical on Structural Design and Construction, Vol. 16 No. 3, pp. 106-111.
Vatne, M.E. and Drevland, F. (2016), “Practical benefits of using takt time planning: a case study”, Proceedings of the 24th Annual Conference of the International Group for Lean Construction, Boston, MA, USA, 20-22 July.
Uher, T.E. (1991), “Risks in subcontracting: subcontract conditions”, Construction Management and Economics, Vol. 9 No. 6, pp. 495-508.
Uher, T.E. and Davenport, P. (2009), “Subcontracting practice”, Fundamentals of Building Contract Management, 2nd ed. New South Publishing, Sydney.
Weick, K.E. (1989), “Theory construction as disciplined imagination”, The Academy of Management Review, Vol. 14 No. 4, pp. 516-531.
Whetten, D.A. (1989), “What constitutes a theoretical contribution?”, The Academy of Management Review , Vol. 14 No. 4, pp. 490-495.
Whitticks, E. (2005), “Client policy and practice”, Construction Contracts: How to Manage Construction Contracts and Control Disputes in a Volatile Industry, 1st ed., Gulf Publishing Company, Houston, TX, pp. 1-29.
Wong, P.S.P. and Cheung, S.O. (2005), “Structural equation model of trust and partnering success”, Journal of Management in Engineering, Vol. 21 No. 2, pp. 70-80.
Yik, F.W., Lai, J.H., Chan, K.T. and Yiu, E.C. (2006), “Problems with specialist subcontracting in the construction industry”, Building Services Engineering Research and Technology, Vol. 27 No. 3, pp. 183-193.
Yin, S.Y.L., Tserng, H.P., Toong, S.N. and Ngo, T.L. (2014), “An improved approach to the subcontracting procurement process in a lean construction setting”, Journal of Civil Engineering and Management, Vol. 20 No. 3, pp. 389-403.
Further reading
Frandson, A. and Tommelein, I.D. (2014a), “Development of a takt-time plan: a case study”, Construction Research Congress 2014: Construction in a Global Network, Atlanta, GA, May 19-21,
Frandson, A., Berghede, K. and Tommelein, I.D. (2014b), “Takt-time planning and the last planner. In proc. 22nd ann. Conf. of the int’l group for lean construction”, Proceedings of the 22nd Annual Conference of the International Group for Lean Construction (IGLC 22), Oslo, Norway, 25-27 June.