Assessment of time management practices of small medium (PDF)

117 How to cite: Sogaxa, A., Simpeh, E. & Ndihokubwayo, R. 2021. Assessment of time management practices of small medium sized contractors in project delivery in the Eastern Cape Province, South Africa. Acta Structilia, 28(1), pp. 117-141. © Creative Commons With Attribution (CC-BY) Published by the UFS http://journals.ufs.ac.za/index.php/as Research articles • Navorsingsartikels Athenkosi Sogaxa Mr Athenkosi Sogaxa, Lecturer, Walter Sisulu University, 19 Manchester Road, Chiselhurst, East London, 5247, South Africa. Phone: 0437094098 email: <[email protected]> Eric Simpeh Dr Eric Kwame Simpeh, Centre for Settlements Studies, Kwame Nkrumah University of Science and Technology, PMB UPO, KNUST, Kumasi, Ghana. Phone: +233553697932 email: <[email protected]> ORCID: https://orcid. org/0000-0002-5123-7468 Ruben Ndihokubwayo Prof. Ruben Ndihokubwayo, Associate Professor, Walter Sisulu University, 19 Manchester Road, Chiselhurst, East London, 5247, South Africa. Phone: 0437094013, <[email protected]> ORCID: https://orcid. org/0000-0002-5855-7982 DOI: http://dx.doi. org/10.18820/24150487/as28i1.5 ISSN: 1023-0564 e-ISSN: 2415-0487 Acta Structilia 2021 28(1): 117-141 ASSESSMENT OF TIME MANAGEMENT PRACTICES OF SMALL MEDIUM SIZED CONTRACTORS IN PROJECT DELIVERY IN THE EASTERN CAPE PROVINCE, SOUTH AFRICA Received: March 2021 Peer reviewed and revised: April 2021 Published: June 2021 *The authors declared no conflict of interest for the article or title ABSTRACT The purpose of this article is to assess the effective time-management practices adopted by construction SMEs to enhance successful construction project delivery. A mixed methods approach, consisting of both quantitative and qualitative research methods was adopted. A questionnaire was distributed to Small and Medium Enterprises (SMEs) management team purposively selected from CIDB Grades 1 to 4 registered contractors under the general building category. The quantitative data were analysed, using descriptive statistics. To validate quantitative findings, semi structured interviews were conducted with randomly selected respondents who were part of the survey study where content analysis was adopted. The findings revealed that the most adopted effective time-management practices to enhance the sustainable success rate of construction SMEs in South Africa included progress meeting with consultants to ensure regular  Acta Structilia 2021: 28(1) 118 monitoring of the work progress, strategic planning to recover time lost, effective management of subcontractors, and allocation of tasks to workers according to their skills and expertise. It should be noted that the quantitative findings were consistent with the qualitative findings, and revealed that effective project planning, periodic progress meetings and labour production contribute to the sustainable success rate of SMEs. The results obtained from this article could be adopted as SMEs’ effective time-management practices to enhance sustainable construction project delivery. Keywords: Construction projects, leadership and sustainable success, project delays, SMEs, time-management, South Africa ABSTRAK Die doel van hierdie artikel is om die bestuurspraktyke van Klein tot Medium Ondernemings (KMO’s) te ondersoek vir effektiewe tydsbeplanning om die volhoubare sukses te verhoog vir die afhandeling van konstruksieprojekte. ’n Gemengde navorsingsmodel bestaande uit ’n kwantitatiewe sowel as ’n kwalitatiewe aanslag is toegepas. ’n Vraelys is versprei onder die bestuursspanne van KMO’s wat geregistreer is by die CIDB, vlakke 1 tot 4. Semi-gestruktureerde onderhoude is gevoer om die resultate van die vraelys te bevestig. Die kwantitatiewe en kwalitatiewe data is geanaliseer deur beide beskrywende statistiek en inhoudsanalise tegnieke toe te pas. Daar is bevind dat gereëlde vergaderings die mees aanvaarbare metode is deur die bestuur van KMO’s vir die effektiewe bestuur van tyd om die sukses van konstruksieprojekte te verhoog in Suid-Afrika. Dit sluit in vorderingsvergaderings, beplanningsvergaderings en die toekenning van take aan kontrakteurs en konsultante. Tydsraamwerke word dan ook bespreek. Die kwantitatiewe sowel as die kwalitatiewe benaderings het gewys dat die effektiewe beplanning is gefokus op gereëlde vorderingsvergaderings en produksie van werkers. Die resultate van hierdie studie kan aangeneem en toegepas word as ’n riglyn deur die bestuur van KMO’s vir die effektiewe tydsbeplanning om die sukses van konstruksieprojekte te verhoog. Die studie bied effektiewe tydbestuursmodaliteite wat die prestasie van die KMO’s sal verbeter. Sleutelwoorde: Bouprojekte, leierskap en volhoubare sukses, projekvertragings, KMO’s, tydsbestuur, Suid-Afrika 1. INTRODUCTION While Small and Medium Enterprises (SMEs) are regarded as key to South Africa’s economic growth (Adendorff, Appels & Botha, 2011: 54), Olawale and Garwe (2010: 729) emphasise that SMEs create more job opportunities in South Africa that are of great importance to the economy and that contribute significantly to the Gross Domestic Product (GDP). In addition, Ladzani and Van Vuuren (2002: 154) and Lampadarios (2017: 3) describe the success rate of SMEs as one element that conveys social solidity and creates economic benefits globally. However, SMEs are faced with difficulties in competing with well-established firms in the industry, despite being the first preference in respect of government projects and government business development structures (Love, Irani, Li, Cheng & Tse, 2001: 33). According to Martin and Root (2012: 210), newly formed SMEs mostly fail to be sustainable businesses, with many failures in their first five years of existence, due to ineffective management practices and techniques (Love et al., 2001: 38). SMEs are confronted with some project management  Sogaxa, Simpeh & Ndihokubwayo • Assessment of time management practices 119 failures (Gabula, 2012: 2) and failures to execute effective planning, which is related to basic management skills and leads to non-profitable business (Bikitsha & Amoah, 2020: 2). In addition, Bouazza, Ardjouman and Abada (2015) claim that SMEs are challenged with business operations such as legal requirements, lack of trust from financial institutions, low business capacities, lack of managerial skills to manage construction projects successfully, and lack of technological skills. Moreover, Martin and Root (2010: 65) argue that construction SMEs are confronted with unprofitable tender prices, abuse by main contractors, poor general management, and technical difficulties. Assaf and Al-Hejji (2006: 350) indicate that lack of experience, lack of planning, inadequate estimate practices, and poor managerial competence in regulating company policies are some of the factors that cause delays in SMEs’ project delivery. According to Arditi, Nayak and Damci (2017: 137), these are non-excusable delays, caused by the contractor’s fault, for which the contractor is generally penalised. Traditionally, the client, in consultation with the project team, sets time frames in the conditions of contracts within which the contractors have to successfully deliver a construction project. Failure by SME contractors to complete the project within specified time frames eventually puts the contractor at risk of having to pay penalties to the client (Bajari & Lewis 2009: 6). Although significant studies (Martin & Root, 2012; Mauro, Ancarani & Hartley, 2020: 379; Khoshnodifar, Ghonji, Mazloumzadeh & Abdollahi 2016: 84; Lande, Shrivastava & Seth, 2016: 615) have been conducted to ascertain the success rate of construction SMEs in terms of project delivery, there is no evidence of effective time-management practices adopted by SMEs to achieve sustainable success rates in terms of construction project delivery. Therefore, it is important to assess why SMEs are confronted with time-management practices problems and are unable to complete construction projects on time. This article identifies the most effective time-management practices that can be adopted by construction SMEs to enhance construction project success. 2. LITERATURE REVIEW 2.1 SMEs’ time-management practices For SMEs to compete in a diverse environment, it is significant to monitor and understand their performances (Sa’eed, Gambo, Inuwa & Musonda, 2020: 202) in terms of completing projects timeously, in order to achieve the set objectives. In each contract, clients stipulate a time frame based on their future plans (Hatush & Skitmore 1997: 130; Tunji-Olayeni, Mosaku, Fagbenle & Amusan, 2016: 50). According to Chan and Kumaraswamy (1997: 55), the vast majority of project delays occur during the project  Acta Structilia 2021: 28(1) 120 delivery stage, where there are many unforeseen factors. Thus, for SMEs to manage construction time effectively, all construction project participants need to have all the relevant qualities such as good leadership skills, good project understanding, and common objectives with regard to achieving construction project delivery (Fapohunda, 2014: 27). In addition, Le-Hoai, Lee and Lee (2008: 368) are of the opinion that, in order to minimise construction-time delays, effective project planning during project design is needed, including the selection of a competent consulting team to develop the work plan for the SMEs, and a reliable contractor to undertake the required work. During construction project planning, SMEs need to consider work scheduling, project monitoring and controlling, leadership, progress meetings, subcontracting work, and corrective actions concerning project delays (Tunji-Olayeni et al., 2016: 51). 2.1.1 SMEs’ construction project work schedule Work schedule is known as coordinating resources of works, machines and materials timeously, in order to complete a construction project within budget (Wu, Borrmann, Beibert, Konig & Rank, 2010: 79). Similarly, Desgagne- Lebeuf, Lehoux, Beauregard and Desgagne-Lebeuf (2019: 1843) define work scheduling as the relationship among schedule elements that are governed by various factors such as project constraints, construction methods, code of conduct, and regulations. Hence, there is a need to develop an adequate work schedule for SMEs, in order to successfully deliver the project on time and within the client’s budget. However, Sigalov and Konig (2017: 456) contend that SMEs are faced with challenges in developing an adequate work schedule for construction projects. This is corroborated by Han, Cline and Golparvar-Fard (2015: 890), who maintain that there is a lack of detailed planning by SMEs in terms of the work schedule, and subsequently and consequently a failure to capture all operational levels of activities such as reinforcement, formwork, and waterproofing on concrete. 2.1.2 SMEs’ construction project monitoring Yang, Park, Vela and Golparvar-Fard (2015: 211) characterise ‘project monitoring’ as the process of keeping a close eye on the entire project management life cycle and ensuring that project activities are on the right track. It is essential for construction SMEs to anticipate potential schedule delays and exceptions at the early stages of the project (Srewil & Scherer, 2013: 178). In most cases, SMEs do not have adequate skills with respect to monitoring the project at the operational level, thus causing project delays and affecting the cost of the project (Yang et al., 2015: 212). There is thus a need for SMEs to take prompt action on construction project delivery systems, in order to manage project time frames and be operative and productive at project level (Omar & Nehdi, 2016: 144).  Sogaxa, Simpeh & Ndihokubwayo • Assessment of time management practices 121 2.1.3 SMEs’ leadership on construction projects SMEs leadership has been defined in many ways, often inconsistent but somewhat complementary to each other. Archer, Verster and Zulch (2010: 431) describe leadership as a quality possessed by a person who understands the need for SMEs to develop, direct, control and motivate, including communicating the vision to the followers with regard to sharing, mentoring and coaching subordinates and integrated construction decisions. Thus, SMEs need to engage a leader who can manage uncertainty and competition in an increasingly diverse workforce, in order to achieve the desired sustainable project success. However, Nubuor, Hongyi and Frimpong (2014: 85) note that many work-related factors such as employee’s attitude, motivation among team members, and performance of manpower can affect SME leadership on a construction project, thus affecting the outcome of the project. Jowah (2016: 11) believes that poor leadership and unsuitable leadership competencies are the principal causes of SME business failures, particularly at project delivery stage. 2.1.4 SMEs’ site progress meeting The SME progress meeting is regarded as the most important tool used to ensure that the project is successfully delivered with respect to time, cost and quality (Ayodeji, Bhekisia & Clinton, 2016: 84). Ayodeji et al. (2016: 84) further state that all issues arising on a project are discussed and resolved during the site progress meeting. Similarly, Gorse and Emmitt (2009: 984) explain that SMEs need to have project progress meetings on a regular basis throughout the project delivery, in order to review the construction project time frames. Nonetheless, Emmitt and Otter (2007: 1073) view the progress meeting as a shared dialogue, where the design team exchange the meanings and understandings of the project with the construction team involved. In addition, Salehi and Yitmen (2020 1669) allude to the fact that site meetings are the way of project data acquisition system adopted by SMEs to enable accurate project knowledge about processes and operations on a job site. Hence, it is imperative to improve the flow of construction progress by adopting site meetings and formalising effective implementation of site progress meetings (Alvares & Costa, 2019: 1447). 2.1.5 Subcontracting work Manu, Ankrah, Proverbs and Suresh (2013: 1018) define subcontracting as a method of transferring project performance of the work. This subsequently negatively affects manpower recruitment status in the project and the manner in which the activities are performed, in terms of the degree of control and patterns of regulations within the project. Chiang (2009: 81) regards subcontracting as a response to improbability that mainly arises  Acta Structilia 2021: 28(1) 122 from construction project complexity, given bounded rationality of the company. In construction projects, most of the work is subcontracted to specialist contractors. Manu et al. (2013: 1018) confirm that roughly 80% of construction work that is tendered by the main contractor is subcontracted to SMEs. Manu et al. (2013: 1018) also note some of the factors that influence the subcontracting of the work to SME contractors. These include the ability to motivate labour flexibility; to undertake a construction project within the stipulated time, and to reduce labour cost, as well as the transfer of financial responsibility, and the avoidance of work compensation costs. 2.2 SMEs sustainable business performance Athapaththu and Karunasena (2017: 52) define sustainable business performance as the business that has distinctive construction project practices and dissimilar priorities in various countries, due to market economies. Nevertheless, Labuschagne and Brent (2005: 159) indicate that SME businesses constitute one of the pillars of the country’s economy and that SMEs have the responsibility to prioritise the significance of sustainability in the construction industry. Presley and Meade (2010: 436) opine that a firm intending to start a sustainable business needs to take note of stakeholders that influence or will be influenced by sustainability, including but not limited to environmental and social sustainability, while ensuring a reasonable ongoing return on investment. Although government infrastructure increases job opportunities in the general African economy, it also has an impact on the sustainable construction environment (Ugwu & Haupt, 2007: 666). Therefore, to be sustainable, the analysis of management techniques is a significant strategy that needs to be developed by SMEs in the construction industry (Lee, Lim & Tan, 1999: 301). Smit and Watkins’ (2012: 6326) study reveals that SMEs need to employ competent teams, in order to ensure a sustainable and successful delivery of construction projects. Moreover, Olawale and Garwe (2010: 731) opine that managerial competencies are the key elements to the sustainability of emerging contractors in the construction industry. 3. METHODOLOGY 3.1. Research design This study adopted a mixed methods approach comprising both quantitative and qualitative techniques to determine and propose effective time-management practices, in order to enhance the sustainability of construction SMEs’ construction project delivery. A mixed methods approach allows for both quantitative and qualitative data to be collected simultaneously, analysed separately, and thereafter merged (Creswell &  Sogaxa, Simpeh & Ndihokubwayo • Assessment of time management practices 123 Plano-Clark, 2018: 8; Isah, Shakantu & Ibrahim 2020: 8). A quantitative structured questionnaire survey on time-management practices was used to collect data from respondents to enable the researchers to generalise their findings from a sample of a population (Bryman, 2012: 232). Semi- structured face-to-face interviews were held to solicit qualitative information from some key informants on issues relating to the achievement of sustainable success rate of SMEs (Isah et al., 2020: 8). The reason for collecting both quantitative and qualitative data is to elaborate on specific findings from the breakdown of the interviews, and to cross-check this data against the questionnaire data set such as similarities in the most significant time-management practices (Creswell & Plano-Clark, 2018: 27). 3.2. Population, sampling, and response rate A combined list of 2,721 Grades 1 to 4 contractors who are busy with project or previously undertaken a construction project, registered on the CIDB Eastern Cape contractors’ online list, was obtained from the CIDB database. This includes 2,554 registered contractors under Grade 1; 71 under Grade 2; 40 under Grade 3, and 56 under Grade 4 as construction SME’s, making it impossible to obtain responses from the entire population. For the quantitative questionnaire survey, a purposive sampling approach (De Vos, Strydom, Fouche & Delport, 2005: 202) was used to select 128 construction SME’s, from metropoles (East London, Port Elizabeth, Mthatha, Butterworth) of the Eastern Cape province in South Africa, who had previously completed a construction project and those who are currently busy with a construction project to participate in the study, indicating a 4.7% sample size for the study. From the recommended sample size table of Krejcie and Morgan (1970: 608), the recommended sample size for a population of 2,600 is 254, and this recommendation does not validate the sample size of 128 as efficient for the population of 2,721 in Table 1. It must be noted that this study focuses on the quality of the results rather than on the quantity of the population. Thus, the population of the study was selected based on SMEs’ experience and previous construction project success to determine effective modalities for SMEs to achieve a sustainable success rate. 128 questionnaires were sent to the participants by email and hard copies were administered to the firm’s management team available on construction sites. A total of 59 questionnaires were completed correctly and returned, representing a 46% response rate. This response rate is good to support this empirical study, as built-environment survey response rates vary between 7% and 40%, in a broader perspective (see Moyo & Crafford, 2010: 68).  Acta Structilia 2021: 28(1) 124 Table1: Eastern Cape metropoles CIDB grading Grade of the contractor No. of SMEs in general building (GB) (population) Sample Grade 1 2554 56 Grade 2 71 20 Grade 3 40 20 Grade 4 56 32 Total 2721 128 For qualitative data collection, purposive convenience sampling was used to sample four participants for interviews. Purposive sampling allows the researcher to choose participants based on their characteristics, pre- knowledge and capability of providing adequate knowledge deemed necessary for a study (Bless, Higson-Smith & Sithole, 2013: 172). 3.3. Data collection A structured questionnaire survey was distributed to 128 Grades 1 to 4 contractors (including directors, project managers, quantity surveyors, contract managers, commercial managers, site agents, site engineers and/ or any other company representative from 15 June 2019 to 17 July 2019. The questionnaire consisted of three sections. The first section obtained the biographic profile of the targeted population, namely age, gender, position in the business, highest educational level, number of years’ experience in the business, and the CIDB grade. Section two is a set of 16 Likert-scale items relating to the construct ‘time management’ for SMEs to enhance sustainable success rate. Section three covers a set of 7 Likert- scale items regarding the construct ‘leadership, project work schedule and control’. Participants were requested to rate their level of agreement on the statements regarding time-management practices that can be implemented by SMEs to avoid time-overrun and achieve sustainable construction project delivery in South Africa. The results from these measurements form the items used in the descriptive analysis. To reduce the respondents’ bias, closed-ended questions were preferred for sections two and three (Akintoye & Main, 2007: 601). The semi-structured interview guide contains only one major question: “What are the most effective time-management practices / strategies adopted by your SME firm to avoid or minimise project delay to achieve sustainable success rate?” This question was asked to gain, from the perceptual views of the participants, a broad understanding of time- management practices employed by SMEs in the Eastern Cape Province.  Sogaxa, Simpeh & Ndihokubwayo • Assessment of time management practices 125 3.4. Data analysis and interpretation of the findings The Statistical Package for the Social Sciences (SPSS), version 25 was used to analyse time-management, by means of descriptive statistics (Pallant, 2013: 134). The frequencies and percentages of responses were generated and reported, in order to describe the respondents’ profile. To analyse which of the time-management practices could achieve sustainable construction project delivery, the measures were rated on a five-point Likert scale, and ranked, in terms of their mean scores, on the following scale measurement, where 1 = Strongly disagree (SD) (≥ 1.00 ≤ and < 1.80); 2 = Disagree (D) (≥ 1.81 and ≤ 2.60); 3 = Neutral (N) (≥ 2.61 and ≤ 3.40); 4 = Agree (A) (≥ 3.41 and ≤ 4.20), and 5 = Strongly agree (SA) (≥ 4.21 and ≤ 5.00). Likert-type or frequency scales use fixed choice response formats and are designed to measure attitudes or opinions and even perceptions (Leedy & Ormrod, 2014: 185). For the analysis of the internal reliability in the statements on the questions on time-management, Cronbach’s alpha values were tested (Kolbehdori & Sobhiyah, 2014: 347). Taber (2018: 1279) suggests that the acceptable values of Cronbach’s alpha would range from 0.60 to 0.95. For this study, a cut-off value of 0.80 was assumed. Using content data analysis, a nuanced account of the data could be presented by transcribing, coding and setting themes from the responses of the interviews (Flick, 2011). For this article, the raw data on time- management was analysed and transcribed under conceptual themes such as ‘effective time-management practices’ and ‘time-management through leadership project work schedule and control’. 4. RESULTS 4.1 Profile of the respondents Table 2 presents the profile of the 59 SME respondents. Based on frequency of occurrence, most of the respondents (62.7%) were males, aged between 18 and 39 years (64.4%). Of the respondents, 10.2% are in the age group 18-25 years. This shows that there are few participants aged between 18 and 25 years in the management team of SME contractors. Just over half the respondents (57.6%) are either construction managers (20.3%) or site agents/foremen (37.3%) and have between 6 to 15 years’ experience in SME contractor work (50.8%). In addition, 32.2% of the respondents were other professionals (site engineers, site representatives, and directors). This indicates that SME projects are mostly run by site agents, foremen or other professionals.  Acta Structilia 2021: 28(1) 126 Most of the participants (72.9%) had either a national diploma (47.5%) or bachelor’s degree (25.4), and 11.9% had matriculated. This proves that most of the respondents within SMEs management team have tertiary qualifications and are qualified to work in the construction industry. Respondents were almost equally distributed for Grades 2 to 4 in CIDB grading with 22% in Grade 2, 35.6% in Grade 3, and 32.2% in Grade 4 contractors. Most of the active firms (89.8%) employed contractors with CIDB grading between 2 and 4. Table 2: Profile of the respondents Characteristic Category Frequency (N = 59) % Age 18-25 years 6 10.2 26-39 years 32 54.2 40-49 years 14 23.7 50-59 years 7 11.9 Gender Male 37 62.7 Female 22 37.3 Position Quantity surveyor 6 10.2 Construction manager 12 20.3 Site agent/foreman 22 37.3 Others 19 32.2 Qualifications Below matric 1 1.7 Matric certificate 7 11.9 National diploma 28 47.5 Bachelor’s degree 15 25.4 Others 8 13.6 Experience 1-5 years 22 37.3 6-10 years 15 25.4 11-15 years 15 25.4 16-20 years 4 6.8 20 years and above 3 5.1 CIDB grading Grade 1 6 10.2 Grade 2 13 22.0 Grade 3 21 35.6 Grade 4 19 32.2 4.3 Effective time-management practices Table 3 ranks the mean scores to show the level of agreement with the 16 items rated in the construct ‘time-management’ on how effective time-management practices are for construction SMEs, as perceived by respondents in practice. Table 3 indicates a composite score (average MS) of 4.03 for the ‘time management’ construct, indicating that, on the mean evaluation scale,  Sogaxa, Simpeh & Ndihokubwayo • Assessment of time management practices 127 Table 3: Effective time-management practices Statements (N = 59) 1 = Strongly disagree (SD) … 5 = Strongly agree (SA) Cronbach’s alpha 0.84 Descriptive statistics SD % D % N % A % SA % Mean Std. Rank Progress meetings with consultants to ensure regular monitoring of the progress of work 0.0 0.0 11.9 47.5 40.7 4.29 .67084 1 Strategic planning to recover time lost 0.0 1.7 10.2 47.5 40.7 4.27 .71512 2 Effective management of subcontractors 1.7 0.0 3.4 59.3 35.6 4.27 .69059 2 Allocation of tasks to workers according to their skills and expertise 0.0 1.7 11.9 47.5 39.0 4.24 .72728 3 Effective decision-making by management team 0.0 0.0 15.3 52.5 32.2 4.17 .67345 4 Recruiting management team with relevant experience 0.0 1.7 16.9 50.8 30.5 4.10 .73567 5 Client project changes during construction stage influence the project delivery 0.0 3.4 22.0 40.7 33.9 4.05 .83921 6 Timeously requesting outstanding drawing information or specification 0.0 3.4 20.3 47.5 28.8 4.02 .79852 7 Effective coordination of available resources 0.0 0.0 22.0 55.9 22.0 4.00 .66953 8 Time management on project is set as the culture of the company 0.0 1.7 20.3 57.6 20.3 3.97 .69397 9 Administration of contract instruction on time 0.0 1.7 16.9 64.4 16.9 3.97 .64236 9 Availability of sufficient funds to avoid project time overrun 1.7 1.7 15.3 62.7 18.6 3.95 .75255 10 Timeous payment by client 3.4 3.4 23.7 39.0 30.5 3.90 .99473 11 Timeous response by the design team on requested information 0.0 1.7 33.9 47.5 16.9 3.80 .73765 12 Common objectives with regard to achieving construction project delivery 1.7 0.0 35.6 44.1 18.6 3.78 .81087 13 Project bonuses for fast-tracking project delivery 1.7 3.4 37.3 35.6 22.0 3.73 .90650 14 Average MS (composite score) 4.03  Acta Structilia 2021: 28(1) 128 respondents agree that all the measurement items are effective time- management practices for construction SMEs to achieve sustainable success rate in construction project delivery. The Cronbach’s alpha was greater than 0.80 at 0.84, indicating good internal reliability, as recommended by Taber (2018: 1279). It is noticeable that 88.2% of the respondents agreed that effective progress meetings with consultants to ensure regular monitoring of the progress of work (MS=4.29) is the core time-management practice. Only 11.9% of the respondents were neutral, whereas none of the respondents disagreed. Strategic planning to recover time lost, together with effective management of subcontractors are equally ranked second, with MV=4.27. Nonetheless, effective subcontractor management was most important, with std=0.69, compared to 0.72 for strategic planning, to recover time lost. It is notable that 94.9% of the respondents agreed that effective management of subcontractors, (MS=4.27) is important in respect of SME time-management. Nevertheless, 3.4% of the respondents were neutral and 1.7% disagreed. With respect to strategic planning to recover time lost, an overwhelming 88.2% of the respondents agreed to adopt the modality, while 10.2% of the respondents were neutral and 1.7% disagreed. However, 86.5% of the respondents agreed on effective allocation of tasks to workers according to their skills and expertise, shown by a MS=4.24 and ranked third; 11.9% of the respondents were neutral, and only 1.7% disagreed on this modality. With a MS of 3.73, the lowest rated modality is project bonuses for fast-tracking the project delivery. 4.4. Effective time management through leadership, project work schedule and control Table 4 ranks the mean scores to show the level of agreement with the 7 items rated in the construct ‘leadership, project work schedule and control’ on how effective time-management practices through leadership, work schedule and control are for construction SMEs, as perceived by respondents in practice. Table 4: Time management through leadership, work schedule and control (N = 59) 1 = Strongly disagree (SD) … 5 = Strongly agree (SA) Cronbach’s alpha 0.80 Descriptive statistics Statements SD % D % N % A % SA % Mean Std. Rank Progress meeting to resolve uncertainties 0.0 0.0 13.6 57.6 28.8 4.15 .63825 1 Adequate sequencing of activities on site to avoid unnecessary idle time 0.0 1.7 16.9 49.2 32.2 4.12 .74475 2  Sogaxa, Simpeh & Ndihokubwayo • Assessment of time management practices 129 (N = 59) 1 = Strongly disagree (SD) … 5 = Strongly agree (SA) Cronbach’s alpha 0.80 Descriptive statistics Statements SD % D % N % A % SA % Mean Std. Rank Effective communication between the contractor and the design team 0.0 1.7 15.3 55.9 27.1 4.08 .70192 3 Effective as built project sensing 0.0 0.0 18.6 54.2 27.1 4.08 .67691 3 Continuous monitoring at project level 0.0 1.7 15.3 57.6 25.4 4.07 .69144 4 Effective on-time project monitoring 0.0 0.0 27.1 49.2 23.7 3.97 .71838 5 Effective works schedule development and control 0.0 3.4 18.6 59.3 18.6 3.93 .71594 6 Average MS (composite score) 4.06 Table 4 indicates a composite score (average MS) of 4.06 for the ‘leadership, project work schedule and control’ construct, indicating that, on the mean evaluation scale, respondents agreed that all the measurement items are effective time-management practices for construction SMEs to achieve sustainable success rate in construction project delivery. The Cronbach’s alpha was 0.80, indicating good internal reliability, as recommended by Taber (2018: 1279). From Table 4, it is notable that effective progress meetings to resolve uncertainties is ranked first, with MS=4.15. This is indicated by the fact that an overwhelming 86.4% of the respondents agreed that effective progress meetings to resolve uncertainties is a significant time-management modality that could enable construction SMEs to achieve sustainable success rate in project delivery. However, a notable 16.9% of the respondents were neutral, and a minority of 1.7% disagreed. In addition, adequate sequencing of activities on site to avoid unnecessary idle time is ranked second, with MS=4.12, with 81.4% of the respondents agreeing on this modality, while only 1.7% disagreed. Of the respondents, 83% agreed that effective communication between the contractor and the designing team is significant, and this ranked third, with MS=4.08. Of the respondents, 15.3% were neutral and 1.7% disagreed. From the results, it can be noted that the least ranked modality is effective works schedule development and control, with MS=3.93. 4.5. Interview results 4.5.1. Rationale of interviews Semi-structured interviews were performed as a tool to validate the quantitative data. These interviews were conducted with participants who were part of the questionnaire survey. The focus was on the most effective  Acta Structilia 2021: 28(1) 130 time-management practices and time management through leadership project work schedule and control adopted by construction SMEs. Thus, the results from the quantitative data were adopted as the guide in conducting the interviews. 4.5.2. Background information on the interviewee and the firm The first interview (referred to as respondent A) was conducted with the firm’s director on 5 September 2019 in King William’s Town, a suburb of East London in the Eastern Cape province. The second interview (referred to as respondent B) was conducted with the firm’s director, on 6 September 2019 in Southernwood suburb of East London at 14:45 pm in the meeting room of the SME contractor during office hours. The third interview (referred to as respondent C) was conducted with a firm’s director, who was the sole management executive at the company. The fourth interview (referred to as respondent D) was conducted on 23 September 2019 with the contract manager, who managed all the construction sites of the company. 4.5.3 Effective time-management practices Respondent A defined ‘planning’ as time-management practice, and the planning of activities carried out directly with people who are directly involved in the project. The director also pointed out that planning is carried out, using software and manual planning sheets. For instance, respondent A mentioned: “The programme is managed through weekly progress meetings, and if there are any changes to the programme, these get communicated to everyone involved in the project, who also check safety issues on the project.” The respondent also indicated that a monthly meeting is also held with the consultants and the contractor to evaluate the progress of work. Respondent B revealed that the firm normally planned the time per task, using the estimated time and the experience on the task performance possibilities that were used as the basis for the construction programme at the beginning of the project. With that accurate programme developed, the firm can develop a projected cash flow for the project, and that construction programme is developed using MS Project. The respondent cited examples such as: “For some small projects, the firm does not necessarily develop the construction programme, but rather the project is built based on previous experience. Project plans are carried out by integrating the team involved on construction sites, and the team looking after sites are hired based on their qualifications and experience.” Respondent C pointed out that when the project fell behind, the firm increases labour working hours, including working on weekends to catch up  Sogaxa, Simpeh & Ndihokubwayo • Assessment of time management practices 131 on the programme, and working on holidays. The respondent stated: “The time required for the project was managed through effective communication among the team involved in the project.” Respondent D stated that the drawings were an important part of project scope, and that periodic meetings (technical or progress) are held on site to address any missing information on the project. The firm timeously requested the missing information and put time frames on the request, as the information missing on the drawing is provided. 4.5.4 Effective time management through leadership, project work schedule and control Respondent A noted that leadership qualities were scrutinised during the recruitment of the management team, and that people are employed based on their skills and expertise. Respondent A was quoted as saying: “A leader on a construction site has to be willing to work with the team and also to be responsible for controlling and managing the team.” Respondent B noted that, at the beginning of each project, the firm organises a team-building session, where the team discusses the scope of work and how to successfully deliver the project. The respondent further stated that the key is to continuously monitor and revise the programme as work progresses and communicate the changes with the team. The respondent noted: “Every month during the construction stage, the company had a team-building meeting to reflect on the progress of the work and used those meetings to avoid previously experienced mistakes. During the team-building meeting, everyone is given the opportunity to advise.” The respondent further mentioned that the firm has no manuals of time- management practices, as they are always rushing to work on the projects. Respondent C claimed that there is effective communication among the project team, which included the team on site and the directors of the company, as a tool to keep update on the project progress. On the other hand, respondent C stated that the time on project is managed through effective communication among the team involved on the project. As an example, the respondent noted: “The drawings are an important part of project scope and periodic meetings (technical or progress) are held on site to address any missing information on the project.”