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Engineering, Technology & Applied Science Research Vol. 12, No. 1, 2022, 8075-8079 8075 
 

www.etasr.com Abbas & Burhan: Investigating the Causes of Poor Cost Control in Iraqi Construction Projects 

 

Investigating the Causes of Poor Cost Control in Iraqi 
Construction Projects 

 

Nagham Nawar Abbas  

Department of Civil Engineering 
University of Baghdad 

Baghdad, Iraq 
nagham.nawwar@gmail.com  

Abbas M. Burhan  

Department of Civil Engineering 
University of Baghdad 

Baghdad, Iraq 
abbasm.burhan@coeng.uobaghdad.edu.iq

 

 

Abstract-Controlling cost in construction projects is an essential 

issue. This study investigates the most critical problems that 

cause weakness in cost control in Iraqi construction projects. The 

quantitative technique was used by conducting a survey directed 

to professionals who work on construction projects. One hundred 

and sixty-four questionnaire forms were distributed to private 
sector companies, government companies, and government 

institutions, and the responses were subjected to the required 

statistical analysis. The results indicate that the most influential 

factors are the weakness in keeping up with the use of modern 

concepts, methods, and technologies, the delay in receiving the 

amounts due for work done from the owner, fluctuations in 

market prices, the lack of knowledge and the inefficient use of 

currently available tools and technology, and the security 

situation in the country. The results indicate that the Iraqi 

construction projects suffer from weakness in cost control, which 

causes them to stop or delay their delivery, and this needs serious 

and quick solutions. One of the most important solutions is the 

adoption of modern technologies and their inclusion in the 
construction sector and the development of special systems for 

managing costs that are appropriate to the Iraqi construction 
environment. 

Keywords-cost control; construction project; statistical analysis; 

causes; investigation 

I. INTRODUCTION  

A construction project will be successful if its technical 
goals are aligned with its budget and the budget is not 
exceeded. It is difficult to envisage a construction project being 
completed without cost variances and schedule delays, which 
may occur at any time during the procedure due to various 
factors such as poor management, supervision, and control [1]. 
Most construction projects require the completion of a specific 
set of operations to deliver a specific product. Construction 
projects include new buildings and structures, additions, 
changes, conversions, expansions, reconstruction, renovations, 
large replacements, and mechanical and electrical installations. 
Cost and time control is essential in the construction industry 
[2]. 

In general, a construction project's success is determined by 
its ability to fulfill the client's cost, time, safety, resource 
allocation, and quality objectives. A successful project meets 

technical goals, stays on schedule, and stays within cost 
limitations [3]. The construction industry as a whole has been 
deemed to be underperforming, resulting in an inability to 
attain effective cost performance. As a result, most building 
projects have a wide range of costs [4]. One of the most 
important concerns confronting the construction sector is cost 
overrun [5]. Time and cost overrun are common issues for the 
majority of construction projects [6, 7]. 

Cost overrun is a common theme in Iraq's construction 
industry. Despite the development of many cost control 
approaches and technologies, the Iraqi construction industry 
has yet to implement them [8]. This research contributes to the 
identification of the current reality of the Iraqi construction 
sector. 

II. DESIGN OF THE QUESTIONNAIRE  

Initially, previous studies were reviewed to collect, 
organize, and analyze relevant information in a manner 
appropriate to the intended purpose. After that, this information 
was subjected to a series of discussions, analyses, and 
modifications that helped develop a questionnaire. The first 
page of the questionnaire is a cover containing information 
related to the research topic. The questionnaire included two 
parts. The first part includes general information about the 
concerned entity (such as its type and name) and information 
about the people who fill out the questionnaire from the target 
community in the study (specialization, educational 
qualification, workgroup, and the amount of experience). The 
second part includes a list of factors that are probable to have a 
negative impact on the control of the cost of a construction 
project. This part includes 22 closed questions designed with a 
five-point Likert scale (1: Always, 2: Frequently, 3: 
Sometimes, 4: Scarcely, 5: Never). Each respondent was asked 
to assign a degree of measure to each factor based on his/her 
perceptions about the Iraqi construction sector's environment. 

The most prominent and important problems the process of 
construction project cost control faces, according to the review 
of the previous literature and interviews with experts 
specialized in the field of construction projects, are shown in 
Table I. 

Corresponding author: Nagham Nawar Abbas



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www.etasr.com Abbas & Burhan: Investigating the Causes of Poor Cost Control in Iraqi Construction Projects 

 

TABLE I.  A REVIEW OF THE ISSUES THE CONSTRUCION PROJECT COST CONTROL 

S Issue References 

1 Weakness in keeping up with the use of modern concepts, methods, and technologies [9-12] 

2 Lack of knowledge and inefficient use of currently available tools and technology [13, 14] 

3 Failure in the decision-making  process due to various reasons [12] 

4 Poor communication and transfer of information and data between the concerned parties [15] 

5 Lack of progress in measuring work properly [16] 

6 Poor planning and scheduling and not dividing work items in a way that helps tracking costs easily [14, 17] 

7 Unclear contract documents (contracting details, technical specifications, general and special requirements) [17] 

8 Failure to prepare an appropriate purchase plan [14, 18] 
9 Fluctuations in market prices [14, 18] 

10 Involving inexperienced executive staff in terms of cost and low labor productivity [17, 18] 

11 Low labor productivity [16] 

12 Changes made by the owner [14, 18, 19] 

13 Changes resulting from design errors [19] 

14 Poor management of site data and not accurate documentation [14, 18, 19] 

15 Delay in receiving the amounts due for work done from the owner [18] 

16 Excessive waste of materials on the site [19] 

17 Inaccurate estimation of quantities [14, 20] 

18 Insufficient information needed to achieve cost control [20] 

19 Lack of a fixed and specific method in the process of making measurements for real work Added during the open survey 

20 Not clearly specifying the type of data and information required Added during the open survey 

21 Inadequate analysis of cost data to ensure a better benefit in the control process Added during the open survey 
22 Security situation in the country Added during the open survey 

 

III. FACE VALIDITY 

Face validity, or content validity is a sort of validity in 
which diverse aspects, skills, and behaviors are measured 
appropriately and successfully. The research tools and data 
may be reviewed by professionals in the field of study to this 
goal. Vague and cryptic questions can be updated, and the 
difficult items can be reworded based on the reviewers' remarks 
[21]. Since the construction of the scale of measurement items 
was primarily based on an exhaustive analysis of the literature 
and detailed reviews by numerous industry experts, 
professionals, and academics, the content validity of the 
proposed questionnaire was satisfied in this study. Five 
specialists with more than 10 years of experience in 
construction projects and with an academic background in 
questionnaire evaluation were consulted to analyze the 
questionnaire and make revisions that best match the Iraq 
conditions. 

IV. PILOT STUDY 

A pilot study is a small experimental attempt or study that 
applies to a part of the study population whose characteristics 
are usually similar to those of the study population [22, 23]. 
According to [24] the pilot research is a test run for the 
questionnaire, which includes detecting any vague questions, 
testing the phrasing of questions, testing the data collection 
technique, etc. The most important challenge that the study 
faced is the difficulty of communicating with experts directly 
due to the covid-19 related quarantine, so finishing this stage 
took a long time. The sample size for the pilot study is 
preferably between 30 and 50 [25]. In this research, 35 
respondents were selected, the questionnaire was distributed to 
them, and the answers were collected, organized, and prepared 
for conducting the required statistical tests. The pilot study was 
applied to respondents with characteristics similar to the total 
sample, and after ensuring the validity of the research tool, the 

questionnaire was distributed to the total sample without 
including the pilot sample. 

V. PILOT STUDY TESTS (VALIDITY AND RELIABILITY) 

Using a good research tool is one of the most critical factors 
to reach acceptable and valuable results. According to [26], one 
of the researcher's key goals is to develop his research tool 
which should be characterized by three traits, i.e. it should be 
meaningful, accurate, and efficient. The data collected from the 
pilot study were subjected to the required tests using the 
statistical analysis software Statistical Package for the Social 
Sciences (SPSS) Version 26 to verify the extent of validity and 
reliability. 

A. Statistical Validity  

The validity of an instrument refers to how well it measures 
what it is supposed to measure [27]. This test is used to find the 
correlation coefficients between each item in a specific portion 
and the part as a whole [28]. Each of the 22 items of the 
questionnaire was assigned a different symbol from F1 to F22. 
Table II shows the results of the internal validity test for the 
second part of the questionnaire titled Possible Reasons for 
Poor Cost Control in Construction Projects. 

B. Statistical Reliability (Cronbach's Alpha)  

The value of the Cronbach's alpha constant, which ranges 
from 0 to 1, is an essential technique of calculating reliability. 
The closer it is to 1, the higher the degree of reliability [29]. 
Table III shows the classification of reliability according to the 
value of the Cronbach's alpha coefficient. 

After implementing the Cronbach's alpha test, the results 
were compared with the standard values mentioned in Table II 
and they were found to be within excellent limits with a value 
of 0.902 which confirms the reliability of the used 
questionnaire. 



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www.etasr.com Abbas & Burhan: Investigating the Causes of Poor Cost Control in Iraqi Construction Projects 

 

TABLE II.  ITEM CORRELATION COEFFICIENTS 

Item Correlation coefficient Sig. (2-tailed) 

F1 0.479** 0.000 

F2 0.427** 0.000 

F3 0.484** 0.000 

F4 0.629** 0.000 
F5 0.620** 0.000 

F6 0.506** 0.000 

F7 0.577** 0.000 

F8 0.604** 0.000 

F9 0.252** 0.002 

F10 0.577** 0.000 

F11 0.512** 0.000 

F12 0.365** 0.000 

F13 0.519** 0.000 

F14 0.696** 0.000 

F15 0.379** 0.000 

F16 0.586** 0.000 

F17 0.707** 0.000 

F18 0.736** 0.000 

F19 0.665** 0.000 

F20 0.660** 0.000 

F21 0.684** 0.000 

F22 0.193* 0.017 

 Correlation is significant at the 0.05 level (2-tailed)٭

 Correlation is significant at the 0.01 level (2-tailed)٭٭

TABLE III.  RELIABILITY CUT-OFF VALUES [30] 

Cronbach's alpha Degree of reliability 

α ≥ 0.9 Excellent 

0.9 > α ≥ 0.8 Good 
0.8 > α ≥ 0.7 Acceptable 

0.7 > α ≥ 0.6 Questionable 

0.6 > α ≥ 0.5 Poor 

0.5 > α Unacceptable 

 

VI. QUESTIONNAIRE DISTRIBUTION 

Convenience sampling was adopted. Convenience sampling 
is a sort of nonprobability sampling in which respondents are 
chosen because they are "convenient" data sources for 
researchers [31]. The questionnaire form was distributed to the 
intended sample, consisting of 180 individuals, and 164 forms 
were answered (response rate 91%). After checking, 14 forms 
were found to be incomplete, resulting in a total of (150) forms 
which were processed. Professionals in Iraqi construction 
projects (architects, civil engineers, mechanical engineers, 
electrical engineers, and other professionals with associated 
specialty) were included in the research population. The 
questionnaire was distributed manually in paper form through 
group interviews with specialists from different workplaces and 
through an electronic link. Questionnaire completion took 
about 7 to 9 minutes. Table IV shows the statistical analysis of 
the characteristics of the target sample. 

VII. QUESTIONNAIRE DATA ANALYSIS 

The quantitative method was used. Quantitative data 
analysis methods can be beneficial to a researcher attempting to 
extract meaningful conclusions from a vast body of qualitative 
data. The key advantage is that a quantitative analytical 
technique allows the separation of many confounding elements 
that can obfuscate the core qualitative conclusions [32]. 

TABLE IV.  CHARACTERISTICS OF THE TARGET SAMPLE 

Question Categories Percentage 

Concerned party 
percentage of 
respondents 

Contracting companies 
Owner 

Consulting offices 

51% 
42% 
7% 

Respondents' 
educational level 

Diploma 
Bachelor's degree 
Master's degree 

Ph.D. 
Other 

1% 
56% 
38% 
3% 
2% 

Respondents 
specialization 

Architects 
Civil engineers 

Electrical engineers 
Mechanical engineers 

Others 

1% 
85% 
5% 
3% 
6% 

Current field of 
respondents 

Designers 
Consultants 

Project managers 
Contractors 
Site engineers 

others 

5% 
8% 
19% 
4% 
53% 
11% 

Respondents' 
experience 

Less than 5 years 
5-10 years 
11-15 years 
16-20 years 

More than 20 years 

27% 
33% 
23% 
8% 
9% 

 

Statistical approaches play an essential part in most studies 
that rely on quantitative data analysis by converting ordinal to 
numeric data using a rating scale (i.e. the 5-point Likert scale). 
IBM SPSS was used to analyze the data. The Relative 
Importance Index (RII) method was employed to determine the 
respondents' rankings of items/variables. RII can be calculated 
by:  

RII =
∑�

(�∗	)
    (1) 

RII =
�(�
)��(��)��(��)��(��)���

�(�
������������)
    (2) 

where W is the weight given to each component by the 
respondents (ranging from 1 to 5), A represents the most 
significant weight (which equals to 5), and N is the total 
number of people who took part in the survey. The RII value 
ranges from 0 to 1 (0 not inclusive). The higher the RII value, 
the more significant the attribute's impact. RII, on the other 
hand, does not take into account the relationships between the 
various elements. Table V shows the details of the statistical 
analysis of the second part of the questionnaire. The results 
indicated that "Weakness in keeping up with the use of modern 
concepts, methods, and technologies" is the highest cause of 
weakness to control costs in construction projects according to 
specialists' point of view with RII=80.00, mean=2.00, 
SD=0.82. The follow-up and use of the world's continuous 
development in administrative and technical tools related to 
project cost management has a significant role in solving most 
of the problems facing this process and shortening the time for 
the relevant parties. This study is in agreement with the 
findings in [9,11]. "Delay in receiving the amounts due for 
work done from the owner" came second with RII=78.81, 
mean=2.06, SD=0.96. This reason falls outside the control of 
the implementing party and hinders the good management of 
project costs, but sometimes this delay may be based on 
problems or weaknesses in the data provided by the contractor. 
This result is in agreement with [18]. 



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www.etasr.com Abbas & Burhan: Investigating the Causes of Poor Cost Control in Iraqi Construction Projects 

 

TABLE V.  STATISTICAL ANALYSIS OF THE SECOND PART OF THE QUESTIONNAIRE 

Item Mean Std. deviation RII Rank 

Weakness in keeping up with the use of modern concepts, methods, and technologies 2 0.82 80 1 

Delay in receiving the amounts due for work done from the owner 2.06 0.96 78.81 2 

Fluctuations in market prices 2.11 0.9 77.88 3 

Lack of knowledge and inefficient use of currently available tools and technology 2.23 0.85 75.5 4 

Security situation in the country 2.24 0.91 75.23 5 

Poor planning and scheduling and not dividing work items in a way that helps tracking costs easily 2.4 1.09 72.05 6 

Failure in the decision-making  process due to various reasons 2.46 0.85 70.86 7 

Involving inexperienced executive staff in terms of cost and low labor productivity 2.46 0.91 70.73 8 
Changes made by the owner 2.5 0.91 69.93 9 

Poor management of site data and not accurate documentation 2.56 1.08 68.74 10 

Inadequate analysis of cost data to ensure a better benefit in the control process 2.62 0.98 67.68 11 

Lack of progress in measuring work properly 2.62 1.03 67.68 12 

Failure to prepare an appropriate purchase plan 2.62 1.06 67.68 13 

Insufficient information needed to achieve cost control 2.65 0.95 67.02 14 

Low labor productivity 2.68 0.96 66.49 15 

Poor communication and transfer of information and data between the concerned parties 2.7 0.99 66.09 16 

Inaccurate estimation of quantities 2.72 1.04 65.56 17 

Changes resulting from design errors 2.81 0.93 63.71 18 

Not clearly specifying the type of data and information required 2.85 0.98 63.05 19 

Excessive waste of materials on the site 2.89 1.06 62.12 20 

Unclear contract documents (contracting details, technical specifications, general and special requirements) 3.01 1.1 59.74 21 
Lack of a fixed and specific method in the process of making measurements for real work 3.05 1.08 59.07 22 

 

The ranked third reason for the poor cost control is 
"Fluctuations in market prices" with RII=77.88, mean=2.11, 
SD=0.90. It is a problem that frequently occurs in the 
construction sector in Iraq due to the country's fluctuating 
economic conditions and negatively affects the performance of 
construction projects. Also, this result is in agreement with 
what was stated in [14, 18]. The fourth reason is "Lack of 
knowledge and inefficient use of currently available tools and 
technology" (RII=75.50, mean=2.23, SD=0.85). This result is 
somewhat consistent with the first result, which indicated the 
weakness of keeping pace with modern technologies, as the 
current technologies are insufficient and need to be developed. 
This result is in agreement with [13, 14]. The fifth reason for 
poor cost control is the "Security situation in the country" with 
RII=75.23, mean=2.24, SD=0.91. This is actually and 
negatively reflected on the performance of construction 
projects in general and not only on the cost performance. The 
top 5 reasons for the poor cost control appear to be reasonable 
and commensurate with the problems that Iraqi building 
projects face. The two lowest-ranking reasons are "Unclear 
contract documents (contracting details, technical 
specifications, general and special requirements)" and "Lack of 
a fixed and specific method in the process of making 
measurements for real work".  

VIII. CONCLUSION 

According to the opinions of specialists in the field of the 
Iraqi construction sector, construction projects mainly need to 
develop in the field of knowledge by adopting the most 
modern, at a global level, techniques in this field to solve 
multiple problems, including cost overruns. Also, there is a 
need for real solutions related to financing. Specifically 
concerned with addressing the problem of late payments 
allocated to projects, which impede the progress of projects. On 
the other hand, there is an urgent need to address the issue of 
market prices and reduce price fluctuations that occur at 
various times in the Iraqi market and negatively affect the cost 

of construction projects. Cadres of the public and private 
sectors need continuous education and updating in order to 
keep pace with the most prominent developments in the field of 
construction. Finally, the general security situation of any 
country is directly reflected in the performance of its 
construction projects. The data indicate that cost overruns can 
be minimized. It is evident from the fact that most of the 
factors mentioned in each of the problems is caused by human 
incompetence and therefore can be removed to a large extent. 
Good management strategies may influence this situation more 
favourably than any other treatment and can have both short 
and long term effects. Also, most indicators require the 
presence of specialized systems and trained cadres to use them 
for the purpose of reducing the problem of cost overruns. 
Therefore, striving towards automating cost control operations 
will be very beneficial. 

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