Impact of 3D Printing on the Overall Project Success of Residential Construction Projects Using Structural Equation Modelling (2023-02)¶
, ,
Journal Article - International journal of environmental research and public health, Vol. 20, Iss. 5
Abstract
After a decade of research and development, 3D printing is now an established technique in the construction sector, complete with its own set of accepted standards. The use of 3D printing in construction might potentially improve the outcome of the project as a whole. However, traditional strategies are often used in the residential construction industry in Malaysia, which causes serious public safety and health issues along with a negative impact on the environment. In the context of project management, overall project success (OPS) has five dimensions, such as cost, time, quality, safety, and environment. Understanding the role of 3D printing in relation to OPS dimensions in Malaysian residential construction projects would allow construction professionals to adopt 3D printing more easily. The aim of the study was to find the impact of 3D construction printing on OPS while considering the implications for all five dimensions. Fifteen professionals were interviewed to first evaluate and summarise the impact factors of 3D printing using the current literature. Then, a pilot survey was conducted, and the results were checked using exploratory factor analysis (EFA). The feasibility of 3D printing in the building sector was investigated by surveying industry experts. Partial least squares structural equation modelling was used to investigate and validate the fundamental structure and linkages between 3D printing and OPS (PLS-SEM). A strong correlation was found between 3D printing in residential projects and OPS. Highly positive implications are indicated by the environmental and safety dimensions of OPS. Malaysian decision-makers may look to the outcomes of introducing 3D printing into the residential construction industry as a modern method for increasing environmental sustainability, public health and safety, reducing cost and time, and increasing the quality of construction work. With this study's findings in hand, construction engineering management in Malaysia's residential building sector might benefit from a deeper understanding of how 3D printing is used for improving environmental compliance, public health and safety, and project scope.
¶
36 References
- Abdalla Hadeer, Fattah Kazi, Abdallah Mohamed, Tamimi Adil (2021-10)
Environmental Footprint and Economics of a Full-Scale 3D Printed House - Adaloudis Max, Bonnin Roca Jaime (2021-05)
Sustainability Tradeoffs in the Adoption of 3D Concrete Printing in the Construction Industry - Alhumayani Hashem, Gomaa Mohamed, Soebarto Veronica, Jabi Wassim (2020-06)
Environmental Assessment of Large-Scale 3D Printing in Construction:
A Comparative Study between Cob and Concrete - Ali Md., Issayev Gani, Shehab Essam, Sarfraz Shoaib (2022-02)
A Critical Review of 3D Printing and Digital Manufacturing in Construction Engineering - Bedarf Patrick, Dutto Alessandro, Zanini Michele, Dillenburger Benjamin (2021-08)
Foam 3D Printing for Construction:
A Review of Applications, Materials, and Processes - Besklubova Svetlana, Skibniewski Mirosław, Zhang Xueqing (2021-02)
Factors Affecting 3D Printing Technology Adaptation in Construction - Cascone Paolo, Laddaga Maddalena, Forestiero Federico (2020-07)
Digital Construction:
3D Printing for Performative Houses - Ding Zhu, Wang Xiaodong, Sanjayan Jay, Zou Patrick et al. (2018-11)
A Feasibility Study on HPMC-Improved Sulphoaluminate Cement for 3D Printing - Florea Vitalie, Păuleţ-Crăiniceanu Fideliu, Luca Septimiu-George, Pastia Cristian (2020-10)
3D Printing of Buildings:
Limits, Design, Advantages and Disadvantages - Furet Benoît, Poullain Philippe, Garnier Sébastien (2019-04)
3D Printing for Construction Based on a Complex Wall of Polymer-Foam and Concrete - Han Yilong, Yang Zhihan, Ding Tao, Xiao Jianzhuang (2020-08)
Environmental and Economic Assessment on 3D Printed Buildings with Recycled Concrete - Hoffmann Marcin, Żarkiewicz Krzysztof, Zieliński Adam, Skibicki Szymon et al. (2021-05)
Foundation Piles:
A New Feature for Concrete 3D Printers - Holt Camille, Edwards Laurie, Keyte Louise, Moghaddam Farzad et al. (2019-02)
Construction 3D Printing - Hossain Md., Zhumabekova Altynay, Paul Suvash, Kim Jong (2020-10)
A Review of 3D Printing in Construction and Its Impact on the Labor Market - Ji Guangchao, Ding Tao, Xiao Jianzhuang, Du Shupeng et al. (2019-05)
A 3D Printed Ready-Mixed Concrete Power-Distribution Substation:
Materials and Construction Technology - Kazemian Ali, Khoshnevis Behrokh (2021-08)
Real-Time Extrusion-Quality-Monitoring-Techniques for Construction 3D Printing - Kazemian Ali, Yuan Xiao, Cochran Evan, Khoshnevis Behrokh (2017-04)
Cementitious Materials for Construction-Scale 3D Printing:
Laboratory Testing of Fresh Printing Mixture - Lee Dongyoun, Kim Hakmin, Sim Joonhyeok, Lee Dongmin et al. (2019-04)
Trends in 3D Printing Technology for Construction Automation Using Text Mining - Marchment Taylor, Sanjayan Jay, Xia Ming (2019-03)
Method of Enhancing Inter-Layer Bond Strength in Construction-Scale 3D Printing with Mortar by Effective Bond Area Amplification - Markin Slava, Nerella Venkatesh, Schröfl Christof, Guseynova Gyunay et al. (2019-07)
Material-Design and Performance-Evaluation of Foam-Concrete for Digital Fabrication - Muthukrishnan Shravan, Kua Harn, Yu Ling, Chung Jacky (2020-05)
Fresh Properties of Cementitious Materials Containing Rice-Husk-Ash for Construction 3D Printing - Ngo Tuan, Kashani Alireza, Imbalzano Gabriele, Nguyen Quynh et al. (2018-02)
Additive Manufacturing (3D Printing):
A Review of Materials, Methods, Applications and Challenges - Pan Yifan, Zhang Yulu, Zhang Dakang, Song Yuying (2021-05)
3D Printing in Construction:
State of the Art and Applications - Sayegh Sameh, Romdhane Lotfi, Manjikian Solair (2022-03)
A Critical Review of 3D Printing in Construction:
Benefits, Challenges, and Risks - Shahzad Qamar, Shen Junyi, Naseem Rabia, Yao Yonggang et al. (2021-10)
Influence of Phase-Change-Material on Concrete Behavior for Construction 3D Printing - Subrin Kévin, Bressac Thomas, Garnier Sébastien, Ambiehl Alexandre et al. (2018-09)
Improvement of the Mobile Robot Location Dedicated for Habitable House Construction by 3D Printing - Sun Jingting, Xiao Jianzhuang, Li Zhengrong, Feng Xiwen (2021-03)
Experimental Study on the Thermal Performance of a 3D Printed Concrete Prototype Building - Tan Kang (2018-09)
The Framework of Combining Artificial Intelligence and Construction 3D Printing in Civil Engineering - Tay Yi, Panda Biranchi, Paul Suvash, Mohamed Nisar et al. (2017-05)
3D Printing Trends in Building and Construction Industry:
A Review - Tho Tuong, Thinh Nguyen (2021-01)
Using a Cable-Driven Parallel Robot with Applications in 3D Concrete Printing - Ting Guan, Tay Yi, Tan Ming (2021-04)
Experimental Measurement on the Effects of Recycled Glass-Cullets as Aggregates for Construction 3D Printing - Tobi A., Omar S., Yehia Z., Al-Ojaili S. et al. (2018-03)
Cost Viability of 3D Printed House in UK - Verian Kho, Kowaleski Scott, Carli Matthew, Bright Randall et al. (2020-02)
Properties of 3D Printing Mortar with the Development of a 3D Construction Printing Delivery System - Xu Zhen, Song Tao, Guo Shuai, Peng Jiangtao et al. (2021-10)
Robotics Technologies Aided for 3D Printing in Construction:
A Review - Xu Xuchu, Wang Ruoyu, Cao Qiming, Feng Chen (2020-10)
Towards 3D-Perception and Closed-Loop-Control for 3D Construction Printing - Yang Hongxiong, Chung Jacky, Chen Yuhong, Li Yijia (2018-06)
The Cost Calculation Method of Construction 3D Printing Aligned with Internet of Things
6 Citations
- Dragomir Mihai, Salem Tareq, Dragomir Diana, Hedjazi Lofti et al. (2025-07)
Design Validation in Construction Project Management Using 3D Printing - Jalil Siti Nur Natasha Abdul, Rizal Alias Ahmad, Alias Aizat (2025-06)
Challenges and Strategies in Implementing 3D Concrete Printing (3DCP) Technology in Malaysia:
Materials and Design Codes - Oladunni Oluwole, Lee Carman, Ibrahim Idowu, Olanrewaju Oludolapo (2025-03)
Advances in Sustainable Additive Manufacturing:
A Systematic Review for Construction Industry to Mitigate Greenhouse Gas Emissions - Minde Pravin, Patil Jagruti (2025-03)
A Comprehensive Review of Factors Affecting 3D Printing Technology Adaptation in the Indian Construction Sector - Melcher Grace, Rauch Andy, Yashar Melodie, Ballard Jason (2024-08)
3D Printing ICONs Cosmic Pavilion:
A Case Study in Cementitious Extrusion of Unsupported Cantilevers - Latorraca Tássia, Guimarães Ana, Rangel Bárbara (2024-03)
Bibliometric Analysis of Personalized 3D Printed Concrete-Based Modules for Construction:
Leveraging the Ordinatio Method
BibTeX
@article{waqa_othm_poma.2023.Io3PotOPSoRCPUSEM,
author = "Ahsan Waqar and Idris Othman and Juan Carlos Pomares",
title = "Impact of 3D Printing on the Overall Project Success of Residential Construction Projects Using Structural Equation Modelling",
doi = "10.3390/ijerph20053800",
year = "2023",
journal = "International journal of environmental research and public health",
volume = "20",
number = "5",
}
Formatted Citation
A. Waqar, I. Othman and J. C. Pomares, “Impact of 3D Printing on the Overall Project Success of Residential Construction Projects Using Structural Equation Modelling”, International journal of environmental research and public health, vol. 20, no. 5, 2023, doi: 10.3390/ijerph20053800.
Waqar, Ahsan, Idris Othman, and Juan Carlos Pomares. “Impact of 3D Printing on the Overall Project Success of Residential Construction Projects Using Structural Equation Modelling”. International Journal of Environmental Research and Public Health 20, no. 5 (2023). https://doi.org/10.3390/ijerph20053800.