The School of Mechanical & Aerospace Engineering (MAE) is a robust, dynamic and multi-disciplinary international research community comprising of world-class scientists and bright students. MAE prides itself in its excellent research capabilities in areas including advanced manufacturing, aerospace, biomedical, energy, industrial engineering, maritime engineering, robotics, etc. The school is equipped with state-of-the-art research infrastructure, housing a comprehensive range of cluster laboratories, test bedding facilities, research centres/institutes and corporate laboratories. Cutting-edge research in MAE addresses the immediate needs of our industries and supports the nation’s long-term development strategies. In the new era of industrial 4.0 and sustainable living, MAE is rigorous in developing new competencies to support the growth and competitiveness of our engineering sector in the global landscape. MAE has grown to be leader in Engineering Research, ranking amongst the top engineering schools in the world.
For more details, please view https://www.ntu.edu.sg/mae/research.
We are looking for a Project Officer to support the research, development, and implementation of 3D construction printing technologies for sustainable building components. This role will contribute directly to NTU’s mission of advancing innovative, energy-efficient, and low-carbon construction solutions for the built environment.
The role will focus on material development, printability assessment, experimental testing, and prototype fabrication using 3D concrete printing systems, as well as supporting data collection, analysis, and documentation required for achieving improved energy performance and reduced environmental footprint in construction applications. The Project Officer will also work closely with the research team to translate laboratory findings into practical, scalable building solutions.
Key Responsibilities:
Support the development and optimisation of 3D-printable sustainable building materials, including mix design formulation, rheology evaluation, and printability assessment.
Conduct experimental testing and data collection related to material performance, energy efficiency, and environmental impact of printed components.
Operate and maintain 3D construction printing equipment, ensuring safe, consistent, and high-quality printing of research prototypes.
Assist in the design, fabrication, and evaluation of printed building elements, including structural and thermal performance studies.
Analyse experimental results and prepare technical documentation, including test reports, standard operating procedures, research journals paper, conference papers and research summaries.
Support the implementation of sustainability assessment methods such as life cycle considerations.
Work closely with researchers and students to ensure smooth execution of project milestones and deliverables.
Contribute to the preparation of project presentations, publications, and grant documentation where required.
Ensure laboratory safety, equipment upkeep, and adherence to research protocols during all project activities.
Job Requirements:
Education Qualifications
Bachelor’s degree in Civil Engineering, Materials Science, Mechanical Engineering, Construction Technology, or a related field.
Soft Skills
Strong problem-solving skills with the ability to work independently and proactively.
Good communication skills for effective coordination with researchers, students, and industry partners.
Strong sense of responsibility, reliability, and ability to manage multiple tasks and deadlines.
Adaptability and willingness to learn new tools, processes, and technologies.
Hard Skills
Knowledge of cementitious materials, concrete technology, or materials characterisation techniques.
Hands-on experience with laboratory testing (e.g., rheology, mechanical testing, mix design preparation).
Familiarity with AI or data-driven tools, such as:
machine learning for prediction/modelling,
data analytics for material/printing optimisation, or
AI-assisted design tools (e.g., generative design, parametric modelling).
Basic proficiency in engineering and data software (e.g., Python, MATLAB, AutoCAD, Rhino/Grasshopper).
Understanding of sustainability concepts (LCA) is beneficial.
Experience
Prior experience in materials research, construction materials, or experimental laboratory work is preferred.
Experience with 3D printing (concrete or polymer-based) or digital fabrication workflows.
Experience in handling equipment, troubleshooting machinery, or supporting research projects is useful.
Competencies
Ability to conduct systematic experimental work with attention to accuracy and safety.
Competence in analysing and interpreting technical data and preparing clear documentation.
Ability to work collaboratively within a multidisciplinary research team.
Strong interest in sustainable construction and emerging construction technologies.
We regret to inform that only shortlisted candidates will be notified.
Hiring Institution: NTU