Constance Gnanasagaran

Contact

Email: constance.g@kingston.ac.uk
Location: Roehampton Vale
Faculty: Faculty of Engineering, Computing and the Environment
School: School of Engineering and the Environment
Department: Department of Mechanical Engineering

About

Hello there,

I am a Chartered Engineer and Senior Lecturer in Mechanical Engineering in the School of Engineering and the Environment at Roehampton Vale. I joined Kingston University in September 2021. Prior to that I was teaching in Guildford College UK for 5 years. Before moving into UK in 2015, I spent over 7 years in various universities in Malaysia (Inti International University, Nilai University and Tenaga Nasional University) teaching Mechanical Engineering, primarily for undergraduates.

My area of expertise are Materials, Mechanics, Manufacturing, Structures and Project Management. Currently at Kingston University I teach modules involving these areas at all levels of study from Level 3 up to MSc.

My passion lies in research and I have several ongoing work in the area of Tissue Engineering (Biomaterials). These include generation of tissue engineering scaffolds, calcination & study of animal bones and rapid prototyping (3D printing) of implantable materials particularly for Orthopaedic applications. Currently I am also working on computational simulations of engineered bone scaffolds for accelerated healing process, and advanced composites.

I am a board member of the Biomedical Division of IMechE UK and a mentor in the Women in Engineering Society, UK.

Academic responsibilities

Senior Lecturer in Mechanical Engineering

Qualifications

MSc Mechanical Engineering (Uniten, Malaysia)
Bachelor of Mechanical Engineering (Hons.) (Uniten, Malaysia)
FHEA
CEng MIMechE
DTTLS

Teaching and learning

I teach Mechanics of Materials, Engineering Materials, Selection and Application of Materials, Project Management, Mechanical Design Processes, Sustainability and Entrepreneurship.

Qualifications and expertise

Material Science and Engineering
Biomaterials
Mechanics of Materials
Additive Manufacturing
Dynamics
Project Management / Agile Project Management
Quality Management and Control
Sustainability in Engineering and Design
Tissue Engineering and Regenerative Medicine

Undergraduate courses taught

Postgraduate courses taught

Research

My research interest are following :

Tissue engineering and regenerative medicine
Biomaterials/Biocomposites
Additive manufacturing of tissue engineering scaffolds
Mechanical and rheological properties of engineering biomaterials
Multiscale modeling/computational modeling/molecular dynamics

Advanced composites
Automated composite lay-up
Advanced composite manufacturing
Sustainability, life cycle assessment and bio-composites.
Waste based composites

So far, I am leading 3 grants which are the Kickstarter grant - £9.9k, Research Capital Fund (RCF) worth £39k and Women in Science and Health fund worth £7700. I am also co-investigating in BIG Hot House Project worth £30k.All these funding focuses on Tissue Engineering, Advanced Ceramics and Composites.

Qualifications and expertise

MSc Mechanical Engineering (Engineering Ceramics)
Material Science and Engineering

Areas of specialism

Additive Manufacturing (3D Printing)
Rapid Prototyping
Biomaterials and Bioengineering
Implantable Materials (Bone and Dental Grafts)
Tissue Engineering and Regenerative Medicine

Scholarly affiliations

Department of Chemical and Pharmaceutical Sciences, Kingston University London
Universiti Kebangsaan Malaysia (The National University of Malaysia)
Teesside University
University of Hull, UK
Ulster University, UK
Universiti Tun Hussein Onn, Malaysia
Universiti Tenaga Nasional, Malaysia

Publications

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Number of items: 12.

Article

An, Xinyi, Chong, Perk Lin, Zohourkari, Iman, Roy, Sandipan, Merdji, Ali, Gnanasagaran, Constance Linda, Faraji, Foad, Moey, Lip Kean and Yazdi, Mohammad Hossein (2023) Mechanical influence of tissue scaffolding design with different geometries using finite element study. Journal of Engineering in Medicine, ISSN (print) 0954-4119 (Epub Ahead of Print)

Ramachandran, Karthikeyan, Gnanasagaran, Constance L, Pazhani, Ashwath, Kumar, Vishaal Harikrishna, Xavior, M. Anthony, Subramani, R Ram and Arunkumar, T. (2023) Impact behaviour of MWCNTs reinforced YSZ and Al₂O₃ ceramic-nanocomposites prepared via vacuum hot-pressing technique. Journal of Materials Research and Technology, 24, pp. 6595-6603. ISSN (print) 2238-7854

Ramachandran, Karthikeyan, Gnanasagaran, Constance L, Subramani, R Ram, Boopalan, Vignesh and T, Arunkumar (2023) Influence of ceramic nanoparticles on fatigue life of Al 6061 prepared via ultrasonic aided rheo-squeeze casting process. Advances in Materials and Processing Technologies, ISSN (print) 2374-068X (Epub Ahead of Print)

Ramachandran, Karthikeyan, Gnanasagaran, Constance L and Vekariya, Ashish (2023) Life cycle assessment of carbon fiber and bio-fiber composites prepared via vacuum bagging technique. Journal of Manufacturing Processes, 89, pp. 124-131. ISSN (print) 1526-6125

Sabri, Ban Ali, Satgunam, Meenaloshini, Manap, A., Gnanasagaran, Constance L. and Ramachandran, Karthikeyan (2023) Physical and chemical investigation of TiO₂ nanotubes treated with isopropyl triisostearoyl titanate (KR-TTS). Journal of Nanomaterials, 2023, p. 7961857. ISSN (print) 1687-4110

Gnanasagaran, Constance Linda, Ramachandran, Karthikeyan, Ramesh, S., Ubenthiran, Sutharsini and Jamadon, Nashrah Hani (2022) Effect of co-doping manganese oxide and titania on sintering behaviour and mechanical properties of alumina. Ceramics International, ISSN (print) 0272-8842 (Epub Ahead of Print)

Linda, C., Meenaloshini, S., Zaimah, H. and Noor Zaimah, M. (2014) An analysis on the implementation of industrial training for mechanical engineering students in Uniten. International Journal of Asian Social Science, 4(5), pp. 664-669. ISSN (print) 2226-5139

Conference or Workshop Item

Gnanasagaran, Constance (2023) Degradation, bioactivity and cytotoxicity evaluation of polyhydroxyalkanoate (PHA) reinforced with nano-calcium phosphate (nCaP) and chitosan for bone regeneration. In: 3rd Edition of International Conference on Tissue Engineering and Regenerative Medicine; 21-23 Aug 2023, London, U.K.. (Unpublished)

Gnanasagaran, Constance, Ramachandran, Karthikeyan and Chong, Perk Lin (2023) Influence of infill patterns on mechanical properties of 3D printed ceramics Al₂O₃ via fused deposition modelling for biomedical applications. In: UK Society for Biomaterials (UKSB) Annual Conference 2023; 20-21 Jun 2023, Belfast, Northern Ireland. U.K.. (Unpublished)

Gnanasagaran, C., Ramesh, S., Ibrahim, Zunaidi and Sutharsini, U. (2021) Sintering behaviour of alumina doped with small amounts of manganese and titania. In: 8th Brunei International Conference on Engineering and Technology 2021 (BICET 2021); 08-10 Nov 2021, Brunei Darussalam (held online).

Linda, Constance, Long, Chua Yaw, Tiong, Tay Tee and Yan, Koh Yit (2016) Overview of peer review assessment for mechanical design process project in Universiti Tenaga Nasional, Malaysia. In: SEAAIR 2016 16th Annual Conference; 21-23 September 2016, Suan Dusit University, Thailand.. (Submitted)

Constance, L., Ramesh, S., Ting, C.H. and Tan, C.Y (2009) Effect of sintering additives on the properties of alumina ceramic. In: National Postgraduate Conference on Engineering, Science & Technology NPC2009; 25-26 March 2009, Perak, Malaysia.. (Unpublished)

This list was generated on Wed Sep 13 06:51:49 2023 BST.

Business, knowledge transfer and international

One of the most powerful models of learning in my opinion is the Bloom's Taxonomy. This is particularly useful as my teaching styles involves a lot of problem based approach. I deliver this through group discussions, projects, research works and debates to name a few. I usually collect work samples from the workshops, especially the faulty ones as a teaching resource. Using the Bloom's Taxonomy as a reference, I always start the teaching process with a basic question, which may relate to the recent topics that I would have covered in a lesson. From there, I will try and scaffold the learners to a more deeper learning, covering each stage of the taxonomy. This allows all my learners to engage in the lesson more effectively as active discussions are always something that learners can anticipate in my classroom. This encourages surface learners to dig a little deeper into a topic, and the higher level learners to challenge themselves even more. Bloom's Taxonomy have proved time and time again that it encourages creative thinking to encourage innovation amongst the learners, especially those who are about to graduate. It hinders learners from being in complacency with what they already know and helps them to keep weaving through the knowledge to a stage of continuous learning and improvement. This attitude is extremely important for engineering graduates and it is one of the most valued attribute by the industry as well.

Qualifications and PROFESSIONAL expertise

Level 5 C&G Diploma in Education and Training
FHEA
CEng MIMechE

Areas of interest

Research
Teaching & Learning

Industry links

UKM Malaysia
UM Malaysia
Centre for Tissue Engineering and Regenerative Medicine, PPUKM, Malaysia

Professional practice, knowledge exchange and impact

Qualifications and expertise

FHEA
Diploma in Education and Training - DTLLS (C&G)

Professional and scholarly affiliations

Board Member of the Biomedical Research Division IMechE
Member of Women in Engineering Society UK
Member of UK Society for Biomaterials

Leadership and management

Qualifications and expertise

Chartered Member of the Institution of Mechanical Engineer (CEng)
FHEA

University responsibilities

Module Leader - EG5014 Engineering Project Management
Module Leader - ME7745 Quality Management
Research Lead - Tissue Engineering

Public and CIVIC roles

Mentor - Women in the Engineering Society