Dr. Kyungil Kong

Bristol Composite Institute

University of Bristol, UK

Email: kyungil.kong@bristol.ac.uk

Qualifications

2016 Ph.D., Ulsan National Institute of Science and Technology, South Korea, Mechanical Engineering

2011 M.D., Ulsan National Institute of Science and Technology, South Korea, Mechanical and Advanced Materials Engineering

2006 B.S., Pukyong National University, South Korea, Mechatronics

Publications (Selected)

1. Kyungil Kong*, Kirsten Dyer, Paul M. Weaver, Ian Hamerton, “Experimental characterisation and micromechanical models for luminescent phosphors incorporated with nonwoven veil-polymer composites”, Composites Part B, 202, 108444, (2020).
2. Byeong-Joo Kim, Sang-Hyup Cha, Kyungil Kong, Wooseok Ji, Hyung Wook Park, Young-Bin Park*, “Synergistic interfacial reinforcement of carbon fiber/polyamide 6 composites using carbon-nanotube-modified silane coating on ZnO-nanorod-grown carbon fiber”, Composites Science and Technology, 165, pp. 362-372, (2018).
3. Ankita Hazarika, Biplab K. Deka, Kyungil Kong, DoYoung Kim, Young-Woo Nam, Jae-Hun Choi, Chun-Gon Kim, Young-Bin Park, Hyung Wook Park*, “Microwave absorption and mechanical performance of α-MnO2 nanostructures grown on woven Kevlar fiber/reduced graphene oxide-polyaniline nanofiber array-reinforced polyester resin composites”, Composites Part B, 140, pp. 123-132, (2018).
4. Ankita Hazarika, Biplab K. Deka, DoYoung Kim, Kyungil Kong, Young-Bin Park, Hyung Wook Park*, “Microwave-synthesized freestanding iron-carbon nanotubes on polyester composites of woven Kevlar fibre and silver nanoparticle-decorated graphene”, Scientific Reports, 7, 40386, (2017).
5. Kyungil Kong, Obum Kwon, Hyung Wook Park*, “Enhanced mechanical and thermal properties of hybrid SnO2-woven carbon fiber composites using the facile controlled growth method”, Composites Science and Technology, 133, pp. 60-69, (2016).
6. Kyungil Kong, Ravi Kumar Cheedarala, Myungsoo Kim, Hyung-Doh Roh, Young-Bin Park, Hyung Wook Park*, “Electrical thermal heating and piezoresistive characteristics of hybrid CuO-woven carbon fiber/vinyl ester composite laminates”, Composites Part A, 85, pp. 103-112, (2016).
7. Dae Han Sung, Gu-Hyeok Kang, Kyungil Kong, Myungsoo Kim*, Hyung Wook Park, Young-Bin Park*, “Characterization of thermoelectric properties of multifunctional multiscale composites and fiber-reinforced composites for thermal energy harvesting”, Composites Part B, 92, pp. 202-209, (2016).
8. Myungsoo Kim, Dae Han Sung, Kyungil Kong, Nari Kim, Byeong-Joo Kim, Hyung Wook Park*, Young-Bin Park*, Mooyoung Jung, Sang Hwan Lee, Su Gi Kim, “Characterization of resistive heating and thermoelectric behavior of discontinuous carbon fiber-epoxy composites”, Composites Part B, 90, pp. 37-44, (2016).
9. Kyungil Kong, Biplab K. Deka, Jae Woo Seo, Young-Bin Park*, Hyung Wook Park*, “Effect of CuO nanostructure morphology on the mechanical properties of CuO/woven carbon fiber/vinyl ester composites”, Composites Part A, 78, pp. 48-59, (2015).
10. Kyungil Kong, Biplab K. Deka, Myungsoo Kim, Aeri Oh, Heejune Kim, Young-Bin Park*, Hyung Wook Park*, “Interlaminar resistive heating behavior of woven carbon fiber composite laminates modified with ZnO nanorods”, Composites Science and Technology, 100, pp. 83-91, (2014).
11. Kyungil Kong, Biplab K. Deka, Sang Kyu Kwak, Aeri Oh, Heejune Kim, Young-Bin Park*, Hyung Wook Park*, “Processing and mechanical characterization of ZnO/polyester woven carbon-fiber composites with different ZnO concentrations”, Composites Part A, 55, pp. 152-160, (2013).