Dr. Ang Li is currently a Research Assistant at Wilson College of Textiles, NC State University, USA. His research is centered around fiber and fabric formations for textile composites, high performance fibers, sustainable fibrous materials and functional nanomaterials. Dr. Li earned His Ph.D. Degree in Fiber and Polymer Science from Wilson College of Textiles, NC State University, in 2018. Throughout his career, Dr. Li has published numerous peer-reviewed articles in reputable journals such as Carbon, Composites Part A, Composites Part B and Nanoscale, contributing to the advancement of functional composites and nanomaterial fields. He has also published and presented his research findings at various international conferences. His Ph.D. research laid the critical groundwork for the materialization of a new generation of high-altitude airship hull material and facilitated the acquisition of one patent. His most recent project is on establishing a viable approach to convert agricultural wastes to textile fibers, further expanding his research interests into sustainability-driven initiatives and solutions.
2024 journal article
Assessment of Adhesion in Woven Fabric-Reinforced Laminates (FRLs) Using Novel Yarn Pullout in Laminate Test
JOURNAL OF COMPOSITES SCIENCE, 8(7).
2024 journal article
Development of Eco-Friendly Soy Protein Fiber: A Comprehensive Critical Review and Prospects
Fibers, 12(4), 31.
2022 article
Bit-GraphBLAS: Bit-Level Optimizations of Matrix-Centric Graph Processing on GPU
2022 IEEE 36TH INTERNATIONAL PARALLEL AND DISTRIBUTED PROCESSING SYMPOSIUM (IPDPS 2022), pp. 515–525.
2022 journal article
Coir Fibers and Micronized Rubber Modified Asphalt Binder
Journal of Textile & Apparel Technology & Management (JTATM, 12, 1.
2022 journal article
Development of hull material for high-altitude airship: A parametric study
Journal of Reinforced Plastics and Composites, 41(11-12), 444–458.
2022 journal article
Investigating the Aeroacoustic Properties of Porous Fabrics
AIAA Journal, 60(6), 3651–3660.
2021 journal article
Cellulose Microfibril and Micronized Rubber Modified Asphalt Binder
FIBERS, 9(4).
2021 journal article
Ultra-lightweight fiber-reinforced envelope material for high-altitude airship
The Journal of The Textile Institute, 113(9), 1799–1805.
2020 journal article
High temperature carbon nanotube - Nanofiber hybrid filters
SEPARATION AND PURIFICATION TECHNOLOGY, 236.
2019 article
A lighter-than-air vehicle with a hull, a laminate for such hull and a method of production of such laminate
2019 report
A lighter-than-air vehicle with hull, a laminate, for such hull and a method of production of such laminate
(Patent No. DK 179553 B1).
2019 journal article
Textile Laminates for High-altitude Airship Hull Materials-a review.
Journal of Textile & Apparel Technology & Management (JTATM), 11(1).
2018 journal article
In-situ monitoring of woven glass fiber reinforced composites under flexural loading through embedded aligned carbon nanotube sheets
Journal of Composite Materials, 52(20), 2777–2788.
2017 journal article
Compressive piezoresistive behavior of carbon nanotube sheets embedded in woven glass fiber reinforced composites
COMPOSITES PART B-ENGINEERING, 116, 459–470.
Contributors: K. Aly n , n & P. Bradford n
2017 journal article
Enhanced anisotropic response of dielectric elastomer actuators with microcombed and etched carbon nanotube sheet electrodes
CARBON, 120, 366–373.
2016 journal article
Strain sensing in composites using aligned carbon nanotube sheets embedded in the interlaminar region
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING, 90, 536–548.
Contributors: K. Aly n , n & P. Bradford n
2016 journal article
Strain sensing in composites using aligned carbon nanotube sheets embedded in the interlaminar region Part A Applied science and manufacturing
2015 article
Aligned carbon nanotube sheet piezoresistive strain sensors
Li, A., Bogdanovich, A. E., & Bradford, P. D. (2015, September). SMART MATERIALS AND STRUCTURES, Vol. 24.
2015 journal article
Aligned carbon nanotube sheet piezoresistive strain sensors
Smart Materials and Structures, 24(9), 095004.
2015 report
Multifunctional Shear Pressed CNT Sheets for Strain Sensing and Composite Joint Toughening
NORTH CAROLINA STATE UNIV AT RALEIGH.
2015 conference paper
Strain Sensing in Fiberglass Textile Composites and Joints Using Carbon Nanotube Sheets
12th International Conference on Textile Composites. Presented at the 12th International Conference on Textile Composites, Raleigh, NC, USA.
Event: 12th International Conference on Textile Composites at Raleigh, NC, USA on May 26-29, 2015
2015 journal article
Ultralight anisotropic foams from layered aligned carbon nanotube sheets
NANOSCALE, 7(40), 17038–17047.
journal article
STRAIN SENSING IN FIBERGLASS TEXTILE COMPOSITES AND JOINTS USING CARBON NANOTUBE SHEETS
Li, A., Stahl, J., Bogdanovich, A., & Bradford, P. D.
journal article
Strain and Damage Sensing in Composites via Embedded CNT Sheets
Aly, K., Li, A., & Bradford, P. D.
Updated: August 6th, 2024 08:29
2024 - present
2018 - 2024
Updated: April 28th, 2024 19:51
2014 - 2018
2012 - 2014
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