2026 Chris D. Rudd: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	54	8991	8684	269	267	255	9205

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

8991

8684

269

267

255

9205

Overview

Chris D. Rudd is affiliated with James Cook University in Australia and has conducted extensive research primarily in the fields of Engineering and Materials Science. Their scholarly work focuses on several specialized subfields including Mechanical Engineering, Biomedical Engineering, Polymers and Plastics, Mechanics of Materials, and Automotive Engineering.

Their research covers a range of key topics such as:

Fiber-reinforced polymer composites
Mechanical Behavior of Composites
Natural Fiber Reinforced Composites
Acoustic Wave Phenomena Research
Additive Manufacturing and 3D Printing Technologies
Cellular and Composite Structures
Advanced Sensor and Energy Harvesting Materials

Chris D. Rudd has contributed to academic literature with notable publications, including:

"Vibration transmission and power flow of laminated composite plates with inerter-based suppression configurations" (2020), published in International Journal of Mechanical Sciences
"Comprehensive investigation of reclaimed carbon fibre reinforced polyamide (rCF/PA) filaments and FDM printed composites" (2022), published in Composites Part B Engineering
"Recovery of Carbon Fibre from Waste Prepreg via Microwave Pyrolysis" (2021), published in Polymers
"The effect of waterborne polyurethane coating on the mechanical properties of epoxy-based composite containing recycled carbon fibres" (2021), published in Surfaces and Interfaces
"A pre-screening study of honeycomb sandwich structure filled with green materials for noise reduction" (2022), published in Composites Part A Applied Science and Manufacturing

Their work has been disseminated across multiple venues, with frequent publications in:

Polymers
Composites Science and Technology
Journal of Physics Conference Series
International Journal of Mechanical Sciences
Composites Part B Engineering

Collaboration is a notable aspect of this researcher's career. Their frequent co-authors include:

Xiaoling Liu
Xiaosu Yi
Xiaoye Cong
Zhao Liu
Chenhao Dong

Best Publications

Corrosion resistance of zinc–magnesium coated steel

N.C. Hosking;N.C. Hosking;M.A. Ström;P.H. Shipway;C.D. Rudd

500
Citations
A fluidised-bed process for the recovery of glass fibres from scrap thermoset composites

S.J. Pickering;R.M. Kelly;J.R. Kennerley;C.D. Rudd

484
Citations
Liquid Moulding Technologies

C D Rudd;A C Long;K N Kendall;C G E Mangin

338
Citations
Analysis of the vacuum infusion moulding process: I. Analytical formulation

N.C. Correia;F. Robitaille;A.C. Long;C.D. Rudd

289
Citations
Characterisation of carbon fibres recycled from scrap composites using fluidised bed process

H. L. H. Yip;S. J. Pickering;C. D. Rudd

215
Citations
Microwave heating as a means for carbon fibre recovery from polymer composites: a technical feasibility study

Edward Lester;Sam Kingman;Kok Hoong Wong;Chris Rudd

202
Citations
Physico-chemical and mechanical properties of nanocomposites prepared using cellulose nanowhiskers and poly(lactic acid)

Kazi M. Zakir Hossain;Ifty Ahmed;Andrew J. Parsons;Colin A. Scotchford

169
Citations
The characterisation and reuse of glass fibres recycled from scrap composites by the action of a fluidised bed process

J.R. Kennerley;R.M. Kelly;N.J. Fenwick;S.J. Pickering

161
Citations
Recycled carbon fibre reinforced polymer composite for electromagnetic interference shielding

K.H. Wong;S.J. Pickering;C.D. Rudd

159
Citations
Surface characterisation of carbon fibre recycled using fluidised bed

G. Jiang;S.J. Pickering;G.S. Walker;K.H. Wong

156
Citations
Compression moulding of glass and polypropylene composites for optimised macro- and micro- mechanical properties - 1. commingled glass and polypropylene

M.D. Wakeman;T.A. Cain;C.D. Rudd;R. Brooks

140
Citations
A Simulation of Reinforcement Deformation during the Production of Preforms for Liquid Moulding Processes

A C Long;C D Rudd

132
Citations
Experimental characterisation of the consolidation of a commingled glass/polypropylene composite

A.C. Long;C.E. Wilks;C.D. Rudd

131
Citations
Comparisons of novel and efficient approaches for permeability prediction based on the fabric architecture

C.C. Wong;A.C. Long;M. Sherburn;F. Robitaille

129
Citations
Preparation of poly(ε-caprolactone)/continuous bioglass fibre composite using monomer transfer moulding for bone implant

G. Jiang;M.E. Evans;I.A. Jones;C.D. Rudd

123
Citations
Mechanical properties of weft knit glass fibre/polyester laminates

C.D Rudd;M.J Owen;V Middleton

120
Citations
The effect of shear deformation on the processing and mechanical properties of aligned reinforcements

P. Smith;C.D. Rudd;A.C. Long

115
Citations
Physical and biocompatibility properties of poly-ε-caprolactone produced using in situ polymerisation: a novel manufacturing technique for long-fibre composite materials

T.J. Corden;I.A. Jones;C.D. Rudd;P. Christian

111
Citations
Weight loss, ion release and initial mechanical properties of a binary calcium phosphate glass fibre/PCL composite.

I. Ahmed;A.J. Parsons;G. Palmer;J.C. Knowles

110
Citations
Development of fire retardancy of natural fiber composite encouraged by a synergy between zinc borate and ammonium polyphosphate

Pooria Khalili;Xiaoling Liu;Kim Yeow Tshai;Chris Rudd

110
Citations
Characterizing the processing and performance of aligned reinforcements during preform manufacture

A.C. Long;C.D. Rudd;M. Blagdon;P. Smith

106
Citations