Josue A. Goss Data-verified

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

High Impact

Researcher

University of Arkansas

Last publication 2024 Last refreshed 2026-05-16

faculty

22 h-index 38 pubs 3,438 cited

Research Areas

Links

Lab Website

OverviewAI-generated summary

Josue A. Goss's research focuses on the tribological properties of surfaces, particularly in the context of friction reduction and performance enhancement. His work investigates bioinspired surface designs, such as those mimicking cartilage, for applications in orthopedic implants and piston ring-liner interfaces. Goss also explores the impact of spray process parameters on graphite coatings, examining their morphology, thickness, and tribological characteristics.

His research further delves into the frictional properties of core-shell nanostructure-textured surfaces, analyzing the dependence on test parameters and materials, including aluminum and diamond-like carbon. Goss has also contributed to the study of nanocomposite coatings, specifically improving the tribological performance of PDA + PTFE nanocomposite coatings through hot compaction.

With an h-index of 22 and over 3,300 citations across 38 publications, Goss is recognized as a highly cited researcher. He collaborates with other faculty members at the University of Arkansas at Fayetteville, including Min Zou and Xiangbo Meng, and maintains an active laboratory website.

Metrics

h-index: 22
Publications: 38
Citations: 3,438

Selected Publications

Exploring the Impact of Spray Process Parameters on Graphite Coatings: Morphology, Thickness, and Tribological Properties (2024)

8 citations DOI OpenAlex
Cartilage-inspired surface textures for improved tribological performance of orthopedic implants (2022)

6 citations DOI OpenAlex
Effects of Test Parameters on the Frictional Properties of Al/Diamond-Like Carbon Core-Shell Nanostructure-Textured Surfaces (2022)

1 citation DOI OpenAlex
Test parameter and material dependence of the frictional properties of core-shell nanostructure textured surfaces (2022)

3 citations DOI OpenAlex
Closure to “Discussion—Fabrication and Testing of Bioinspired Surface Designs for Friction Reduction at the Piston Ring and Liner Interface” (Maddox, S. R., Gangopadhyay, A., Ghaednia, H., Cai, J., Han, X., Meng, X., Goss, J. A., and Zou, M., 2021, ASME J. Tribol., 143(5), p. 051109) (2021)

DOI OpenAlex
Improving the Tribological Performances of PDA + PTFE Nanocomposite Coatings by Hot Compaction (2021)

3 citations DOI OpenAlex
Fabrication and Testing of Bioinspired Surface Designs for Friction Reduction at the Piston Ring and Liner Interface (2021)

9 citations DOI OpenAlex