S
S. J. Jung
Researcher at University of Idaho
Publications - 21
Citations - 257
S. J. Jung is an academic researcher from University of Idaho. The author has contributed to research in topics: Acoustic emission & Ultimate tensile strength. The author has an hindex of 8, co-authored 20 publications receiving 219 citations.
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Mechanical properties of fire-retardant glass fiber-reinforced polymer materials with alumina tri-hydrate filler
TL;DR: In this article, the effect of ATH filler on mechanical properties of Glass FRP (GFRP) material, based on compression, tension, shear and flexural test results from three types of GFRP materials with the amount of 0% (control), 25%, and 50% (ATH filler by weight of the resin).
Journal ArticleDOI
Prediction of rock hardness and drillability using acoustic emission signatures during indentation
S. J. Jung,Keith Prisbrey,G Wu +2 more
TL;DR: In this paper, the authors reported that there was a certain relation between the indentation hardness of rock and the AE parameters, such as accumulated number of events, peak RMS and integrated RMS.
Journal ArticleDOI
Review of current high density paste fill and its technology
S. J. Jung,Kousick Biswas +1 more
TL;DR: Backfilling techniques are widely used in large-scale underground mines as discussed by the authors, where waste rock was used to fill the openings left by mining operations, and hydraulic filling with Portland cement has shown considerable promise, but little has been done to define the parameters for an effective design.
Prediction of Rock Hardness And Drillability Using Acoustic Emission
TL;DR: In this paper, the authors reported that there was a certain relation between the indentation hardness of rock and the AE parameters, such as accumulated number of events, peak RMS and integrated RMS.
Journal ArticleDOI
Development and Evaluation of Hot Mix Asphalt Stability Index
Ahmad M. Abu Abdo,Fouad Bayomy,Richard J. Nielsen,Thomas J. Weaver,S. J. Jung,Michael J Santi +5 more
TL;DR: The gyratory stability index (GS) as discussed by the authors is calculated from compaction data by summing the cumulative energies dissipated in the compaction of a gyratorial sample.