M
Mahsa Modiri Gharehveran
Researcher at Purdue University
Publications - 11
Citations - 763
Mahsa Modiri Gharehveran is an academic researcher from Purdue University. The author has contributed to research in topics: Carbonyl sulfide & Sulfur. The author has an hindex of 5, co-authored 9 publications receiving 449 citations.
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Morphology, rheology, and physical properties of polymer-modified asphalt binders
TL;DR: In this article, a review on the techniques used to overcome/mitigate the shortcomings of conventional polymer-modified asphalt binders is provided, and a review of the effects of various types of polymers used in asphalt industry and their effects on the rheological, morphological, physical and mechanical properties of polymer modified asphalt binder are also discussed.
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Prediction of the compressive strength of normal and high-performance concretes using M5P model tree algorithm
TL;DR: The results show that M5P model tree can be a better alternative approach for prediction of the compressive strength of NC and HPC using the amount of constituents of concrete as input parameters.
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Effects of copper slag and recycled concrete aggregate on the properties of CIR mixes with bitumen emulsion, rice husk ash, Portland cement and fly ash
TL;DR: In this article, the feasibility of the use of copper slag and recycled concrete aggregate (RCA) as substitutes for virgin aggregates in modifying the gradation of cold recycled mixes made with RAP material was investigated.
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Evaluation of the splitting tensile strength in plain and steel fiber-reinforced concrete based on the compressive strength
TL;DR: In this article, the authors presented non-linear regression analysis, artificial neural network (ANN), SVM, and M5′ model tree (MT) techniques to predict the tensile strength of concretes made with and without steel fiber reinforcement.
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Indirect Photochemical Formation of Carbonyl Sulfide and Carbon Disulfide in Natural Waters: Role of Organic Sulfur Precursors, Water Quality Constituents, and Temperature.
TL;DR: Important factors in forming COS and CS2 were identified, which may ultimately impact their atmospheric concentrations, and they were strongly affected by the DOC concentration, organic sulfur precursor type, O2 concentration, and temperature.