Harjot S Grewal scite author profile

Harjot S Grewal

3Publications

24Citation Statements Received

84Citation Statements Given

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110

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San Jose State University, Mississippi State University

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Water soluble, chiral, verdazyl radicals derived from aldoses

Grewal

Changoco

et al. 2016

Tetrahedron

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Graphical AbstractAbstract Condensation of 2,4-diisopropylcarbonobis(hydrazide) bis-hydrochloride with a series of aldoses gives rise to tetrazanes that can be oxidized with potassium ferricyanide to give stable verdazyl radicals in good yield. The radicals are stable under ambient conditions, and are soluble in water and polar organic solvents. Aqueous solutions are stable over a range of both acidic and basic pH and do not react significantly with ascorbic acid or hydrogen peroxide. The radicals quench fluorescence from long lived fluorophores such as pyrene, or when there is an association between the radicals and the fluorophore.These radicals thus provide the foundations of a new series of radical probes and fluorescence quenchers.

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Image-based analysis and simulation of the effect of platelet storage temperature on clot mechanics under uniaxial strain

Lee

Nguyen

Grewal

et al. 2019

Biomech Model Mechanobiol

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Plasticity and Fracture Modeling/Experimental Study of a Porous Metal Under Various Strain Rates, Temperatures, and Stress States

Allison

Grewal

Hammi

et al. 2013

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A microstructure-based internal state variable (ISV) plasticity-damage model was used to model the mechanical behavior of a porous FC-0205 steel alloy that was procured via a powder metal (PM) process. Because the porosity was very high and the nearest neighbor distance (NNDj for the pores was close, a new pore coalescence ISV equation was introduced that allows for enhanced pore growth from the concentrated pores. This coalescence equation effectively includes the local stress interaction within the interpore ligament distance between pores and is physically motivated with these highly porous powder metals. Monotonie tension, compression, and torsion tests were performed at various porosity levels and temperatures to obtain the set of plasticity and damage constants required for model calibration. Once the model calibration was achieved, then tension tests on two different notch radii Bridgman specimens were undertaken to study the damage-triaxiality dependence for model validation. Fracture surface analysis was performed using scanning electron microscopy (SEM) to quantify the pore sizes of the different specimens. The validated model was then used to predict the component performance of an automotive PM bearing cap. Although the microstructure-sensitive ISV model has been employed for this particular FC-0205 steel, the model is general enough to be applied to other metal alloys as well.

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Harjot S Grewal

Water soluble, chiral, verdazyl radicals derived from aldoses

Image-based analysis and simulation of the effect of platelet storage temperature on clot mechanics under uniaxial strain

Plasticity and Fracture Modeling/Experimental Study of a Porous Metal Under Various Strain Rates, Temperatures, and Stress States

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