E
E. V. Esquivel
Researcher at University of Texas at El Paso
Publications - 23
Citations - 1254
E. V. Esquivel is an academic researcher from University of Texas at El Paso. The author has contributed to research in topics: Carbon nanotube & Combustion. The author has an hindex of 14, co-authored 23 publications receiving 1134 citations.
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Journal ArticleDOI
Microstructures and mechanical properties of electron beam-rapid manufactured Ti–6Al–4V biomedical prototypes compared to wrought Ti–6Al–4V
Lawrence E Murr,E. V. Esquivel,Stella Quinones,Sara M. Gaytan,M.I. Lopez,E. Martinez,Francisco Medina,D.H. Hernandez,E. Martinez,J.L. Martinez,S.W. Stafford,D. Brown,T. Hoppe,W. Meyers,U. Lindhe,Ryan B. Wicker +15 more
TL;DR: In this paper, an exploratory characterization and comparison of electron-beam melted (EBM) or rapid manufacturing (RM) of Ti-6Al-4V components (from nominal 30mm diameter powder) with wrought products is presented.
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Carbon Nanotubes, Nanocrystal Forms, and Complex Nanoparticle Aggregates in common fuel-gas combustion sources and the ambient air
TL;DR: In this article, the potential for methane-series gas burning as major sources of carbon nanocrystal aggregates in both the indoor and outdoor air was examined with a degree of speculation regarding any significance in the correlations.
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Observations of common microstructural issues associated with dynamic deformation phenomena: Twins, microbands, grain size effects, shear bands, and dynamic recrystallization
Lawrence E Murr,E. V. Esquivel +1 more
TL;DR: In this paper, the authors have shown that shear deformation twins and microbands are also precursors to deformation deformation faults in alloys and alloys with high stacking-fault free energy.
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Chemistry and nanoparticulate compositions of a 10,000 year-old ice core melt water.
TL;DR: Particulates extracted from a single section of a 10,000 year-old ice core melt sample exhibited characteristics of contemporary, airborne fine particulates: a majority were microcrystalline particulates and aggregated microcry crystals, including some mixtures of microcrystals and carbonaceous matter.
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Carbon nanotubes and other fullerene nanocrystals in domestic propane and natural gas combustion streams.
TL;DR: Carbon nanotubes and other aggregated fullerene-related multi-layer shell structures have been collected in propane and natural gas flame emissions from domestic cooking stoves and observed by transmission electron microscopy, and may be major contributors to complex particulate matter in indoor and outdoor air.