E
Ehsan Toyserkani
Researcher at University of Waterloo
Publications - 216
Citations - 5910
Ehsan Toyserkani is an academic researcher from University of Waterloo. The author has contributed to research in topics: Laser & Microstructure. The author has an hindex of 36, co-authored 177 publications receiving 4035 citations.
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A Dual-Parameter Optical Fiber Sensor for Concurrent Strain and Temperature Measurement: Design, Fabrication, Packaging, and Calibration
TL;DR: In this article, a dual-parameter optical fiber Bragg grating (FBG) sensor for simultaneous measurement of structural strain and temperature using a single FBG is presented, which consists of FBGs with on-fiber silver thin films synthesized by a laser direct write method.
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A novel fibre Bragg grating sensor packaging design for ultra-high temperature sensing in harsh environments
TL;DR: In this article, the authors introduced a novel packaging of conventional Corning SMF-28?single-mode fiber Bragg grating sensors for ultra-high temperature sensing, which is in a cylindrical shape made of yttria-stabilized zirconia tubes.
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Experimental characterization and numerical modeling of a micro-syringe deposition system for dispensing sacrificial photopolymers on particulate ceramic substrates
Mihaela Vlasea,Ehsan Toyserkani +1 more
TL;DR: In this paper, the characterization of a UV-based micro-syringe deposition (μSD) system utilized in the micro-dispensing of photopolymers on particulate ceramic substrates is addressed.
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Enhancing fatigue life of additive manufactured parts with electrospark deposition post-processing
Pablo D. Enrique,Ali Keshavarzkermani,Reza Esmaeilizadeh,Stephen Peterkin,Hamid Jahed,Ehsan Toyserkani,Norman Y. Zhou +6 more
TL;DR: In this article, several methods are presented for improving local surface properties of laser powder bed fusion parts using electrospark deposition (ESD), hammer peening and heat-treatment processes.
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Additive manufacturing functionally graded titanium structures with selective closed cell layout and controlled morphology
TL;DR: In this article, a hybrid additive manufacturing (AM) system, which combines two methods of binder jetting and material extrusion, was applied for functionally graded titanium (Ti) cellular structures with selectively built closed cells, which tailor the mechanical behavior of structures to mimic the similar properties of bones.