Experts and Thought Leaders in Engineering

Other Research Interests (7)

Condensed Matter Physics

Mechanics of Materials

Microstructural characterisation

Metals and Alloys

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About

▪ Citizen of Canada – Eligible for TN visa ▪ High impact journal publications ▪ Seeking a research position ▪ PhD in Materials Science and Engineering, Australia o Structure and properties of additively manufactured titanium alloys ▪ MSc in Drilling Engineering, Norway ▪ BSc in Mechanical Engineering, United States of America ▪ Experienced in the analysis of solid-state transformation during additive manufacturing, microstructural characterisation of metals, mechanical testing design (tensile, compressive, fatigue, impact, torsional, bending, wear and corrosion), data visualization and analysis

Most Relevant Publications (3+)

4 total publications

Influence of heat treatment on the tensile properties of Ti–15Mo additively manufactured by laser metal deposition

Materials Science and Engineering: A / Feb 01, 2024

Awannegbe, E., Zhao, Y., Qiu, Z., & Li, H. (2024). Influence of heat treatment on the tensile properties of Ti–15Mo additively manufactured by laser metal deposition. Materials Science and Engineering: A, 892, 146062. https://doi.org/10.1016/j.msea.2023.146062

Effect of thermomechanical processing on compressive mechanical properties of Ti–15Mo additively manufactured by laser metal deposition

Materials Science and Engineering: A / Jan 01, 2024

Awannegbe, E., Chen, L., Zhao, Y., Qiu, Z., & Li, H. (2024). Effect of thermomechanical processing on compressive mechanical properties of Ti–15Mo additively manufactured by laser metal deposition. Materials Science and Engineering: A, 889, 145834. https://doi.org/10.1016/j.msea.2023.145834

Microstructural characterisation and mechanical evaluation of Ti-15Mo manufactured by laser metal deposition

Journal of Alloys and Compounds / Jun 01, 2023

Awannegbe, E., Li, H., Song, T., Niessen, F., Qian, M., Gazder, A. A., Nancarrow, M. J. B., & Pereloma, E. (2023). Microstructural characterisation and mechanical evaluation of Ti-15Mo manufactured by laser metal deposition. Journal of Alloys and Compounds, 947, 169553. https://doi.org/10.1016/j.jallcom.2023.169553

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Siddharth Maddali

Fremont, California, United States of America

Computational physicist with a specialization in X-ray and optical imaging and microscopy for condensed matter and materials systems.

Most Relevant Research Interests

Computational materials, imaging and microscopy scientist with **8 years combined experience** in industry and national laboratories. Expert in physics-based imaging and characterization with X-rays and optical probes, high-performance computing for light-matter interaction and materials data analysis. Experienced in machine learning for materials discovery. Previous experience at the National Energy Technology Laboratory, Argonne National Laboratory and KLA Corporation. <br>

Other Research Interests (20)

Computational microscopy

Fourier/physical optics

About

Most Relevant Publications (5+)

29 total publications

Strain Mapping of CdTe Grains in Photovoltaic Devices

IEEE Journal of Photovoltaics / Nov 01, 2019

Calvo-Almazan, I., Huang, X., Yan, H., Nazaretski, E., Chu, Y. S., Hruszkewycz, S. O., Stuckelberger, M. E., Ulvestad, A. P., Colegrove, E., Ablekim, T., Holt, M. V., Hill, M. O., Maddali, S., Lauhon, L. J., & Bertoni, M. I. (2019). Strain Mapping of CdTe Grains in Photovoltaic Devices. IEEE Journal of Photovoltaics, 9(6), 1790–1799. https://doi.org/10.1109/jphotov.2019.2942487

3D Bragg Coherent Diffraction Imaging of Extended Nanowires: Defect Formation in Highly Strained InGaAs Quantum Wells

ACS Nano / Nov 15, 2022

Hill, M. O., Schmiedeke, P., Huang, C., Maddali, S., Hu, X., Hruszkewycz, S. O., Finley, J. J., Koblmüller, G., & Lauhon, L. J. (2022). 3D Bragg Coherent Diffraction Imaging of Extended Nanowires: Defect Formation in Highly Strained InGaAs Quantum Wells. ACS Nano, 16(12), 20281–20293. https://doi.org/10.1021/acsnano.2c06071

Dark field X-ray microscopy below liquid-helium temperature: The case of NaMnO2

Materials Characterization / Oct 01, 2023

Plumb, J., Poudyal, I., Dally, R. L., Daly, S., Wilson, S. D., & Islam, Z. (2023). Dark field X-ray microscopy below liquid-helium temperature: The case of NaMnO2. Materials Characterization, 204, 113174. https://doi.org/10.1016/j.matchar.2023.113174

Detector Tilt Considerations in Bragg Coherent Diffraction Imaging: A Simulation Study

Crystals / Dec 17, 2020

Maddali, S., Allain, M., Li, P., Chamard, V., & Hruszkewycz, S. O. (2020). Detector Tilt Considerations in Bragg Coherent Diffraction Imaging: A Simulation Study. Crystals, 10(12), 1150. https://doi.org/10.3390/cryst10121150

The Effect of Intensity Fluctuations on Sequential X-ray Photon Correlation Spectroscopy at the X-ray Free Electron Laser Facilities

Crystals / Dec 04, 2020

Cao, Y., Sheyfer, D., Jiang, Z., Maddali, S., You, H., Wang, B.-X., Ye, Z.-G., Dufresne, E. M., Zhou, H., Stephenson, G. B., & Hruszkewycz, S. O. (2020). The Effect of Intensity Fluctuations on Sequential X-ray Photon Correlation Spectroscopy at the X-ray Free Electron Laser Facilities. Crystals, 10(12), 1109. https://doi.org/10.3390/cryst10121109

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Xiaolei Wang

Raleigh, North Carolina, United States of America

R&D Scientist in biomedical imaging and surgical microscope development

Most Relevant Research Interests

Biotechnology

Bioengineering

Industrial and Manufacturing Engineering

Other Research Interests (15)

Optical imaging system development

image analysis algorithm development

Atomic and Molecular Physics, and Optics

Mechanics of Materials

I am an R&D Optical Scientist and Expert specializing in Optical Imaging and Optical Microscope Development for biomedical and clinical applications. With a background in Physics and over 15 years of experience in optical science and imaging, I am passionate about pushing the boundaries of what light can achieve in the realm of medicine and healthcare. My journey in the world of optics has led me to become a leader in the research and development of next-generation optical imaging products that have a profound impact on surgical procedures and patient outcomes. My areas of expertise encompass optical physics, optical microscopy, optical metrology, photonics, and computational modeling and simulation. I've had the privilege of sharing my insights through multiple peer-reviewed publications in prestigious journals like ACS Nano, Optical Letter, and Advanced Materials. Additionally, I hold certifications in machine learning and deep learning for image analysis, allowing me to harness the power of cutting-edge technology in my work.

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Most Relevant Publications (13+)

33 total publications

Optical Clearing Delivers Ultrasensitive Hyperspectral Dark-Field Imaging for Single-Cell Evaluation

ACS Nano / Feb 24, 2016

Cui, Y., Wang, X., Ren, W., Liu, J., & Irudayaraj, J. (2016). Optical Clearing Delivers Ultrasensitive Hyperspectral Dark-Field Imaging for Single-Cell Evaluation. ACS Nano, 10(3), 3132–3143. https://doi.org/10.1021/acsnano.6b00142

Single-Cell Quantification of Cytosine Modifications by Hyperspectral Dark-Field Imaging

ACS Nano / Nov 02, 2015

Wang, X., Cui, Y., & Irudayaraj, J. (2015). Single-Cell Quantification of Cytosine Modifications by Hyperspectral Dark-Field Imaging. ACS Nano, 9(12), 11924–11932. https://doi.org/10.1021/acsnano.5b04451

Oxygen Nanobubble Tracking by Light Scattering in Single Cells and Tissues

ACS Nano / Mar 13, 2017

Bhandari, P., Wang, X., & Irudayaraj, J. (2017). Oxygen Nanobubble Tracking by Light Scattering in Single Cells and Tissues. ACS Nano, 11(3), 2682–2688. https://doi.org/10.1021/acsnano.6b07478

Superplastic Formation of Metal Nanostructure Arrays with Ultrafine Gaps

Advanced Materials / Aug 29, 2016

Hu, Y., Xuan, Y., Wang, X., Deng, B., Saei, M., Jin, S., Irudayaraj, J., & Cheng, G. J. (2016). Superplastic Formation of Metal Nanostructure Arrays with Ultrafine Gaps. Advanced Materials, 28(41), 9152–9162. Portico. https://doi.org/10.1002/adma.201602497

Computational multifocal microscopy

Biomedical Optics Express / Nov 28, 2018

He, K., Wang, Z., Huang, X., Wang, X., Yoo, S., Ruiz, P., Gdor, I., Selewa, A., Ferrier, N. J., Scherer, N., Hereld, M., Katsaggelos, A. K., & Cossairt, O. (2018). Computational multifocal microscopy. Biomedical Optics Express, 9(12), 6477. https://doi.org/10.1364/boe.9.006477

Nanoscale Resolution 3D Snapshot Particle Tracking by Multifocal Microscopy

Nano Letters / Sep 06, 2019

Wang, X., Yi, H., Gdor, I., Hereld, M., & Scherer, N. F. (2019). Nanoscale Resolution 3D Snapshot Particle Tracking by Multifocal Microscopy. Nano Letters, 19(10), 6781–6787. https://doi.org/10.1021/acs.nanolett.9b01734

Sensitivity enhanced all-optical switching using prism-grating coupled surface plasmon modes

Optics Communications / Jan 01, 2010

Chen, J., Wang, P., Wang, X., Hu, J., Chen, C., Lu, Y., Ming, H., & Zhan, Q. (2010). Sensitivity enhanced all-optical switching using prism-grating coupled surface plasmon modes. Optics Communications, 283(1), 151–154. https://doi.org/10.1016/j.optcom.2009.09.060

6.2 W diode-end-pumped 1313 nm Nd:YLF laser

Laser Physics / May 11, 2012

Wei, Y., Xu, S., Huang, C. H., Zhuang, F. J., Chen, W. D., Huang, L. X., Wang, X. L., & Zhang, G. (2012). 6.2 W diode-end-pumped 1313 nm Nd:YLF laser. Laser Physics, 22(6), 1029–1032. https://doi.org/10.1134/s1054660x12060163

金属-非线性介质-金属结构对表面等离子体的动态调控

Chinese Optics Letters / Jan 01, 2010

Wang, X., Wang, P., Chen, C., Chen, J., Lu, Y., Ming, H., & Zhan, Q. (2010). 金属-非线性介质-金属结构对表面等离子体的动态调控. Chinese Optics Letters, 8(6), 584. https://doi.org/10.3788/col20100806.0584

A continuous-wave, widely tunable, intra-cavity, singly resonant, magnesium-doped, periodically poled lithium niobate optical parametric oscillator

Laser Physics / Apr 10, 2013

Li, Z. P., Duan, Y. M., Wu, K. R., Zhang, G., Zhu, H. Y., Wang, X. L., Chen, Y. H., Xue, Z. Q., Lin, Q., Song, G. C., & Su, H. (2013). A continuous-wave, widely tunable, intra-cavity, singly resonant, magnesium-doped, periodically poled lithium niobate optical parametric oscillator. Laser Physics, 23(5), 055006. https://doi.org/10.1088/1054-660x/23/5/055006

Random Population Model for Self Pulsation in Single-Section Quantum-Dot Lasers

IEEE Photonics Technology Letters / Feb 01, 2013

Wang, Y., Mao, Y., Chen, Y., Wang, X., & Su, H. (2013). Random Population Model for Self Pulsation in Single-Section Quantum-Dot Lasers. IEEE Photonics Technology Letters, 25(4), 389–392. https://doi.org/10.1109/lpt.2013.2238918

Efficient end-pumped multi-wavelength laser operation of disordered Nd:LiGd(WO₄)₂crystal

Laser Physics / Aug 19, 2013

Xu, S., Huang, X., Li, B., Wei, Y., Wang, X., Huang, C., Zhuang, F., Chen, W., Zhai, S., & Zhang, G. (2013). Efficient end-pumped multi-wavelength laser operation of disordered Nd:LiGd(WO4)2crystal. Laser Physics, 23(9), 095807. https://doi.org/10.1088/1054-660x/23/9/095807

Observation of antiphase dynamics and harmonic resonance in a modulated dual-wavelength laser

Chinese Optics Letters / Jan 01, 2016

Huibin Chen, H. C., Ge Zhang, G. Z., Wenbin Liao, W. L., Bingxuan Li, B. L., Xiaolei Wang, X. W., & and Zhenqiang Chen, and Z. C. (2016). Observation of antiphase dynamics and harmonic resonance in a modulated dual-wavelength laser. Chinese Optics Letters, 14(1), 011403–011407. https://doi.org/10.3788/col201614.011403

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Aruna Ranaweera

Colombo

Professor at University of Kelaniya, PhD(Kyung Hee University, South Korea)

Most Relevant Research Interests

Supercapacitor Assisted Power Electronics

Biomedical Engineering

Other Research Interests (14)

Wireless Power Transfer

Metamaterials

Electronic, Optical and Magnetic Materials

Surfaces, Coatings and Films

And 9 more

About

I am dedicated and passionate about inspiring and engaging my students in an effective learning process to generate new knowledge, do innovations, engage in technology transfer, and enhance human capital through interdisciplinary and collaborative research for the well-being of academia, industry, and society.

Most Relevant Publications (3+)

32 total publications

Experiments on localized wireless power transmission using a magneto-inductive wave two-dimensional metamaterial cavity

Applied Physics Express / Mar 04, 2016

Pham, T. S., Ranaweera, A. K., Lam, V. D., & Lee, J.-W. (2016). Experiments on localized wireless power transmission using a magneto-inductive wave two-dimensional metamaterial cavity. Applied Physics Express, 9(4), 044101. https://doi.org/10.7567/apex.9.044101

Supercapacitor Assisted Hybrid PV System for Efficient Solar Energy Harnessing

Electronics / Oct 04, 2021

Piyumal, K., Ranaweera, A., Kalingamudali, S., & Kularatna, N. (2021). Supercapacitor Assisted Hybrid PV System for Efficient Solar Energy Harnessing. Electronics, 10(19), 2422. https://doi.org/10.3390/electronics10192422

Commemorative Issue of Defence Science Journal on Golden Jubilee of DRDO

Defence Science Journal / Mar 25, 2010

Moorthy, A. (2010). Commemorative Issue of Defence Science Journal on Golden Jubilee of DRDO. Defence Science Journal, 60(2), 121–123. https://doi.org/10.14429/dsj.60.345

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Stephen Horowitz

Bennington, Vermont, United States of America

PhD + 20 years experience, R&D/Engineering/Tech Executive in Sensors, MEMS, semiconductors

Most Relevant Research Interests

Aerospace Engineering

Acoustics and Ultrasonics

Other Research Interests (4)

Surfaces, Coatings and Films

Instrumentation

Electronic, Optical and Magnetic Materials

About

I have over 20 years of engineering and R&D experience in sensors and MEMS including physical modeling, transduction, design, optimization, fabrication, characterization/test, and algorithm development, as well as 10 years of technical management/executive experience in operations, product development, R&D, business development, marketing and technical sales. I have a track record of success in taking early stage R&D concepts through to full products, and developing and growing businesses based on those products. I hold a PhD in Electrical Engineering from the University of Florida, where I focused on sensor and instrumentation development, leading to 20 years of academic/industry experience in research, modeling, optimization, microfabrication, and testing of scientific instruments that requires in-depth knowledge of multidisciplinary physical systems (mechanical, electrical, acoustic, fluidic, thermal, and optical). I am well versed in MATLAB and LabVIEW, as well as first-principles development of lumped element modeling (LEM) for physical systems of all kinds. As the former CEO of an innovation-driven startup, my most important roles were defining the long-term vision and strategy, and building the teams and the people to make it all happen.

Most Relevant Publications (4+)

27 total publications

Effects of scaling and geometry on the performance of piezoelectric microphones

Sensors and Actuators A: Physical / Oct 01, 2012

Horowitz, S. B., Mathias, A. D., Fox, J. R., Cortes, J. P., Sanghadasa, M., & Ashley, P. (2012). Effects of scaling and geometry on the performance of piezoelectric microphones. Sensors and Actuators A: Physical, 185, 24–32. https://doi.org/10.1016/j.sna.2012.07.008

Analytical Electroacoustic Model of a Piezoelectric Composite Circular Plate

AIAA Journal / Oct 01, 2006

Prasad, S. A. N., Gallas, Q., Horowitz, S., Homeijer, B., Sankar, B. V., Cattafesta, L. N., & Sheplak, M. (2006). Analytical Electroacoustic Model of a Piezoelectric Composite Circular Plate. AIAA Journal, 44(10), 2311–2318. https://doi.org/10.2514/1.19855

A MEMS acoustic energy harvester

Journal of Micromechanics and Microengineering / Aug 09, 2006

Horowitz, S. B., Sheplak, M., Cattafesta, L. N., & Nishida, T. (2006). A MEMS acoustic energy harvester. Journal of Micromechanics and Microengineering, 16(9), S174–S181. https://doi.org/10.1088/0960-1317/16/9/s02

Characterization of a Compliant-Backplate Helmholtz Resonator for An Electromechanical Acoustic Liner

International Journal of Aeroacoustics / Aug 01, 2002

Horowitz, S. B., Nishida, T., Cattafesta, L. N., & Sheplak, M. (2002). Characterization of a Compliant-Backplate Helmholtz Resonator for An Electromechanical Acoustic Liner. International Journal of Aeroacoustics, 1(2), 183–205. https://doi.org/10.1260/147547202760236969

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Tim Osswald

Polymers Professor - University of Wisconsin

Most Relevant Research Interests

Industrial and Manufacturing Engineering

Biomedical Engineering

Environmental Engineering

Civil and Structural Engineering

Biotechnology

Fluid Flow and Transfer Processes

Other Research Interests (37)

Polymer Engineering

Advanced Manufacturing

Composites

Additive Manufacturing

T. Osswald is Hoeganaes Professor of Materials at the University of Wisconsin-Madison, where he has been a faculty member since 1989. Osswald received the PhD in Mechanical Engineering from the University of Illinois at Urbana-Champaign in 1987, the MS in Mechanical Engineering from the South Dakota School of Mines and Technology in 1982, and the BS in Mechanical Engineering from the South Dakota School of Mines and Technology in 1981. Before joining the UW-Madison faculty, Osswald was a Humboldt Fellow at the Rheinisch Westfalische Technische Hochschule Aachen. Osswald’s research interests are in the areas of processing-structure-property relationships for metals and composites, with a focus on powder metallurgy and metal injection molding. His research has been supported by the National Science Foundation, the Department of Energy, the US Army Research Office, and industry. Osswald is a Fellow of ASM International and the American Academy of Mechanics, and he has received the Extrusion Division Award, the Powder Metallurgy Division Award, and the Distinguished Teaching Award from TMS.

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Most Relevant Publications (38+)

117 total publications

Fused filament fabrication melting model

Additive Manufacturing / Aug 01, 2018

Osswald, T. A., Puentes, J., & Kattinger, J. (2018). Fused filament fabrication melting model. Additive Manufacturing, 22, 51–59. https://doi.org/10.1016/j.addma.2018.04.030

Compression Mold Filling Simulation for Non-Planar Parts

International Polymer Processing / May 01, 1990

Osswald, T. A., & Tucker, C. L. (1990). Compression Mold Filling Simulation for Non-Planar Parts. International Polymer Processing, 5(2), 79–87. https://doi.org/10.3139/217.900079

Viscosity of Soy Protein Plastics Determined by Screw-Driven Capillary Rheometry

Journal of Polymers and the Environment / May 28, 2008

Ralston, B. E., & Osswald, T. A. (2008). Viscosity of Soy Protein Plastics Determined by Screw-Driven Capillary Rheometry. Journal of Polymers and the Environment, 16(3), 169–176. https://doi.org/10.1007/s10924-008-0098-3

Design of Dispersive Mixing Devices

International Polymer Processing / Mar 01, 1999

Rauwendaal, C., Osswald, T., Gramann, P., & Davis, B. (1999). Design of Dispersive Mixing Devices. International Polymer Processing, 14(1), 28–34. https://doi.org/10.3139/217.1524

Nozzle clogging factors during fused filament fabrication of spherical particle filled polymers

Additive Manufacturing / Oct 01, 2018

Beran, T., Mulholland, T., Henning, F., Rudolph, N., & Osswald, T. A. (2018). Nozzle clogging factors during fused filament fabrication of spherical particle filled polymers. Additive Manufacturing, 23, 206–214. https://doi.org/10.1016/j.addma.2018.08.009

Incorporation of Mg particles into PDLLA regulates mesenchymal stem cell and macrophage responses

Journal of Biomedical Materials Research Part A / Dec 29, 2015

Cifuentes, S. C., Bensiamar, F., Gallardo-Moreno, A. M., Osswald, T. A., González-Carrasco, J. L., Benavente, R., González-Martín, M. L., García-Rey, E., Vilaboa, N., & Saldaña, L. (2015). Incorporation of Mg particles into PDLLA regulates mesenchymal stem cell and macrophage responses. Journal of Biomedical Materials Research Part A, 104(4), 866–878. Portico. https://doi.org/10.1002/jbm.a.35625

Prediction of Shrinkage and Warpage of Fiber Reinforced Thermoset Composite Parts

Journal of Reinforced Plastics and Composites / Aug 01, 1994

Tseng, S.-C., & Osswald, T. A. (1994). Prediction of Shrinkage and Warpage of Fiber Reinforced Thermoset Composite Parts. Journal of Reinforced Plastics and Composites, 13(8), 698–721. https://doi.org/10.1177/073168449401300803

On the use of computational multi-body dynamics analysis in SLS-based 3D printing

Additive Manufacturing / Oct 01, 2016

Mazhar, H., Osswald, T., & Negrut, D. (2016). On the use of computational multi-body dynamics analysis in SLS-based 3D printing. Additive Manufacturing, 12, 291–295. https://doi.org/10.1016/j.addma.2016.05.012

Characterization of mechanical properties and fracture mode of PLA and copper/PLA composite part manufactured by fused deposition modeling

SN Applied Sciences / May 21, 2019

Zhang, X., Chen, L., Mulholland, T., & Osswald, T. A. (2019). Characterization of mechanical properties and fracture mode of PLA and copper/PLA composite part manufactured by fused deposition modeling. SN Applied Sciences, 1(6). https://doi.org/10.1007/s42452-019-0639-5

Flow Analysis in Screw Extruders-Effect of Kinematic Conditions

International Polymer Processing / Dec 01, 1998

Rauwendaal, C., Osswald, T. A., Tellez, G., & Gramann, P. J. (1998). Flow Analysis in Screw Extruders-Effect of Kinematic Conditions. International Polymer Processing, 13(4), 327–333. https://doi.org/10.3139/217.980327

Failure criterion for PA12 SLS additive manufactured parts

Additive Manufacturing / May 01, 2018

Obst, P., Launhardt, M., Drummer, D., Osswald, P. V., & Osswald, T. A. (2018). Failure criterion for PA12 SLS additive manufactured parts. Additive Manufacturing, 21, 619–627. https://doi.org/10.1016/j.addma.2018.04.008

The History of Tomorrow's Materials: Protein-Based Biopolymers

Plastics Engineering / Feb 01, 2008

Ralston, B. E., & Osswald, T. A. (2008). The History of Tomorrow’s Materials: Protein-Based Biopolymers. Plastics Engineering, 64(2), 36–40. Portico. https://doi.org/10.1002/j.1941-9635.2008.tb00292.x

A Novel Cure Reaction Model Fitting Technique Based on DSC Scans

Journal of Polymer Engineering / Jan 01, 2005

Hernandez-Ortiz, J. P., & Osswald, T. A. (2005). A Novel Cure Reaction Model Fitting Technique Based on DSC Scans. Journal of Polymer Engineering, 25(1). https://doi.org/10.1515/polyeng.2005.25.1.23

Boundary integral equations for analyzing the flow of a chopped fiber reinforced polymer compound in compression molding

Journal of Non-Newtonian Fluid Mechanics / Jan 01, 1987

Barone, M. R., & Osswald, T. A. (1987). Boundary integral equations for analyzing the flow of a chopped fiber reinforced polymer compound in compression molding. Journal of Non-Newtonian Fluid Mechanics, 26(2), 185–206. https://doi.org/10.1016/0377-0257(87)80004-6

Comparative study of mixing in corotating twin screw extruders using computer simulation

Advances in Polymer Technology / Jan 01, 1998

Rios, A. C., Gramann, P. J., & Osswald, T. A. (1998). Comparative study of mixing in corotating twin screw extruders using computer simulation. Advances in Polymer Technology, 17(2), 107–113. https://doi.org/10.1002/(sici)1098-2329(199822)17:2<107::aid-adv2>3.0.co;2-x

Failure surface development for ABS fused filament fabrication parts

Additive Manufacturing / Aug 01, 2019

Mazzei Capote, G. A., Rudolph, N. M., Osswald, P. V., & Osswald, T. A. (2019). Failure surface development for ABS fused filament fabrication parts. Additive Manufacturing, 28, 169–175. https://doi.org/10.1016/j.addma.2019.05.005

Numerical simulation of three-dimensional viscoelastic planar contraction flow using the software OpenFOAM

Computers & Chemical Engineering / Feb 01, 2012

Holmes, L., Favero, J., & Osswald, T. (2012). Numerical simulation of three-dimensional viscoelastic planar contraction flow using the software OpenFOAM. Computers & Chemical Engineering, 37, 64–73. https://doi.org/10.1016/j.compchemeng.2011.09.015

Investigation of the influence of exposure time on the dual-curing reaction of RPU 70 during the DLS process and the resulting mechanical part properties

Additive Manufacturing / Mar 01, 2020

Obst, P., Riedelbauch, J., Oehlmann, P., Rietzel, D., Launhardt, M., Schmölzer, S., Osswald, T. A., & Witt, G. (2020). Investigation of the influence of exposure time on the dual-curing reaction of RPU 70 during the DLS process and the resulting mechanical part properties. Additive Manufacturing, 32, 101002. https://doi.org/10.1016/j.addma.2019.101002

Micro-injection molded, poly(vinyl alcohol)-calcium salt templates for precise customization of 3D hydrogel internal architecture

Acta Biomaterialia / Sep 01, 2019

McNulty, J. D., Marti-Figueroa, C., Seipel, F., Plantz, J. Z., Ellingham, T., Duddleston, L. J. L., Goris, S., Cox, B. L., Osswald, T. A., Turng, L.-S., & Ashton, R. S. (2019). Micro-injection molded, poly(vinyl alcohol)-calcium salt templates for precise customization of 3D hydrogel internal architecture. Acta Biomaterialia, 95, 258–268. https://doi.org/10.1016/j.actbio.2019.04.050

Thermal curing kinetics optimization of epoxy resin in Digital Light Synthesis

Additive Manufacturing / Mar 01, 2020

Redmann, A., Oehlmann, P., Scheffler, T., Kagermeier, L., & Osswald, T. A. (2020). Thermal curing kinetics optimization of epoxy resin in Digital Light Synthesis. Additive Manufacturing, 32, 101018. https://doi.org/10.1016/j.addma.2019.101018

Influence of Pressure on Volume, Temperature and Crystallization of Thermoplastics during Polymer Processing

International Polymer Processing / Jul 01, 2011

Rudolph, N. M., Osswald, T. A., & Ehrenstein, G. W. (2011). Influence of Pressure on Volume, Temperature and Crystallization of Thermoplastics during Polymer Processing. International Polymer Processing, 26(3), 239–248. https://doi.org/10.3139/217.2417

Simulating Polymer Mixing Processes Using the Boundary Element Method

International Polymer Processing / Dec 01, 1992

Gramann, P. J., & Osswald, T. A. (1992). Simulating Polymer Mixing Processes Using the Boundary Element Method. International Polymer Processing, 7(4), 303–313. https://doi.org/10.3139/217.920303

Fabrication of hybrid composite T-joints by co-curing with 3D printed dual cure epoxy

Composites Part B: Engineering / Feb 01, 2020

Dahmen, V., Redmann, A. J., Austermann, J., Quintanilla, A. L., Mecham, S. J., & Osswald, T. A. (2020). Fabrication of hybrid composite T-joints by co-curing with 3D printed dual cure epoxy. Composites Part B: Engineering, 183, 107728. https://doi.org/10.1016/j.compositesb.2019.107728

Inhalt

HTM Journal of Heat Treatment and Materials / Dec 01, 1994

Inhalt. (1994). HTM Journal of Heat Treatment and Materials, 49(6), 361–361. https://doi.org/10.1515/htm-1994-490601

Experimental and Numerical Study of Rhomboidal Mixing Sections

International Polymer Processing / Mar 01, 2000

Rios, A. C., Gramann, P. J., Osswald, T. A., Noriega, M. del P., & Estrada, O. A. (2000). Experimental and Numerical Study of Rhomboidal Mixing Sections. International Polymer Processing, 15(1), 12–19. https://doi.org/10.3139/217.1578

The effect of micromechanics models on mechanical property predictions for short fiber composites

Composite Structures / Jul 01, 2020

Zhao, J., Su, D.-X., Yi, J., Cheng, G., Turng, L.-S., & Osswald, T. (2020). The effect of micromechanics models on mechanical property predictions for short fiber composites. Composite Structures, 244, 112229. https://doi.org/10.1016/j.compstruct.2020.112229

Modeling the behavior of fiber suspensions in the molding of polymer composites

Journal of Reinforced Plastics and Composites / May 01, 2011

Londoño-Hurtado, A., Osswald, T. A., & Hernandez-Ortíz, J. P. (2011). Modeling the behavior of fiber suspensions in the molding of polymer composites. Journal of Reinforced Plastics and Composites, 30(9), 781–790. https://doi.org/10.1177/0731684411400227

IN LINE MEASUREMENT OF THE POLYMER MELTING BEHAVIOR IN SINGLE SCREW EXTRUDERS

Journal of Polymer Engineering / Nov 01, 2004

Noriega, M. del P., Osswald, T. A., & Ferrier, N. (2004). IN LINE MEASUREMENT OF THE POLYMER MELTING BEHAVIOR IN SINGLE SCREW EXTRUDERS. Journal of Polymer Engineering, 24(6). https://doi.org/10.1515/polyeng.2004.24.6.557

SIMULANDO LA INYECCIÓN DE PLÁSTICOS. NUEVAS FORMAS DE APRENDER LOS PROCESOS.

DYNA INGENIERIA E INDUSTRIA / Jan 01, 2012

MARTINEZ MUNETA, M. L., JUANES MÁRQUEZ, J. D., RODRIGUEZ VILLAGRÁ, M., & PEREZ GARCIA, J. M. (2012). SIMULANDO LA INYECCIÓN DE PLÁSTICOS. NUEVAS FORMAS DE APRENDER LOS PROCESOS. DYNA INGENIERIA E INDUSTRIA, 87(3), 671–678. https://doi.org/10.6036/4709

Fiber Orientation Effects in Fused Filament Fabrication of Air-Cooled Heat Exchangers

JOM / Jan 16, 2018

Mulholland, T., Goris, S., Boxleitner, J., Osswald, T. A., & Rudolph, N. (2018). Fiber Orientation Effects in Fused Filament Fabrication of Air-Cooled Heat Exchangers. JOM, 70(3), 298–302. https://doi.org/10.1007/s11837-017-2733-8

Development of a characterization approach for the sintering behavior of new thermoplastics for selective laser sintering

Physics Procedia / Jan 01, 2010

Drummer, D., Rietzel, D., & Kühnlein, F. (2010). Development of a characterization approach for the sintering behavior of new thermoplastics for selective laser sintering. Physics Procedia, 5, 533–542. https://doi.org/10.1016/j.phpro.2010.08.081

Analysis of fiber damage mechanisms during processing of reinforced polymer melts

Engineering Analysis with Boundary Elements / Jul 01, 2002

Hernandez, J. P., Raush, T., Rios, A., Strauss, S., & Osswald, T. A. (2002). Analysis of fiber damage mechanisms during processing of reinforced polymer melts. Engineering Analysis with Boundary Elements, 26(7), 621–628. https://doi.org/10.1016/s0955-7997(02)00018-8

Technical Development of Multi-Resin Three-Dimensional Printer Using Bottom-Up Method

International Journal of Automation and Smart Technology / Dec 01, 2018

Jiang, C.-P. (2018). Technical Development of Multi-Resin Three-Dimensional Printer Using Bottom-Up Method. International Journal of Automation and Smart Technology, 8(4), 173–178. https://doi.org/10.5875/ausmt.v8i4.1840

Targeted Temperature Manipulation and Analysis of the Influence on Mechanical Properties in Large-Scale Extrusion Additive Manufacturing

Applied Sciences / Mar 15, 2022

Tagscherer, N., Osswald, T. A., & Drechsler, K. (2022). Targeted Temperature Manipulation and Analysis of the Influence on Mechanical Properties in Large-Scale Extrusion Additive Manufacturing. Applied Sciences, 12(6), 2998. https://doi.org/10.3390/app12062998

High-force dynamic mechanical analysis of composite sandwich panels for aerospace structures

Composites Part C: Open Access / Jul 01, 2021

Redmann, A., Montoya-Ospina, M. C., Karl, R., Rudolph, N., & Osswald, T. A. (2021). High-force dynamic mechanical analysis of composite sandwich panels for aerospace structures. Composites Part C: Open Access, 5, 100136. https://doi.org/10.1016/j.jcomc.2021.100136

Novel modeling approach for fiber breakage during molding of long fiber-reinforced thermoplastics

Physics of Fluids / Jul 01, 2021

Bechara, A., Goris, S., Yanev, A., Brands, D., & Osswald, T. (2021). Novel modeling approach for fiber breakage during molding of long fiber-reinforced thermoplastics. Physics of Fluids, 33(7), 073318. https://doi.org/10.1063/5.0058693

Data enriched lubrication force modeling for a mechanistic fiber simulation of short fiber-reinforced thermoplastics

Physics of Fluids / May 01, 2021

Kugler, S. K., Bechara, A., Perez, H., Cruz, C., Kech, A., & Osswald, T. A. (2021). Data enriched lubrication force modeling for a mechanistic fiber simulation of short fiber-reinforced thermoplastics. Physics of Fluids, 33(5), 053107. https://doi.org/10.1063/5.0049641

Prediction of vortex height from mechanical mixing in metal matrix nanocomposite processing by means of dimensional analysis and scaling

Journal of Manufacturing Processes / Apr 01, 2014

García-Rodríguez, S., Puentes, J., Li, X. C., & Osswald, T. A. (2014). Prediction of vortex height from mechanical mixing in metal matrix nanocomposite processing by means of dimensional analysis and scaling. Journal of Manufacturing Processes, 16(2), 212–217. https://doi.org/10.1016/j.jmapro.2013.12.001

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Vladimir Shapiro, Ph.D.

Boston, Massachusetts, United States of America

PRINCIPAL AI/COMPUTER VISION DATA SCIENTIST; EXPERIENCED SOFTWARE (PYTHON, C/C++, R) DEVELOPER; ADJUNCT UNIVERSITY PROFESSOR

Most Relevant Research Interests

Computer Vision and Pattern Recognition

Bioengineering

Other Research Interests (12)

Hardware and Architecture

Computer Science Applications

Software

Signal Processing

And 7 more

About

• Expertise in image and video processing, machine vision, machine learning, digital signal processing, deep learning and pattern recognition algorithm development. • Expertise of production quality C/C++, Python language implementation including for real-time and multiple including embedded platforms. • Experience of working for start-ups and global companies. • Over 50 scientific publications and patents. Specialties: AI, image/video processing, computer vision, machine vision, deep learning, pattern recognition, machine learning, data science, software engineering, embedded software, real-time systems, motor control, Python, C/C++, R and MATLAB programming, software development, object oriented, Linux, Windows, algorithms, Agile development.

Most Relevant Publications (3+)

38 total publications

Automatic Young's fringe analysis in the source image plane

Optics and Lasers in Engineering / Jan 01, 1993

Shapiro, V., Goutev, D., & Kavardjikov, V. (1993). Automatic Young’s fringe analysis in the source image plane. Optics and Lasers in Engineering, 18(4), 307–324. https://doi.org/10.1016/0143-8166(93)90058-s

Fringe-pattern recognition by using the polar-coordinate transform

Experimental Mechanics / Dec 01, 1995

Shapiro, V. (1995). Fringe-pattern recognition by using the polar-coordinate transform. Experimental Mechanics, 35(4), 322–328. https://doi.org/10.1007/bf02317541

Developing a Quality Control System in a Continuous Hot Air Heating Process in Surimi Seafood Processing Using Image Analysis and Artificial Intelligence

Processes / Nov 08, 2023

Yoon, W. B., An, S., Oyinloye, T. M., & Kim, J. (2023). Developing a Quality Control System in a Continuous Hot Air Heating Process in Surimi Seafood Processing Using Image Analysis and Artificial Intelligence. Processes, 11(11), 3187. https://doi.org/10.3390/pr11113187

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Dr. Olusanmi Adeniran

Dallas, TX

Solid background in Materials Science and author of 10+ technical publications across industrial, manufacturing, & systems engineering. United States patents Grantee with 16 years of industry experience.

Most Relevant Research Interests

Industrial and Manufacturing Engineering

Energy Engineering and Power Technology

Other Research Interests (6)

Ceramics and Composites

Dr. Olusanmi Adeniran is a highly skilled and experienced engineer with expertise in materials and energy systems. He received his Ph.D. in Systems Engineering - Materials & Manufacturing from Texas Tech University in 2022, where he focused on developing advanced materials for diverse applications ranging from aerospace to energy and automotive. Before this, he obtained his M.S. in Materials Science & Engineering from The University of Texas at Arlington in 2013. With over 16 years of industry experience under his belt, Dr. Adeniran has worked in various roles, including as a Staff Engineer at Lockheed Martin, where he was involved in various developments in defense manufacturing. He also served as a Principal Consultant at Abacoll Solutions LLC, providing engineering support services to a range of industries. His other experiences include a Principal Process Engineer role with Simens Energy, and a Senior Development Engineer with Schaeffler Group, amongst others. Dr. Adeniran's research interests include the development of advanced materials for diverse applications including, aerospace, energy, automotive, environmental, etc. He has published numerous articles in peer-reviewed journals and has presented his research at various conferences and symposiums. In addition to his technical skills, Dr. Adeniran is also a skilled leader and communicator, having led teams in various engineering projects and mentored undergraduate and graduate students in their research. He is passionate about using his knowledge and experience to contribute to the advancement of materials and energy technologies.

Polymers and Plastics

Mechanics of Materials

Fuel Technology

And 1 more

About

Most Relevant Publications (6+)

10 total publications

A machine learning approach to characterise fabrication porosity effects on the mechanical properties of additively manufactured thermoplastic composites

Journal of Reinforced Plastics and Composites / Mar 04, 2024

Udu, A. G., Osa-uwagboe, N., Adeniran, O., Aremu, A., Khaksar, M. G., & Dong, H. (2024). A machine learning approach to characterise fabrication porosity effects on the mechanical properties of additively manufactured thermoplastic composites. Journal of Reinforced Plastics and Composites. https://doi.org/10.1177/07316844241236696

Finite element model of fiber volume effect on the mechanical performance of additively manufactured carbon fiber reinforced plastic composites

Forces in Mechanics / Feb 01, 2023

Adeniran, O., Cong, W., Aremu, A., & Oluwole, O. (2023). Finite element model of fiber volume effect on the mechanical performance of additively manufactured carbon fiber reinforced plastic composites. Forces in Mechanics, 10, 100160. https://doi.org/10.1016/j.finmec.2022.100160

Material design factors in the additive manufacturing of Carbon Fiber Reinforced Plastic Composites: A state-of-the-art review

Advances in Industrial and Manufacturing Engineering / Nov 01, 2022

Adeniran, O., Cong, W., & Aremu, A. (2022). Material design factors in the additive manufacturing of Carbon Fiber Reinforced Plastic Composites: A state-of-the-art review. Advances in Industrial and Manufacturing Engineering, 5, 100100. https://doi.org/10.1016/j.aime.2022.100100

Thermoplastic matrix material influences on the mechanical performance of additively manufactured carbon-fiber-reinforced plastic composites

Journal of Composite Materials / Mar 04, 2022

Adeniran, O., Cong, W., & Oluwabunmi, K. (2022). Thermoplastic matrix material influences on the mechanical performance of additively manufactured carbon-fiber-reinforced plastic composites. Journal of Composite Materials, 56(9), 1391–1405. https://doi.org/10.1177/00219983221077345

Environmental affected mechanical performance of additively manufactured carbon fiber–reinforced plastic composites

Journal of Composite Materials / Feb 08, 2022

Adeniran, O., Cong, W., Bediako, E., & Adu, S. P. (2022). Environmental affected mechanical performance of additively manufactured carbon fiber–reinforced plastic composites. Journal of Composite Materials, 56(7), 1139–1150. https://doi.org/10.1177/00219983211066548

Influence of Engine Age on Morphology and Chemistry of Diesel Soot Extracted from Crankcase Oil

Energy & Fuels / Feb 10, 2016

Sharma, V., Bagi, S., Patel, M., Aderniran, O., & Aswath, P. B. (2016). Influence of Engine Age on Morphology and Chemistry of Diesel Soot Extracted from Crankcase Oil. Energy & Fuels, 30(3), 2276–2284. https://doi.org/10.1021/acs.energyfuels.5b02512

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Philip Ball

Houston, Texas, United States of America

Philip Ball has 20 years’ experience within international energy exploration and development within the Oil and Gas, Geothermal and Natural Hydrogen Industries.

Most Relevant Research Interests

Energy Engineering and Power Technology

Philip has 20+ years experience within the international energy exploration and development, spanning the Oil and Gas, Geothermal, and Natural Hydrogen Industries. Philip is presently Owner/Director of Geothermal Energy Advisors, LLC (GEA) a consultation group specializing in geothermal exploration and development. He is also an Investor/Partner in Natural Hydrogen Ventures, (NHV), an international, investment fund looking to invest in the emerging natural hydrogen industry. In a voluntary capacity, Philip holds the position of Honorary Senior Researcher at Keele University in the UK. Philip is an advisor for Project InnerSpace, Phase-1, “geothermal resource characterization”, and a Board Member for the EARTHSAFE project Earth’s Critical Resources for Clean Energy and a Sustainable Future, at the University of Twente. Philip is also a member of the advisory board for the New York Energy Capital Assembly, in collaboration with the Energy Council. In the last 15 years Philip has authored >100 abstracts and \~25 peer reviewed articles. As of today, Philip’s work has been cited \~935 times, his research metrics are: h-index, 15; i10-index 14. October 2023 Philip was recently (2023) co-awarded, as a member of a research team, the Alejandro Ángel Escobar Award (the Colombian National Prize of Research in Natural Sciences).

Other Research Interests (18)

About

Most Relevant Publications (2+)

61 total publications

A Review of Geothermal Technologies and Their Role in Reducing Greenhouse Gas Emissions in the USA

Journal of Energy Resources Technology / Sep 15, 2020

Ball, P. J. (2020). A Review of Geothermal Technologies and Their Role in Reducing Greenhouse Gas Emissions in the USA. Journal of Energy Resources Technology, 143(1). https://doi.org/10.1115/1.4048187

Macro Energy Trends and the Future of Geothermal Within the Low-Carbon Energy Portfolio

Journal of Energy Resources Technology / Oct 27, 2020

Ball, P. J. (2020). Macro Energy Trends and the Future of Geothermal Within the Low-Carbon Energy Portfolio. Journal of Energy Resources Technology, 143(1). https://doi.org/10.1115/1.4048520

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Michael Hickner

Michigan State University

Most Relevant Research Interests

Nuclear Energy and Engineering

Energy Engineering and Power Technology

Water Science and Technology

Bioengineering

Environmental Engineering