Difference between revisions of "Published Papers"

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== Count ==
 
== Count ==
  
375 documents as of 8 November, 2022.
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389 documents as of 26 January, 2023.
  
 
== Non-Traditional Manufacturing ==
 
== Non-Traditional Manufacturing ==
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Also known as Robocasting or DIW (Direct Ink Writing).
 
Also known as Robocasting or DIW (Direct Ink Writing).
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 +
==== Published in 2023 ====
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* [https://www.sciencedirect.com/science/article/abs/pii/S2214860423000386 Material Extrusion of Highly-Loaded Silicon Nitride Aqueous Inks for Solid Infilled Structures] by a team from [https://www.afrl.af.mil/RX/ Materials and Manufacturing Directorate, Air Force Research Laboratory], [https://sites.nationalacademies.org/PGA/RAP/index.htm National Research Council Research Associate Program], [https://www.ues.com/ UES, Inc.], [https://www.soche.org/ Strategic Ohio Council for Higher Education], and [https://www.ge.com/research/ General Electric Research]
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* [https://pubs.acs.org/doi/abs/10.1021/acsanm.2c05423 Printed Carbon Nanotube-Based Humidity Sensors Deployable on Surfaces of Widely Varying Curvatures] by a team from the [https://enme.umd.edu/ Department of Mechanical Engineering of the University of Maryland]
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* [https://www.sciencedirect.com/science/article/abs/pii/S2352710223000530 Nanomechanical Characterization of 3D Printed Cement Pastes] by a team from [https://www.vanderbilt.edu/ Vanderbilt University's [https://engineering.vanderbilt.edu/chbe/ Department of Chemical and Biomolecular Engineering] and [https://engineering.vanderbilt.edu/cee/ Department of Civil and Environment Engineering]
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* [https://onlinelibrary.wiley.com/doi/abs/10.1002/adma.202207673 Triplet Fusion Upconversion for Photocuring 3D Printed Particle-Reinforced Composite Networks] by a team from the [https://chem.washington.edu/ Department of Chemistry, University of Washington] and the [https://www.chem.columbia.edu/ Department of Chemistry, Columbia University]
  
 
==== Published in 2022 ====
 
==== Published in 2022 ====
  
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* [https://www.sciencedirect.com/science/article/abs/pii/S0958946522004875 Halloysite Reinforced 3D-printable Geopolymers] by a team from [https://www.dtu.dk/english The Technical University of Denmark]'s Departments of [https://orbit.dtu.dk/en/organisations/department-of-civil-and-mechanical-engineering Civil & Mechanical Engineering], [https://www.fysik.dtu.dk/english Physics], [https://www.healthtech.dtu.dk/english Heath Technology], and [https://www.nanolab.dtu.dk/english Nanolab], as well as the [https://www.imperial.ac.uk/civil-engineering/ Department of Civil and Environmental Engineering, Imperial College London]
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* [https://iopscience.iop.org/article/10.1088/2058-8585/aca813/meta Direct Ink Write 3D printing of Wave Propagation Sensor] by a team from [http://lanl.gov  Los Alamos National Laboratory] and from [http://utep.edu The University of Texas at El Paso
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* [https://onlinelibrary.wiley.com/doi/abs/10.1002/pat.5948 3D-printable Cyclic Peptide Loaded Microporous Polymers for Antimicrobial Wound Dressing Materials] by a team from the [https://www.nrl.navy.mil/chemistry/ Chemistry Division, U.S. Naval Research Laboratory]
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* [https://www.sciencedirect.com/science/article/pii/S2405886622000598 MultimodalIimaging Compatible Micro-Physiological System] by a team from [https://www.texaschildrens.org/departments/radiology Department of Radiology, Texas Children's Hospital] and [https://www.bcm.edu/ Baylor College of Medicine]'s Departments of [https://www.bcm.edu/departments/radiology Radiology] and [https://www.bcm.edu/academic-centers/dan-l-duncan-comprehensive-cancer-center/research/programs/pediatric-cancer-program Pediatrics-Oncology]
 
* [https://www.sciencedirect.com/science/article/abs/pii/S2214860422006376 Electric poling-assisted additive manufacturing technique for piezoelectric active poly(vinylidene fluoride) films: Towards fully three-dimensional printed functional materials] by a team from [https://purdue.edu/ Purdue University]'s [https://polytechnic.purdue.edu/schools/engineering-technology School of Engineering Technology], [https://engineering.purdue.edu/MSE School of Materials Engineering], and [https://engineering.purdue.edu/IE School of Industrial Engineering],
 
* [https://www.sciencedirect.com/science/article/abs/pii/S2214860422006376 Electric poling-assisted additive manufacturing technique for piezoelectric active poly(vinylidene fluoride) films: Towards fully three-dimensional printed functional materials] by a team from [https://purdue.edu/ Purdue University]'s [https://polytechnic.purdue.edu/schools/engineering-technology School of Engineering Technology], [https://engineering.purdue.edu/MSE School of Materials Engineering], and [https://engineering.purdue.edu/IE School of Industrial Engineering],
 
* [https://www.proquest.com/openview/94671663c312abf32560fbd499dcfdfe/ Extrusion-Based 3D Printing of Stretchable Electronic Coating for Condition Monitoring of Suction Cups] by a team from [https://lgef.insa-lyon.fr/ Laboratoire de Génie Electrique, INSA Lyon] and [https://hybria.fr/en/home/ Hybria Institute of Business and Technologies, Écully Campus]
 
* [https://www.proquest.com/openview/94671663c312abf32560fbd499dcfdfe/ Extrusion-Based 3D Printing of Stretchable Electronic Coating for Condition Monitoring of Suction Cups] by a team from [https://lgef.insa-lyon.fr/ Laboratoire de Génie Electrique, INSA Lyon] and [https://hybria.fr/en/home/ Hybria Institute of Business and Technologies, Écully Campus]
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Also known as DPE (Direct Powder Extrusion) or HME (Hot Melt Extrusion).
 
Also known as DPE (Direct Powder Extrusion) or HME (Hot Melt Extrusion).
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==== Published in 2023 ====
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* [https://aip.scitation.org/doi/full/10.1063/5.0133995 Do we need perfect mixing between fuel and oxidizer to maximize the energy release rate of energetic nanocomposites?] by a team from the [https://www.cee.ucr.edu/ Department of Chemical and Environmental Engineering, University of California, Riverside] and the [https://me.stanford.edu/ Department of Mechanical Engineering, Stanford University]
  
 
==== Published in 2022 ====
 
==== Published in 2022 ====
  
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* [https://pubs.acs.org/doi/abs/10.1021/acsami.2c14815 3D Printing of Liquid Metal Embedded Elastomers for Soft Thermal and Electrical Materials] by a team from [https://www.cmu.edu/ Carnegie Mellon University]'s  [https://www.meche.engineering.cmu.edu/ Mechanical] and [https://www.cheme.engineering.cmu.edu/ Chemical] Engineering Departments; the [https://www.erg.cuhk.edu.hk/erg/MechanicalAndAutomationEngineering Department of Mechanical and Automation Engineering, Chinese University of Hong Kong], and the [https://me.snu.ac.kr/en Department of Mechanical Engineering, Seoul National University]
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* [https://onlinelibrary.wiley.com/doi/pdf/10.1002/aisy.202200280 Robotic Pick-and-Place Operations in Multifunctional Liquid Crystal Elastomers] by a team from [https://www.tue.nl/en/ Eindhoven University of Technology]'s [https://www.tue.nl/en/research/institutes/institute-for-complex-molecular-systems/ Institute for Complex Molecular Systems] and [https://www.tue.nl/en/our-university/departments/chemical-engineering-and-chemistry/the-department/ Department of Chemical Engineering and Chemistry], the [https://inma.unizar-csic.es/en/home/ Instituto de Nanociencia y Materiales de Aragón (INMA)Departamento de Física de la Materia CondensadaCSIC-Universidad de Zaragoza], the [https://www.ciber-bbn.es/en CIBER in Bioengineering, Biomaterials and Nanomedicine], and the [ SCNU-TUE Joint Lab of Device Integrated Responsive Materials (DIRM), National Center for International Research on Green Optoelectronics, South China Normal University]
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* [https://asmedigitalcollection.asme.org/SMASIS/proceedings-abstract/SMASIS2022/86274/V001T05A006/1150813 Development of Embeddable Additive Manufacturing Microsensors for Structural Health Monitoring], by a team from [https://erau.edu/ Embry-Riddle Aeronautical University]
 
* [https://digitalcommons.library.umaine.edu/cgi/viewcontent.cgi?article=4693&context=etd Continuous, Non-Destructive Detection of Surface Bacterial Growth with Bioinspired Vascularized PolymersGrowth with Bioinspired Vascularized Polymers], submitted to the University of Maine in pursuit of a Master of Science in Biomedical Engineering
 
* [https://digitalcommons.library.umaine.edu/cgi/viewcontent.cgi?article=4693&context=etd Continuous, Non-Destructive Detection of Surface Bacterial Growth with Bioinspired Vascularized PolymersGrowth with Bioinspired Vascularized Polymers], submitted to the University of Maine in pursuit of a Master of Science in Biomedical Engineering
 
* [https://www.chinesechemsoc.org/doi/pdf/10.31635/ccschem.022.202202362 A Novel Dynamic Polymer Synthesis via Chlorinated Solvent Quenched Depolymerization] by a team from [https://www.ornl.gov Oak Ridge National Laboratory]'s [https://www.ornl.gov/division/csd Chemical Services Division] and [https://www.ornl.gov/facility/cnms Center for Nanophase Materials Sciences]; [https://utk.edu/ University of Tennessee, Knoxville]'s [https://chem.utk.edu/ Department of Chemistry] and [https://cbe.utk.edu/ Department of Chemical and Biomolecular Engineering]; and [https://jiaowuchu.buct.edu.cn/en_jwc/mainm.htm Beijing University of Chemical Technology]
 
* [https://www.chinesechemsoc.org/doi/pdf/10.31635/ccschem.022.202202362 A Novel Dynamic Polymer Synthesis via Chlorinated Solvent Quenched Depolymerization] by a team from [https://www.ornl.gov Oak Ridge National Laboratory]'s [https://www.ornl.gov/division/csd Chemical Services Division] and [https://www.ornl.gov/facility/cnms Center for Nanophase Materials Sciences]; [https://utk.edu/ University of Tennessee, Knoxville]'s [https://chem.utk.edu/ Department of Chemistry] and [https://cbe.utk.edu/ Department of Chemical and Biomolecular Engineering]; and [https://jiaowuchu.buct.edu.cn/en_jwc/mainm.htm Beijing University of Chemical Technology]
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==== Published in 2022 ====
 
==== Published in 2022 ====
  
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* [https://arxiv.org/pdf/2210.17274.pdf Imbalanced Data Classification via Generative Adversarial Network with Application to Anomaly Detection in Additive Manufacturing Process] by a team from the [https://www.ise.vt.edu/ Grado Department of Industrial and Systems Engineering, Virginia Tech] and the [https://mie.njit.edu/ Department of Mechanical and Industrial Engineering, New Jersey Institute of Technology]
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* [https://arxiv.org/ftp/arxiv/papers/2210/2210.17272.pdf Reinforcement Learning-based Defect Mitigation for Quality Assurance of Additive Manufacturing] by a team from the [https://www.ise.vt.edu/ Grado Department of Industrial and Systems Engineering, Virginia Tech] and the [https://mie.njit.edu/ Department of Mechanical and Industrial Engineering, New Jersey Institute of Technology]
 
* [https://books.google.com/books?hl=en&lr=lang_en&id=5XeGEAAAQBAJ&oi=fnd&pg=PA225&dq=hyrel&ots=z5RCHfPoi-&sig=QZbo_KqifYORnJ4Ujgr6rZ3GSc4#v=onepage&q&f=false Fabrication of Polycarbonate Filaments Infused with Carbon from Coconut Shell Powder for 3D Printing Applications] by a team from [https://www.tuskegee.edu/programs-courses/colleges-schools/coe/materials-science-and-engineering-home Tuskegee University's Department of Materials Science and Engineering (MSE)]
 
* [https://books.google.com/books?hl=en&lr=lang_en&id=5XeGEAAAQBAJ&oi=fnd&pg=PA225&dq=hyrel&ots=z5RCHfPoi-&sig=QZbo_KqifYORnJ4Ujgr6rZ3GSc4#v=onepage&q&f=false Fabrication of Polycarbonate Filaments Infused with Carbon from Coconut Shell Powder for 3D Printing Applications] by a team from [https://www.tuskegee.edu/programs-courses/colleges-schools/coe/materials-science-and-engineering-home Tuskegee University's Department of Materials Science and Engineering (MSE)]
 
* [https://vtechworks.lib.vt.edu/bitstream/handle/10919/111434/Law_A_D_2022.pdf?sequence=1 Smart Quality Assurance System for Additive Manufacturing using Data-driven based Parameter-Signature-Quality Framework], a dissertation submitted to [https://vt.edu/academics/majors/industrial-and-systems-engineering.html Virginia Tech's Industrial and Systems Engineering department]
 
* [https://vtechworks.lib.vt.edu/bitstream/handle/10919/111434/Law_A_D_2022.pdf?sequence=1 Smart Quality Assurance System for Additive Manufacturing using Data-driven based Parameter-Signature-Quality Framework], a dissertation submitted to [https://vt.edu/academics/majors/industrial-and-systems-engineering.html Virginia Tech's Industrial and Systems Engineering department]

Revision as of 13:14, 26 January 2023

Below is a list of published works citing Hyrel equipment.

Count

389 documents as of 26 January, 2023.

Non-Traditional Manufacturing

Including Antennas, Sensors, Inductors, and Circuits; Combined Manufacturing Techniques; Electro-Spinning or Electro-Melt-Spinning or Melt Electro-Writing (MEW); also printing with Embedded Fibers and combining FDM with DIW or MEW.

Published in 2022

Published in 2021

Published in 2020

Published in 2019

Published in 2018

Published in 2017

Published in 2016

Published in 2015

Unheated or Chilled Reservoir Printing (DIW)

Also known as Robocasting or DIW (Direct Ink Writing).

Published in 2023

Published in 2022

Published in 2021

Published in 2020

Published in 2019

Published in 2018

Published in 2017

Published in 2016

Published in 2015

Published in 2014

Heated Reservoir Printing (DPE, HME)

Also known as DPE (Direct Powder Extrusion) or HME (Hot Melt Extrusion).

Published in 2023

Published in 2022

Published in 2021

Published in 2020

Published in 2019

Published in 2018

Published in 2017

Filament Printing (HME, FFF, FDM)

Also known as HME (Hot Melt Extrusion), FFF (Fused Filament Fabrication), or FDM (Fused Deposition Modeling).

Published in 2022

Published in 2021

Published in 2020

Published in 2019

Published in 2018

Published in 2017

Published in 2016