Penn State Master of Engineering in Additive Manufacturing and Design Review

Advocacy Additive Manufacturing technology at CIMP-3D is accomplished through interdisciplinary research conducted with our sponsors by faculty and staff representing the Practical Research Laboratory, a range of Colleges and Departments across the Pennsylvania State University, and manufacture-leading Center Associates, such as 3D Systems and DMG Mori.

The scientific and engineering expertise present within CIMP-3D is unparalleled and has been assembled to aqueduct these formidable technical capabilities to provide global leadership in both cardinal and applied condiment manufacturing research and development. The technical team within the Center boasts over 100 years of collective experience in laser and electron beam deposition technology along with internationally recognized leaders in enabling technologies critical to the advancement of condiment manufacturing. Shown below are members of the CIMP-3D technology squad.

Operation of CIMP-3D is conducted through the Centre's 3 Co-Directors; Dr. Ted Reutzel, Dr. Timothy Simpson and Dr. Michael Hickner. The Eye functions through enquiry support from federal and state governments, as well as from the private sector. An important attribute of the Center's activities is the operation of the Condiment Manufacturing Demonstration Facility (MDF) for the Open Manufacturing initiative of the Defense force Advanced Enquiry Projects Agency (DARPA).

CIMP-3D is besides an integral component of the educational activities of the University in additive manufacturing. Kinesthesia members of CIMP-3D represent the Industrial & Manufacturing Technology, Materials Science & Engineering, and Mechanical & Nuclear Engineering departments within Penn State. This representation provides the footing for cross-disciplinary education and training of undergraduate and graduate students to condiment manufacturing capabilities. Internships and externships through the Center are too utilized to facilitate advanced training of industry and foster workforce evolution in condiment manufacturing technology. The Learning Factory within Penn State'southward College of Engineering also utilizes the CIMP-3D facility to promote awareness and facilitate engineering science transfer in condiment manufacturing technology through a wide array of industry sponsors that participate in its Senior Capstone Design Program.

Ted Reutzel
Penn State ARL and Associate Professor of Enginering Scientific discipline and Mechanics
Director CIMP-3D


Ph.D Mechanical Engineering science, Penn Land

Dr. Reutzel has been involved in arc- and light amplification by stimulated emission of radiation-based metal processing since 1993, with emphasis on welding and cladding, and more recently with emphasis on metal-based condiment manufacturing. He has chaired multiple sessions at the International Congress on Laser and Electro Optics (ICALEO), and served as Chair of the Laser Textile Processing for Solar Energy Conference at the SPIE Optics + Photonics outcome from 2012-2014. He has managed numerous programs to investigate and implement laser material processing across a wide range of applications, has authored and co-authored book chapters, has provided invited articles and invited talks internationally. He recently won the 2014 Best Paper Honor at the Solid Freeform Fabrication Symposium – An Additive Manufacturing Briefing.

Timothy Simpson
Penn Country Mechanical & Industrial Engineering
Co-Director CIMP-3D


Ph.D. Mechanical Engineering, Georgia Tech

Dr. Simpson is a Professor of Mechanical & Industrial Engineering at Penn State with affiliate appointments in the School of Technology Pattern, Applied science, and Professional Programs and the College of Information Sciences & Technology. He has received numerous research and didactics awards, including the 2011 ASEE Fred Merryfield Design Award and the 2007 Penn State President'south Award for Excellence in Bookish Integration. He is a Fellow in ASME and an Associate Fellow in AIAA. He is Co-Managing director of CIMP-3D.

Michael Hickner
Penn Land Materials Science and Engineering
Co-Director CIMP-3D


Ph.D. Chemical Technology, Virginia Tech

Dr. Hickner joined Penn State equally an Assistant Professor in 2007. Previously, he was a postdoc and subsequently became a staff member at Sandia National Laboratories. Professor Hickner's research and teaching interests include all aspects of polymeric materials, polymer micro- and nano-structure, transport characterization, spectroscopy, electrochemistry, and new materials for free energy applications.

Joseph Bartolai
Penn State ARL


Ph.D. Mechanical Technology, Penn Country

Dr. Bartolai joined ARL in 2019 every bit an Banana Research Professor. His enquiry expertise is in Material Extrusion Additive Manufacturing of thermoplastic polymers, specifically the polymer welding mechanism by which MEAM parts develop mechanical strength and the effects of toolpath design on part thermal history and strength. Dr. Bartolai's other inquiry interests and experience include lattice structures, build optimization, in-situ temperature measurement, and mechanical testing.

Allison Beese
Penn State Materials Science & Technology


Ph.D. Mechanical Applied science, Massachusetts Institute of Engineering science

Dr. Beese is a professor of Materials Science and Technology at Penn Country University. Her research interests are in experimental and computational multiscale mechanics of materials ranging from metals to composites. Her research focuses on developing experimental methods to elucidate the connections amidst the microstructure, macroscopic deformation, damage accumulation, and failure properties of materials. This experimental data is used to create physically-based large deformation and failure models to predict component operation.

Barbra Belko
Penn State ARL


Inquiry Project Director

Mrs. Belko specializes in initiating and coordinating the management functions of the ARL Light amplification by stimulated emission of radiation Processing Partition as well as CIMP-3D, including; financial/accounting operations, grant/contract administration, security guidance, human being resource management, office information initiatives, and full general office administration. She has over 30 years of administrative feel with ARL.

Sven Bilén
Penn State Electrical Engineering and Aerospace Engineering


Ph.D. Electric Engineering, University of Michigan

Dr. Bilén is an Associate Professor of Engineering Pattern, Electrical Applied science, and Aerospace Engineering and Head of the School of Engineering Design, Technology, and Professional Programs. He is a member of the EE Department'south Communications and Infinite Sciences Laboratory and likewise a fellow member of the Propulsion Engineering Inquiry Center. He serves as the Main Technologist for the Academy's Heart for Space Research Programs. He is the founding manager of the Certificate in Infinite Systems Applied science and the Student Space Programs Lab. Prof. Bilén's inquiry projects are coordinated through his direction of the Systems Blueprint Lab. Dr. Bilén is fellow member of IEEE (Senior Member), AIAA (Associate Boyfriend), AGU, ASEE, INCOSE, and Sigma Xi.

Steve Brown
Penn State ARL


M.S. Engineering Mechanics, Virginia Tech

Mr. Brown has 15 years of professional person engineering experience and his expertise extends from his mechanical and engineering science mechanics background to the integration of electrical, optical, and software aspects of light amplification by stimulated emission of radiation-based systems. He designed and built a consummate multi-kilowatt directed free energy deposition system in use CIMP-3D and has led other projects culminating, for example, in a cladding arrangement deployed at Pearl Harbor Naval Shipyard to repair pitting and corrosion impairment inside Vertical Launch Organization (VLS) missile tubes on Los Angeles Class submarines.

Long-Qing Chen
Penn Country Materials Science & Engineering


Ph.D. Materials Science and Engineering, Massachusetts Institute of Engineering science

Long-Qing Chen is Donald W. Hamer Professor of Materials Science and Engineering, Professor of Engineering Science and Mechanics, and Professor of Mathematics. His areas of involvement and enquiry include stage-field methods for describing microstructural development, multiscale materials modeling, properties of inhomogeneous materials, and thermodynamics and kinetics of phase transformations. He is a Fellow of the Materials Research Society (MRS), American Physical Gild (APS), American Ceramic Society, and American Society for Metals (ASM) and received the 2003 Academy Kinesthesia Scholar Medal in Engineering and a Distinguished Professorship in 2012 at Penn State, a Guggenheim Fellowship in 2005, the 2006 ASM Materials Enquiry Silver Medal, the 2011 TMS EMPMD Distinguished Scientist Award, and the 2014 MRS Materials Theory Award.

Stephen Copley
Penn State ARL/ Engineering Science & Mechanics


Ph.D Engineering science, University of California at Berkley

Dr. Copley holds dual appointments as Senior Scientist at the Applied Inquiry Laboratory and Professor of Engineering Science and Mechanics. He has been a technical contributor to the laser materials processing field since the 1970s. Dr Copley is a Fellow of ASM International and ASME. He is a By President and Trustee of ASM International and currently chairs the Board of Trustees of the ASM Materials Instruction Foundation.

David Corbin
Penn State ARL


Ph.D Mechanical Engineering, Penn State

Dr. Corbin joined Penn State ARL in 2019 as an Assistant Inquiry Professor and has been involved in the prediction and control of part deformation through thermal-mechanical modeling of Directed Energy Deposition and Powder Bed Fusion processes. He additionally has experience in sensor integration, and sensor/data analytics for determining the quality of AM components including applications of process control and motorcar learning.

Peter Coutts
Penn State ARL


MEng. Mechanical Engineering, Rochester Institute of Technology

Mr. Coutts joined Penn Country ARL in 2015 as a Research and Development Engineer and is the software architect for the Data Direction Arrangement for Additive Manufacturing (DMSAM), an automated full-blooded information drove tool. He also specializes in laser and CMM inspection and reverse engineering also as hybrid Additive Manufacturing.

Tarasankar DebRoy
Penn State Materials Scientific discipline & Engineering


Ph.D, Indian Institute of Science, Bangalore, Bharat

Dr. DebRoy is Professor of Materials Science and Engineering at Penn State, a Founding Editor of Science and Technology of Welding and Joining, Chair of American Welding Society's Research and Development Committee and Chair/Co-Chair of the last six Trends in Welding Enquiry Conferences. He models of welding and 3D printing based on theories of metallurgy and heat transfer and fluid catamenia are widely used in industries, research labs and universities. His research, documented in over 320 papers, has been widely recognized by numerous awards such as a Fulbright Distinguished Chair, UK Royal University of Applied science's Distinguished Visiting Fellowship, IIW's Yoshiaki Arata Award, Penn State'due south Faculty Scholar Medal, AWS and ASM Beau awards and AWS Honorary Membership honor.

Ed DeMeter
Penn Country Industrial & Manufacturing Engineering, Mechanical Engineering


Ph.D. Industrial Technology, Virginia Tech

Dr. De Meter is a Professor of Industrial & Manufacturing Applied science with an affiliate appointment in the Dept. of Mechanical Technology. His general enquiry interests are in the areas of manufacturing engineering science development, manufacturing processes, manufacturing error assay, and computer aided manufacturing. His most contempo involvement is the science, mechanics, and engineering evolution of secondary machining processes too as their apply for processing additive manufactured parts. He is too interested in the science and technology of agglutinative workholding for high precision, manufacturing processes.

Corey Dickman
Penn State ARL


B.S. Electro-Mechanical Engineering, Penn State Altoona

Mr. Dickman specializes in light amplification by stimulated emission of radiation-based Powder Bed Fusion (PBF) Additive Manufacturing for metals and Material Extrusion of thermoplastics. He brings several years of feel in mechanical design from the aerospace industry which aligns his electric current interests towards the practical applications such equally pattern for manufacturing and topology optimization.

Greg Dillon
Penn State Erie Plastics Engineering Engineering


Ph.D. Materials Engineering, Academy of Limerick

Dr. Dillon is associate professor of Plastics Engineering Technology at Penn State Erie, The Behrend College. He has over 25 years of feel in industry and university based contract inquiry and development, with an emphasis on applied science transition. His research interests are focused on structure-process-property relationships in advanced materials and optimization of procedure economics through cost structure analysis. Formerly the associate director for inquiry and technology transfer in Behrend's school of engineering science, he has had a career long focus on multidisciplinary research. He has also held research leadership positions at MIT, Northrop Grumman and at Penn State's Applied Research Laboratory.

Tim Eden
Penn State ARL and Professor of Engineering Science and Mechanics


Ph.D. Mechanical Engineering, Penn State

Dr. Eden joined Penn Land ARL in 1990 and is currently the Interim Head of the Material Science Sectionalisation. His inquiry is focused on developing materials and cloth processes for a wide range of applications, materials characterization and engineering transfer. He is been recognized for his work in Cold Spray technology and is on the board of the DoD's Cold Spray Activity Team. Areas of interest in Cold Spray include procedure evolution, powder development, corrosion resistant materials, improved wear resistant materials, cocky-lubricating coating, structural repair, thermal management, biocompatible materials, condiment manufacturing and implementation. He received the 2013 Defense Manufacturing Technology Accomplishment Award.

Mary Frecker
Penn State Mechanical and Biomedical Engineering


Ph.D. in Mechanical Technology, University of Michigan

Dr. Frecker is a Professor of Mechanical Engineering and Biomedical Engineering and is the Acquaintance Department Caput for Graduate Programs in Mechanical & Nuclear Engineering at the Pennsylvania State University. Dr. Frecker'southward research interests are in the areas of adaptive structures and pattern optimization with applications in aerospace and medical devices. Dr. Frecker has been awarded the GM/Freudenstein Immature Investigator Honor past the ASME Mechanisms Committee (2002), the Outstanding Advising Award past the Penn State Engineering Society (2002), the Outstanding Enquiry Award by the Penn Land Applied science Society (2005), and iii Best Newspaper awards from the ASME Adaptive Structures and Cloth Systems Technical Committee (2009 and 2015). She is a Boyfriend of the ASME. Dr. Frecker has served every bit Associate Editor of the ASME Journal of Mechanical Pattern, Chair of the ASME Adaptive Structures and Fabric Systems Technical Committee, member of the ASME Mechanisms & Robotics Committee, and Executive Committee fellow member of the ASME Aerospace Sectionalization.

Randy Haluck
Penn State Department of Surgery, Hershey Medical Middle


Thou.D., Penn State

Dr. Haluck is Professor of Surgery and Vice Chair for Engineering science and Innovation for the Department of Surgery at Penn Country'due south Hershey Medical Center and College of Medicine. Dr. Haluck developed the Laparoscopic Surgery Program at Hershey and his Division at present offers Laparoscopic, Bariatric, Robotic, and Flexible Endoscopic Surgery. Dr. Haluck has spent well-nigh of his career on medical device evolution. He designed simulators through a Penn Sate spin-out visitor that he founded to teach laparoscopic surgery. His simulators have been used to teach many students and physicians throughout the U.s.a. and abroad. He at present heads up the Surgery Innovation Group, which is a multi-discliplinary medical device development group that reaches across campuses at Penn State.

Reginald Hamilton
Penn Land Engineering Scientific discipline and Mechanics


Ph.D. in Mechanical Technology, University of Illinois

Dr. Hamilton is a Professor of Engineering Scientific discipline and Mechanics at Penn State. His research supports the departmental strategic inquiry and educational thrusts in advanced materials and manufacturing and in mechanics. His interests are in experimental mechanics and constitutive behavior of multifunctional stimulus-responsive materials. His grouping uses multi-scale deformation measurements and correlates microstructure to underlying concrete mechanisms in order to institute the interrelationships between fabrication technology and functionality. Dr. Hamilton is exploring condiment manufacturing for shape retention alloys in society to achieve multifunctional material behavior across multiple length scales.

Terry Harrison
Penn State Supply Chain and Data Systems


Ph.D. Management Science, University of Tennessee

Dr. Harrison is the Earl P Stiff Executive Education Professor of Business and Professor of Supply Chain and Data Systems in the Smeal College of Business at Penn State. His main interests are in the area of large-scale production and distribution systems and supply chain pattern via deterministic and stochastic optimization. He served every bit the President of INFORMS in 2012 and has been recognized nationally and internationally for his instruction and inquiry contributions.

Corey Jamieson
Penn Land ARL


B.S. Applied Materials Engineering, Penn State

Mr. Jamieson joined ARL in 2019 every bit a Enquiry and Development Engineer, his focuses is on light amplification by stimulated emission of radiation based additive manufacturing (AM). He uses his knowledge and feel to aid in light amplification by stimulated emission of radiation based directed energy deposition for repair applications, AM process development, and to evaluate metallurgical properties created through AM processes. Mr. Jamieson too engages in advanced surface finishing techniques to develop processes in orders to finish circuitous components inherent with metallic AM.

Griffin Jones
Penn State ARL


B.Southward. Materials Science & Applied science, Penn Country

Mr. Jones focuses on inspection of components, specializing in the development of 10-ray Computed Tomography (CT) for the analysis of a wide range of materials. He brings several years of experience in quality assurance and command from the primary steelmaking and hydro ability production industries, and holds certifications through the American Society for Non-destructive Testing (ASNT) and the American Welding Guild (AWS).

Sanjay Joshi
Penn State Industrial & Manufacturing Engineering


Ph.D. Industrial Applied science, Purdue University

Dr. Joshi is currently Professor of Industrial and Manufacturing Applied science at Penn State and has been with the university since 1987. He received Ph.D. in Industrial Engineering from Purdue University in 1987.His research and teaching interests are in the areas of Reckoner Aided Design and Manufacturing (CAD/CAM) with specific focus on Computer Aided Process Planning, Rapid Prototyping Processes and Tooling, and Nano Manufacturing. He is a Fellow of IIE and recipient of awards, including Presidential Young Investigator Honor from NSF 1991, Outstanding Immature Manufacturing Engineer Award from SME 1991, and Outstanding Young Industrial Engineer Award from IIE in 1993.

Jay Keist
Penn State ARL


Ph.D. Materials Scientific discipline and Engineering, University of California - Berkley

Dr. Keist has seven years of industrial feel in metal processing and forming. He received the Sir Humphrey Davy Scientific Merit Laurels from the Magnesium Division of the American Foundry Society in 2010 and was accustomed to the Lawrence Scholar Plan with the Lawrence Livermore National Laboratory during his Ph.D.

Kevin Koudela
Penn State ARL


Elizabeth Kupp
Penn State Materials Scientific discipline and Technology


Ph.D. Materials Science and Technology, Penn State

Dr. Kupp is the Manager of the Advanced Materials Processing Laboratory, a teaching and user facility in the Section of Materials Science and Engineering science, as well every bit a Enquiry Associate of the Section of Materials Scientific discipline and Engineering. Her research interests are in the surface area of ceramic pulverisation processing, particularly for optical, electronic and structural applications. She has worked on developing source powders and paste formulations for ink jet press and fused deposition modeling condiment manufacturing techniques, respectively.

Jingjing Li
Penn Land Industrial and Manufacturing Engineering


Ph.D. Mechanical Engineering, Academy of Michigan

Dr. Li is an associate professor in the Department of Industrial and Manufacturing Technology at Penn Country, and previously was an assistant professor in the Department of Mechanical Engineering at University of Hawaii. She was selected as an NSF CAREER awardee in 2016, based on her research proposal titled "CAREER: Surface Interactions in Dissimilar Material Joining." Dr. Li is an associate editor of Periodical of Manufacturing Processes, organized the 9th International Workshop on Microfactories (IWMF 2014), and has served equally symposium chairs for ASME International Manufacturing Science and Engineering Conferences (MSEC) since 2013. Her primary research involvement focuses on materials processing and characterization, particularly on novel methodologies for multi-scale material characterization, mechanical behavior, failure analysis, and consequence of microstructure on macroscopic properties.

Fred Lia
Penn State ARL


Graduate Assistant/ Thou.S. Materials Science & Applied science, Penn State

Mr. Lia has spent 5 years on the Optomec LENS MR-7 organisation and more than 2 years on the ExOne M-Lab organisation. His responsibilities under CIMP-3D accept involved various aspects of materials and process development, with the goal of advancing laser deposition engineering science to the bespeak that it may be used for manufacturing. His curent focus is on determining the advantages and potential challenges of additive manufacturing advanced materials, such every bit super alloys, ceramics, and composite materials.

Zi-Kui Liu
Penn State Materials Scientific discipline and Engineering


Ph.D. Physical Metallurgy, Royal Institute of Applied science (KTH, Sweeden)

Dr. Liu is a professor of Materials Scientific discipline and Engineering science and the Managing director of the Center for Computational Materials Design at Penn State. His main research interest is computational thermodynamics based on starting time-principles calculations and CALPHAD modeling. He has been at the Pennsylvania Land University since 1999 and the Editor-in-Chief of CALPHAD journal since 2001. Prof. Liu has published over 300 scientific articles including 270 in peer-reviewed journals. Dr. Liu is the co-founder and the managing director of the National Science Foundation Center for Computational Materials Design.

Stephen Lynch
Penn State Mechanical Engineering


Ph.D. Mechanical Engineering, Virginia Tech

Dr. Lynch is a Shuman Family Early Career Professor in Mechanical Engineering at Penn State University, and the manager of the Experimental and Computational Convection Laboratory. His research interests include aerodynamics and convective heat transfer for gas turbine engines and heat exchangers, and advanced technologies fabricated possible for these devices past additive manufacturing. Dr. Lynch received an Function of Naval Research Young Investigator award in 2015, and is an active member of ASME and AIAA.

Guha Manogharan
Penn State Mechanical Applied science


Ph.D. Industrial and Systems Technology, North Carolina State Academy

Dr. Manogharan is an assistant professor of Mechanical Engineering science at Penn State University. His research interests in condiment and hybrid manufacturing include: design rules for CAD-CAM specific to AM, cloth development, CNC machining and non-traditional post-processing of AM. His research focuses on developing role designs and process planning for post-processing of AM parts to attain GD&T and surface finish requirements using contact and non-contact metrology tools. Dr. Manogharan is an active fellow member of ASME, IISE and SME and was named the 2016 Outstanding Young Investigator past the IISE- Manufacturing and Design Sectionalisation.

Kenneth Meinert
Penn State ARL


Ph.D. Materials Science and Technology, Penn State

Dr. Meinert manages the facilities at CIMP-3D. He has over 20 years of experience at the Applied Enquiry Laboratory in the development, and application of laser processing technology. He specializes in laser-based processing for a variety of metals alloys, including aluminum, nickel, and copper-based alloys, also equally metal-matrix composites.

Nicholas Meisel
Penn State Applied science Design and Mechanical Engineering


Ph.D. Mechanical Engineering, Virginia Tech

Dr. Meisel is an Banana Professor of Engineering Design and Mechanical Engineering in the School of Technology Pattern, Engineering science, and Professional person Programs (SEDTAPP) at Penn State. He is the director of the Made by Blueprint Lab, which conducts enquiry in the area of design for additive manufacturing (DfAM) every bit well as its office in applied science education. Dr. Meisel'southward current research centers on high-level, innovative DfAM concepts (e.g., functionally graded multi-material press, in-situ embedding) and the touch on of process parameters on role design and manufacturability. Dr. Meisel was recently appointed to the Penn Country College of Engineering's Emmert H. Bashore Faculty Development Professorship.

Gary Messing
Penn Land Materials Science and Engineering


Ph.D. in Materials Scientific discipline and Applied science, University of Florida

Dr. Messing was Founding Director of the NSF Industry/University Cooperative Enquiry Heart on Particulate Materials in 1991 and became Manager of the Materials Research Laboratory in 1997. He was Visiting Professor at the University of Paris, Research Fellow at Curtin University of Technology, Perth, Australia, and visiting kinesthesia at ETH-Zurich. Messing is Distinguished Professor of Ceramic Science and Engineering and was the Caput of the Department of Materials Science and Engineering. In 2002/3 he was President of the American Ceramic Guild. He is currently Editor in Chief of the Journal of Materials Research. Messing has published over 250 papers and co-edited 13 books on solution synthesis, stage transformations, processing-microstructure relations, sintering and templated grain growth.

Panagoitis Michaleris
Senior Software Architect at Autodesk


Ph.D. Theoretical and Applied Mechanics, University of Illinois at Urbana-Champaign

Dr. Michaleris has over 25 years of experience in loftier performance calculating and thermo-mechanical process modeling such every bit additive manufacturing, welding and thermal forming. After receiving his Ph.D., Dr. Michaleris joined Edison Welding Institute (EWI) as senior research engineer. In 1997 he joined the faculty of the Section of Mechanical and Nuclear Engineering of The Pennsylvania State University pursuing didactics and research in computational mechanics, finite element methods, manufacturing process modeling, and residual stress and distortion. In 2012 Dr. Michaleris co-founded Pan Computing LLC for the development and back up commercial software for physics-based modeling of additive manufacturing processes, which was acquired past Autodesk in 2016.

Simon Miller
Penn Land ARL


Ph.D. Mechanical Engineering, Penn State

Dr Miller joined Penn State ARL in 2016 as an Banana Enquiry Professor and has been exploring the use of pattern, conclusion making, avant-garde manufacturing, optimization, and deep learning to solve circuitous problems. His research ofttimes explores the connexion of AM to provide operational responsiveness using printed unmanned aerial systems and their components, and the role of artificial intelligence to the pattern procedure.

Wes Mitchell
Penn State ARL


M.S. Mechanical Engineering science, Academy of Pittsburgh

Mr. Mitchell joined ARL in 2015 equally a Research and Development Engineer later on working for seven years in the precision machine design industry. He has noesis and feel in design, manufacturing, and testing which he utilizes on the laser-based Powder Bed Fusion (PBF) Condiment Manufacturing and Directed Free energy Deposition (DED) processes.

Suzanne Mohney
Penn Land Materials Scientific discipline & Engineering and Electrical Technology


Ph.D. Materials Scientific discipline, University of Wisconsin

Dr. Mohney has been on the faculty at Penn Country for most 20 years working with metals for electronics, including on-chip metallization, electronic packaging, and electric connectors. She is particularly concerned with the processing, electric resistance, ecology stability, and electromigration resistance of electric conductors. Applications of this work include automative electronics, solid-state lighting, photovoltaics, electronics for space exploration, and computation. Dr. Mohney is also Editor in Primary of the Journal of Electronic Materials.

Abdalla Nassar
Penn State ARL


Ph.D. in Engineering Science, The Pennsylvania State University

Dr. Nassar currently serves as the acting head of the Procedure Physics, Analytics, and Technology Department within the Condiment and Laser Manufacturing Sectionalization of Penn State ARL. He has been with ARL since 2013 and has severed as principle investor and participated in numerous programs on light amplification by stimulated emission of radiation processing, powder bed fusion, and directed energy additive manufacturing (AM). Dr. Nassar has adult software and algorithms related to direct integration of laser processes with computational modeling, implemented data conquering and control systems on lab-scale and commercial additive manufacturing equipment, discovered defect-detection strategies, and investigated novel strategies for microstructural control, part build-up, and postal service-processing methods for additively manufactured components. Dr. Nassar also has Graduate Faculty appointments with the Engineering Scientific discipline and Mechanics Department and the Additive Manufacturing & Design Graduate Program at Penn State. His work has led to over six patent filings along with numerous publications on topics including the digital thread concept for AM, sensing and control of AM processes, post-processing methods for support removal, modeling AM processes, light amplification by stimulated emission of radiation-plasma nitriding of titanium, and characterization of plasma via optical emission spectroscopy.

Hee Jeung Oh
Penn Country Chemic Engineering


Ph.D. Chemical Engineering science, University of Texas at Austin

Dr. Oh is an assistant professor of Chemical Technology at Penn State University. Her research focuses on pattern, synthesis, processing and transport, and structural characterization of polymer membranes and blended materials for energy-efficient separations, free energy storage and biomedical applications.

Ibrahim Ozbolat
Penn State Engineering Science & Mechanics


Ph.D, The University of Buffalo

Dr. Ibrahim T. Ozbolat is an associate professor at the Pennsylvania State University in the Engineering Science and Mechanics Department and a faculty member of the Huck Institute of the Life Scientific discipline. Dr. Ozbolat's main area of research is in 3D Bioprinting and Tissue Engineering. His specific research focuses on development of novel bioprinting science and technology for diverse areas in regenerative medicine. He has published over 80 publications and his research has been well-recognized globally and featured in various venues. Dr. Ozbolat has been recognized for his research with awards including the International Outstanding Young Researcher in Freeform and Condiment Manufacturing Award (2015), Hamed G. Eldin Outstanding Early Career IE in Academia Award (2015), the SME Outstanding Immature Manufacturing Engineer Honour (2014), an NSF CAREER Honour (2014), the ASME Chao and Trigger Young Manufacturing Engineer Accolade (2014) and the ASME Pi Tau Sigma Gold Medal (2014). He is co-founder of a spin-off company, Virtual Systems Engineering, LLC.

Todd Palmer
Penn Country ARL and Associate Professor of Materials Science and Engineering


Ph.D Material Scientific discipline & Engineering, Penn State

Dr. Palmer is currently a Senior Research Associate and an Associate Professor of Materials Scientific discipline and Engineering at the Pennsylvania State Academy. Previously, he was a metallurgist at Lawrence Livermore National Laboratory. He is the author of more than than lxx articles and reports, and his current enquiry focuses on the light amplification by stimulated emission of radiation and electron axle joining and additive manufacturing of metal materials. He is currently chair of the C7 Committee on High Energy Beam Welding and Cutting, vice chair of the of the newly formed D20 committee on additive manufacturing for the American Welding Society (AWS), and a member of the Welding Handbook and Welding Enquiry and Evolution Committees. He is a member of the editorial board for Scientific discipline and Technology of Welding and Joining and a key reader for Metallurgical and Materials Transactions as well every bit a principal review for the Welding Journal Research Supplement.

Vittal Prabhu
Penn Land Industrial & Manufacturing Engineering


Ph.D Mechanical Engineering, University of Wisconsin-Madison

Dr. Prabhu works in the area of distributed control systems with a focus on manufacturing and service enterprises. The goal of his research is to develop a unified mathematical and computational framework that enables technology of distributed control systems consisting of discrete-events, physical processes, and service processes. The science-base of operations of this work includes theories of discontinuous differential equations, Lyapunov stability, adaptive command, and nonlinear control for studying distributed algorithms. He has researched modeling and real-fourth dimension control of physical processes such as cryogenic freezing, laser manufacturing, and electron beam-physical vapor degradation.

Jim Runt
Penn State Materials Science & Technology


Ph.D. Solid State Science, Penn Land

Dr. Runt is a Professor of Polymer Science in the Materials Science and Engineering science Department at Penn State. He is the author of over 190 peer-reviewed publications and book chapters, and is a Young man of the American Physical Society and the American Constitute of Medical and Biological Engineers. His current research focuses on 3 master areas: 1) Ion and polymer dynamics and nanoscale structure of 'unmarried ion' polymer conductors and more conventional ion-containing polymer systems (ionomers); 2) Nanoscale construction and dynamics of polyurethane and polyurea segmented copolymers, the former having chemistries of particular interest in biomedical applications; 3) Investigation of structure and dynamics of complex polymer systems including oriented elastomers and crystalline polymers, and polymer blends and solutions.

Jason Scherer
Penn Country ARL


Jeffrey Schiano
Penn Land Electrical Engineering


Ph.D Electrical Applied science, University of Illinois

Dr. Schiano joined the faculty of Penn State University in 1994, following 3 years equally a visiting banana professor at the University-of Illinois at Urbana-Champaign. His inquiry interests in control system applications span three areas: nuclear resonance, neural network controllers, and microelectromechanical systems. Jeff Schiano has also organized a microelectromechanical systems inquiry group in the Section of Electric Technology. His focus within the group is on the development of feedback control systems that enable electron tunneling based transducers to provide loftier sensitivity measurements of linear acceleration and athwart velocity.

Al Segall
Penn State Engineering Science & Mechanics


Ph.D Applied science Science & Mechanics, Penn State

Dr. Segall is Professor of Applied science Scientific discipline and Mechanics at Penn State and has over 30 years of experience testing and modeling advanced materials under severe conditions including thermal-daze, circuitous laser-machining operations, AM, and wear. He is too very active with Cold-Spray additive methods and the development of unique self-lubricating or micro-porous materials and coatings. Dr. Segall has received numerous awards including the 2013 Outstanding Advising and 2015 Outstanding Teaching awards from the Penn State Engineering Alumni Order. Finally, he is an active member and Fellow of the American Gild of Mechanical Engineers (ASME) and the Gild for Tribology and Lubrication Engineers (STLE), and currently serves as an Acquaintance Editor of the ASME Journal of Pressure Vessel Engineering science and STLE Tribology Transactions.

Dave Snyder
Penn State ARL


Ph.D. Chemic Engineering and Materials Scientific discipline, Carnegie Mellon University

Dr. Snyder is the caput of the Electronic Materials and Devices Section at Penn State ARL and holds Adjunct Professor positions in the Chemical Engineering and Interdisciplinary Graduate Caste Program in Materials Science. His research interests include chemical vapor deposition of semiconductor materials, lithography, carving and deposition process development for semiconductor device fabrication, thermal management, electronic packaging and condiment manufacturing for passive electronic components, circuits and sensors.

James Tarter
Penn State ARL


Ph.D. Mechanical Engineering, Carnegie Mellon University

Dr. Tarter joined ARL Penn State every bit a researcher in 2000 and is currently the section head of the Advanced Computational Analysis and Design department. He had 17 years of industry feel in inquiry and development prior to joining Penn Land. Dr. Tarter specializes in simulation and modeling and has led a wide variety of projects at ARL related to mechanical system modeling, thermal modeling, fatigue and fracture simulations, micro-mechanical material modeling, loftier charge per unit Eulerian Lagrangian coupled simulations for nail and ballistic analyses and fluid/structure interaction models for structural and thermal performance predictions. Dr. Tarter has published a wide multifariousness of journal articles and several book chapters related to these simulation methods in both unclassified and classified venues, and typically has program responsibility for $two-3M of ongoing inquiry projects.

Karen Thole
Penn State Mechanical & Nuclear Technology


Ph.D Mechanical Engineering, University of Texas at Austin

Dr. Karen A. Thole is the head of the Department of Mechanical and Nuclear Engineering at Penn State. Dr. Thole's expertise is heat transfer and cooling of gas turbine airfoils through detailed experimental and computational studies. At Penn Land, Dr. Thole founded the Steady Thermal Aero Research Turbine Laboratory (START) lab, which houses a unique test turbine facility and is a center of excellence in heat transfer for a major gas turbine manufacturer. This facility provides a test bed for evaluating additive manufactured components for turbine applications. Dr. Thole has published over 200 archival journal and conference papers supervised over 65 dissertations and theses. She has served as the Chair of the Board of Directors for the American Society of Mechanical Engineers International Gas Turbine Institute and is a member of NASA'south National Aeronautics Commission. She has been recognized by the U.South. White House equally a Champion of Change for STEM, the Rosemary Schraer Mentoring Award, and the Howard B. Palmer Faculty Mentoring Laurels. Dr. Thole also received the 2014 Guild of Women Engineer'due south Distinguished Engineering Educator Award, the 2015 ASME George Westinghouse Gold Medal, and the 2016 Edwin F. Church Medal.

Judith Todd
Penn Land Technology Science & Mechanics


Ph.D. Materials Science, Cambridge University

Dr. Todd is Department Caput, P. B. Breneman Chair and Professor of Engineering Science and Mechanics. Her enquiry interests include: evolution of advanced materials and manufacturing processes, laser-sustained plasma, laser-materials interactions, mechanical beliefs and nondestructive evaluation of materials. Dr. Todd received the Presidential Award for Excellence in Science, Mathematics and Technology Mentoring in 2007. She is a Boyfriend of the American Order of Mechanical Engineers, ASM International and the Clan of Women in Science.

Scott Tokarz
Penn State ARL


B.Southward. Manufacturing Engineering, Pennsylvania College of Engineering science

Mr. Tokarz joined Penn Country ARL in 2008 and brings over a decade of hands on research experience in the design, fabrication, assembly and testing of undersea vehicle systems. His skills include CAD/CAM modeling, instrumentation, data collection and mechanical test preparation. Scott is currently focusing on metallography, optical microscopy, etching, hardness testing and microstructural interpretation of parts made from additive manufacturing processes.

Mark Traband
Penn Land ARL and Penn State Industrial and Manufacturing Engineering


Ph.D. Industrial Engineering, Penn State

Dr. Traband is an Associate Director of Penn Land's Applied Research Laboratory and leads the Fabric and Manufacturing Office. This role includes the research and development at CIMP-3D, equally well equally complementary efforts in blended materials, coatings, electronic materials, manufacturing systems, condition-based maintenance, and logistics. Mark holds a Graduate Faculty appointment in the Department of Industrial and Manufacturing Engineering. He has 30 years of experience in academy based contract research and development..

Jay Tressler
Penn Land ARL


Technology Support Specialist

Mr. Tressler specializes in Laser welding, hybrid welding, cut, cladding and direct energy deposition. He brings 25 years of light amplification by stimulated emission of radiation processing experience to CIMP-3D.

Robert Voigt
Penn Country Industrial Engineering science


Ph.D. Metallurgical Engineering science, Academy of Wisconsin-Madison

Dr. Voigt is a Professor of Industrial Technology at Penn State and directs Penn State's metalcasting plan. His inquiry focus in the surface area of construction/holding/processing relationships for loftier strength ferrous materials. He has received numerous research, instruction and advising awards, including the 2013 Barlow Honor from the SFSA. He is a Fellow of SME.

Qian Wang
Penn Country Mechanical and Nuclear Engineering science


Ph.D. Mechanical and Aerospace Engineering, Princeton Academy

Dr. Wang is a Professor of Mechanical Applied science at Penn State Academy. Her research interests are in the development of reduced-order models which are needed for real-time control organisation blueprint and optimization for light amplification by stimulated emission of radiation-based additive manufacturing processes. She has also published intensively in randomized algorithms for probabilistic robust control, flight control systems, performance management of calculator systems and data center, building thermal condolement modeling and building control, and direction of insulin-dependent diabetes.

Evan Westward
Penn State ARL


B.S. Mechanical Applied science, Penn Country

Mr. West joined Penn State ARL in 2018 as a Research and Development Engineer and focuses on blueprint for laser-based Pulverization Bed Fusion (PBF) Additive Manufacturing and Fused Deposition Modeling (FDM) processes. He likewise engages in the analysis of material characterization and mechanical backdrop of PBF components.

Douglas Wolfe
Penn State ARL


Ph.D. Materials, Penn Land

Dr. Wolfe is currently a Professor of Materials Scientific discipline and Engineering, Professor of Engineering science and Mechanics, and the Metals, Ceramic and Coatings Processing Department Head for the Applied Research Laboratory at The Pennsylvania State University. Dr. Wolfe'southward inquiry activities include the synthesis, processing, and characterization of nano, multilayered, nanostructured, functionally graded, ceramic, and metallic coatings, materials and systems manufacturing by electron beam physical vapor deposition (EB-PVD), cold spray, thermal spray technologies, chemical vapor degradation (CVD), cathodic arc concrete vapor deposition, sputtering, plating (Ni, Cu, Pt), field assisted sintering technology (FAST), hybrid processes, and various other PVD processes. Dr. Wolfe is also exploring ceramic condiment manufacturing for hypersonic applications.

Greg Welsh
Penn State ARL


Thousand.S. Materials Scientific discipline, Caltech

Mr. Welsh has viii years of experience in corporate research and development and an additional viii years of authorities service with science and engineering science evolution likewise as acquisition support for US Naval aviation. Prior to joining ARL in 2019, Mr. Welsh served as NAVAIR'southward Metallic Additive Manufacturing Lead. He has experience negotiating qualification and certification requirements and has managed multiple projects which have produced airworthy additively manufactured parts.

Namiko Yamamoto
Penn State Aerospace Engineering science


Ph.D. Aeronautics and Astronautics, Massachusetts Institute of Technology

Dr. Yamamoto is an assistant professor of Aerospace Engineering at Penn State since 2014. Her expertise emphasizes experimental studies on advanced multi-functional cloth blueprint for applications in aerospace and other farthermost environments and their scalable manufacturing. She currently works on polymer composites reinforced with carbon nanotube, ceramics toughened by hierarchical integration of weak interphases including nano-porosity, and seamless one-piece manufacturing of functionally graded metal superalloys. SME.

Hui Yang
Penn State Industrial and Manufacturing Applied science


Ph.D. Industrial Engineering and Management, Oklahoma Country University

Dr. Hui Yang is the Harold and Inge Marcus Career Associate Professor in the Harold and Inge Marcus Department of Industrial and Manufacturing Applied science at The Pennsylvania Land Academy, University Park, PA. Dr. Yang's research interests focus on sensor-based modeling and analysis of circuitous manufacturing systems for process monitoring, process command, organization diagnostics, condition prognostics, quality comeback, and operation optimization. Dr. Yang is the president (2017-2018) of IISE Data Analytics and Data Systems Society, the Chair (2015-2016) of INFORMS Quality, Statistics and Reliability (QSR) society, and is also an associate editor for IISE Transactions, IEEE Robotics and Automation Letters (RA-L), and Proceedings of IEEE International Briefing on Automation Science and Engineering science (2016, 2017, 2018, 2019).

Michael Yukish
Penn State ARL


Ph.D. Mechanical Engineering science, Penn Land

Dr. Yukish is the head of the Manufacturing Systems Division at ARL and an Assisitant Provessor of Aerospace Engineering. His overarching research focus is on pattern and conclusion making, from simple components to complex systems. Research topics pertinent to additive manufacturing include examining the impact of AM on acquisition, sustainment and DOTMLPF (doctrine, organization, training, materiel, leadership and pedagogy, personnel, and facilities); designing unmanned air vehicles and aerodynamic structures for additive manufacturing; and using AI to design for additive manufacturing. He is also a retired Naval Aviator with over 1800 flight hours and 300 carrier landings.

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Source: http://www.cimp-3d.org/keypersonnel.html

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