Here are the members and alumni of the Computational Manufacturing and Materials Research Lab in the UC Berkeley Department of Mechanical Engineering. If you would like to know more about our members’ research pursuits, please contact them directly.



Tarek I. Zohdi


Research Description:

Research themes:

   (1) Modeling and simulation of advanced manufacturing and 3D printing systems

   (2) Modeling and simulation of multiphase/composite material behavior

   (3) Modeling and simulation of fire propagation and control with the Fire Research Group

   (4) Modeling and simulation of UAVs and swarms

   (5) Modeling and simulation of biological systems

   (6) Modeling and simulation of ballistic fabric shielding

Methods of analysis:

   (1) Discrete Element Methods

   (2) Finite Element Methods

   (3) Finite Difference Methods

   (4) Computational Optics

   (5) Machine-Learning Algorithms

   (6) Agent-Based Methods

Director of the Fire Research Group
Professor Zohdi’s Webpage

Visiting Scholars


Takashi Maeshima

Ultra-fast laser-patterning computation for advanced manufacturing of powdered materials

Dr. Maeshima started studying here as a visiting researcher. He is from Japan. He is working for TOYOTA CENTRAL R&D Labs as a researcher. His major is materials science and engineering. He will study prediction of the deposition of mixed powder material and of selective melting phenomenon of the mixed powder. He likes to play golf and go camping, and used to play the guitar.


Graduate Student Members


Donghoon Kim

Toolpath optimization of additive manufacturing process using Machine Learning

Donghoon is a PhD student in mechanical engineering at University of California, Berkeley. His main interests are Machine Learning, Deep Learning and its application to the modeling and simulation of advanced manufacturing processes. Other interests include swelling and fatigue of batteries, mesh-free particle methods and micro/nano scale self-assembly. In his free time, he usually goes to the gym or plays some magic tricks to other people.


Connect: LinkedIn


Youngkyu Kim

Mechanical properties of composite materials

Youngkyu received his B.S. in Mechanical Engineering from POSTECH, and he is currently an MS/PhD student in the Mechanical Engineering department. His main research interest is in improving a fully coupled thermo-mechanical MPM/GIMP. Also, he is working on developing a simplified numerical model of surface processes for a Kalman Filter.


Nicolas Castrillon

Toolpath Planning for Additive Manufacturing

Nicolas is an M.S./Ph.D. student interested in new technologies for advanced manufacturing, such as Additive Manufacturing. After receiving his B.S. in Mechanical Engineering from the University of Florida, he worked at GE as a mechanical design engineer in the consumer products, gas turbine power generation, and oil & gas industries. Outside of his work, he enjoys playing soccer, rock climbing, and road biking. There is nothing better for him than to be out in nature.


Connect: LinkedIn

Avery Rock

Modeling and Simulation of Powder Deposition for 3D Printing

Avery is an MS/PhD student advised by professor Zohdi. Avery graduated from Brown University with a BS in Materials Science Engineering.


David Gabriel Alcantara

Multiscale modeling and simulation of robotic free-form electrophoretic 3D printing

David is an MS/PhD student in mechanical engineering at UC Berkeley co-advised by Profs. Tarek Zohdi and Philip Marcus. David graduated from the University of Maryland, College Park with a BS in mechanical engineering, as well as a BS in computer science. Outside of academics he enjoys hip-hop dance and video/board gaming.


Roger Isied

Modeling and Simulation of Laser Sintering for 3D printing

Roger is a Ph.D. student in Mechanical Engineering with a B.S. in Mechanical Engineering from UC Berkeley. His previous research experience is in photocuring manufacturing processes and mechanical testing of additively manufactured specimens. Outside of research, Roger enjoys playing basketball, volleyball, and exploring.


Kate Edwards

Modeling of Additive Manufacturing of Bio Materials

Kate is a M.S. student in mechanical engineering at UC Berkeley with a B.S. in mechanical engineering for Louisiana State University. Her research interests are in additive manufacturing and biomechanics through computational modeling. In her spare time Kate enjoys reading, visiting art museums, and hiking.


Brian Howell

Dynamic Optimization for Advanced Manufacturing Methods

After receiving his B.S. in Chemical Engineering from Brigham Young University,
Brian worked at Lawrence Livermore National Laboratory as a research engineer developing radiative-
curing materials for advanced manufacturing techniques. As a PhD student in the Mechanical
Engineering department, Brian is interested in toolpath & trajectory optimization, as well as model
predictive control of additive manufacturing processes. In his spare time, Brian is an avid cyclist and
long-distance runner.


Zachary Yun

Multi-physics Modeling of Advanced Manufacturing Processes

Zack is an M.S./Ph.D. student interested in optimization of advanced manufacturing processes through computational modeling combined with experiments. Before entering the grad program at UC Berkeley, he received his B.S. in Mechanical Engineering from Cal Poly SLO and then worked as a manufacturing engineer for Haas Automation supporting varied manufacturing processes in the machine shop through tooling/fixture design, experimental process development, and robotic/automation projects. Outside of research, Zack enjoys spending time outdoors hiking, backpacking, surfing, and going to watch baseball and hockey games.


Payton Goodrich

Design and fabrication of biodegradable sensor nodes

Payton Goodrich is a PhD student in mechanical engineering co-advised by Prof. Tarek Zohdi (ME) and Prof. Ana Arias (EECS). Payton received his B.S. in Mechanical Engineering from Iowa State University in 2015 and his M.S. in Mechanical Engineering from UC Berkeley in 2018. His research interests are in printed electronics, wearable devices, and environmental sensors. Outside of the lab, Payton enjoys stand-up comedy, mixed-martial arts, and backpacking.


Undergraduate Student Members


Sarvesh Sadana

Development of novel polymer composites for use in 3D printing

Sarvesh is an undergraduate student majoring in physics and mathematics at UC Berkeley. His main research interests include additive manufacturing, particle physics, and nuclear fusion (in fact, he once built a nuclear fusion reactor from scratch in his garage). Outside of research, he enjoys playing board and video games.


Master of Engineering Capstone Project Teams (2019~2020)


Large Scale Floating Solar Farms

We are designing and analyzing an improved module for floating solar to be used on human-made bodies of water.

Arthur Labarre


Gina Myers


Priyaj Mehta


Roger chen


Weiheng Lu



WildFire Technologies–Geographic Data Analysis, Multi-UAV ML Path Planning, and Computer Vision Efficiency Enhancement

Our team project is basically divided into three parts. In the first part, the team will dive into wildfire geographic data collection and analysis. Annually burned area size and locations of each state will be calculated and analyzed by pixel computation. We will also visualize the data and provide solid supports for following multi-UAV path planning. In the second part, after selecting one or several specific high-risk locations as examples, we employ machine learning/GE Algorithm to multi-UAV path planning model, aiming to minimize various kinds of cost, like energy and human resources, by modifying parameters including domain, location weight, UAVs’ mass, speed, and initial distribution. In the third part, we focus on flash-based ToF and Lidar-based body scanning process by enhancing its performance on the speed and accuracy of simulation, enlarging scanning scope, and applying to real occasions including wildfire emergency.

Jingtong Zhao


Rui Sun


Rui Xu


Wei Huang



Fire Technologies in the Era of Climate Change – Digital Twin Between UAV Controlled Mapping and Deployable Fire Simulations

The Fire Technologies Capstone strives to provide a comprehensive solution to wildfire risk reduction. Our team will focus on pairing fire simulations and real-life environments through controlling swarms of UAVs in a mapping effort. Through this digital twin, we look to produce a simulation method to predict fire propagation through digitally recreated terrain and identify how to distribute that information primarily for mobile fire fighting decision-making purposes.

Carlos Núñez


Jeremy Hamlin


Mikio LaCapra





Simon Schmidt

Phase Field Modelling of Transformation and Failure Mechanisms

Simon graduated from the University of Kaiserslautern with a Dipl.-Ing. in theoretical fundamentals of mechanical engineering. He is a PhD student in Kaiserslautern, working on modelling the martensitic transformation in metastable austenitic steels using a phase field approach. In his spare time he enjoys running, swimming and cycling.


Lukas Bante

Adapted Solver Methods for the Simulation of Additive Manufacturing

Lukas received B.S. degrees in Mechanical Engineering and Business Administration and a M.S. in Aerospace from the Technical University of Munich. He is a visiting student here at the CMMRL as part of his graduate studies. Further research interests are aerospace applications of additive manufacturing, space robotics and flight data analysis. He spends his spare time biking, hiking or climbing in the mountains and singing as a classical baritone.


Christoph Schreiber

Phase field modeling of fracture

Christoph received his B.Eng. and M.Eng. degrees in his Bavarian home at HAW Landshut before he moved to Kaiserslautern to start his Ph.D studies at TUK. Currently, he enjoys his second scholar visit to the CMMR Lab. His research is focused on modeling different aspects of fracture, as e.g. fracture of anisotropic materials or fatigue crack growth utilizing the phase field method. When there is time, he likes to travel, go hiking, running, or snowboarding.



Chang Yoon Park

Particle Based Simulation Framework for Sintered Mechanical Components

Chang yoon Park graduated from UC Berkeley in 2019.
His research topic was on optimizing toolpaths via physical simulations of the nozzle extrusion process in additive manufacturing techniques.
Currently, he is working in personal projects in the San Francisco Bay Area.


Shanna Hays

Modeling of Inkjet Printing with Photopolymers

Shanna got her Ph.D. in Mechanical Engineering in 2019. Research interests include investigation of material properties and behavior during additive manufacturing through computational modeling. In her spare time she enjoys jogging and hiking with her dog.


Timo Schmidt

Modeling and simulation of SLS-3D printing process

Timo received his B.Sc. in Mechanical Engineering at the Technical University of Hamburg (Germany), and he is currently in a Master’s program in Hamburg. In the framework of a one year exchange program between the Technical University of Hamburg and UC Berkeley, Timo works in the Computational Manufacturing and Materials Research Lab. His main interests are various particle based multiphysics simulations. Moreover, he is interested in Additive Manufacturing and robotics. In his free time, he plays a European sport called team handball and he enjoys skiing and hiking.


Connect: LinkedIn


Maxwell Micali

Adaptive Toolpath Planning for Additive Manufacturing Using Physical Simulation and Optimization

Maxwell received his M.S. & Ph.D. in mechanical engineering at UC Berkeley. His Ph.D. work couples fast physical simulation and evolutionary machine learning techniques to optimize additive manufacturing, preventing common process defects without human intervention. He was also a member of the Laboratory for Manufacturing and Sustainability, and is broadly interested in digital manufacturing, production planning, human-machine interaction, and sustainable manufacturing. He received his B.S. in mechanical engineering from Yale University. Non-engineering interests include marine biology, skiing, and science policy.



Connect: LinkedIn

M. Erden Yildizdag

3D Printing of Smart Materials

Erden is from Kadikoy, Istanbul. His research interests include additive manufacturing, material point method, isogeometric analysis, and level set method. He is currently working on modeling and simulation of extrusion based additive manufacturing applications.


Connect: LinkedIn

Sasha Evans

Performance and reliability considerations in using recycled materials in consumer electronics

She is interested in advanced manufacturing technologies with the focus on innovative materials, performance, and reliability, and is currently working as a Reliability Engineer for consumer electronics in the Bay Area. In her spare time she enjoys running, hiking, skiing, and reading a good book.



Santiago Miret

Multi-scale and Multi-physics Modeling

Santiago got his PhD in Materials Science & Engineering co-advised by Prof. Tarek Zohdi in the Mechanical Engineering Department and Mark Asta in the Materials Science & Engineering Department. Santiago’s research focuses on creating a design tool for composite materials in exigent environments by using numerical methods to compute their properties and behavior.



Brett Kelly

Three-Dimensional Holographic Lithography

Brett was co-advised by Prof. Hayden Taylor, working on development of new technologies for volume-at-once 3D printing. He likes to run, and he competed in Track and Field and Cross Country for Cornell University as an undergraduate. Don’t worry, he enjoys playing real sports as well, and he also loves skiing and being on a mountain in general.


Marc Russell

Multi-physics Modeling of Additive Manufacturing Processes

Ph.D.(ME): 05/2018. While at the CMMRL, Marc researched the use of Mesh-Free numerical methods to simulate Additive Manufacturing Processes. Marc is currently serving as an engineering consultant. Outside of work, he is interested in space exploration and promoting science and engineering in his community. In his spare time, he enjoys trail running, cycling, watching soccer, cooking, and eating ice cream. Go Bears!



David Fernandez (America's cup)

David Fernández-Gutiérrez

Delta Voronoi Smoothed Particle Hydrodynamics, ẟ-VSPH

Ph.D. (ME): 05/2018. Prior to come to Berkeley, David worked in the R&D department of Seaplace, an offshore consulting company in Spain. His research interests include numerical hydrodynamics, structural design, and advanced control systems. Outside the university, he loves soccer, biking, hiking and reading. He’s part of the Mechanical Engineering Athletics Team, so go MEAT!



Connect: LinkedIn

Christian Zeller

Adaption of Numerical Methods, Laser Beam Melting

He was a visiting PhD student from the Institute for Machine Tools and Industrial Management of Technical University of Munich, Germany. He got a bachelor degree in mathematics and a master degree in mathematic in science and engineering. His research is on the adaption of numerical methods to the specific requirements of the additive manufacturing technology laser beam melting. In his spare time, he enjoys doing every kind of sport.



Zeyad Zaky

Particle-laden fluid for manufacturing and industrial processes.

Ph.D.(ME): 12/2017. Zeyad is currently at Apple Inc. working on display processes. His expertise is in computational modeling, scientific computing, and numerical techniques. Namely, his thesis work used Lattice Boltzmann models to simulate infiltration into permeable porous media as applied to CMC manufacturing. Zeyad also has passions in applying optimization models and methods to simulations in order to hone in on the most desirable parameter spaces for a desired output, and he has used Genetic Algorithms and Simulated Annealing to this end. He also has a passion for Sensitivity Analysis in order to perform dimension reduction for simulations, thereby optimizing around the most important inputs. In his free time he enjoys spending time with family, playing sports and being active, reading, learning, talking, and eating.


Anna Rehr

Finite Elements, Contact Mechanics, Error Estimation and Mesh Adaptivity

Anna is a graduate student in Computational Mechanics at TU Munich. She was a visiting student at UC Berkeley in the Computational Manufacturing and Materials Research Lab, where she wrote her Master Thesis in the field of Error Estimation and Adaptive Refinement for Contact Mechanics. In her spare time, she enjoys hiking, traveling and playing soccer.


Henning Wessels

Meshfree Methods, Selective Laser Melting

Henning was a visiting PhD student from the group of Prof. Wriggers in Hannover, Germany. His research focuses on the development of mesh free methods to enhance simulation of additive manufacturing processes, especially Selective Laser Melting. He is a passionate outdoor activist who enjoys swimming, cycling and hiking.



Matthew W. Kury

Beam Based Modeling of Open-Celled Foams

Soil Simulations in Subterranean Blasts

He is an avid dancer, in his undergraduate years he was a member of various dancing organizations, from the competitive ballroom team to the social tango club. In recent years, he mostly dances socially, namely hustle and swing. He has even helped a couple prepare for their wedding dance. In addition, he enjoys playing board games and seeing movies.


Mickey Clemon

Statistical modeling and experimentation for manufacturing

Ph.D.(ME): 5/2017. Mickey is currently a Partner and Consultant at Taylor & Clemon Consulting LLC (9/2017). He is a design expert and additive manufacturing researcher. He investigates material defect formation in, material reuse and recycling for, and real-time monitoring of powder-based additive manufacturing processes. In addition, he explores environmental impacts of manufacturing and design engineering for hazardous waste processing. His primary methods involve statistical modeling and experimentation.




Atrin Sarmadi

Multi-physics modeling

M.S.: 5/2017. He is currently a Manufacturing Engineer at ODMS LLC. His interests include Additive Manufacturing, Sustainable Manufacturing, Manufacturing Systems and Renewable energy technologies. Atrin’s hobbies include playing and watching sports, and he is a certified open scuba diver.



Anju Toor

Nanoparticle-Polymer Composite Dielectric Materials for High Performance Energy Storage

Anju Toor is currently a postdoc in the Materials Sciences Division at Lawrence Berkeley National Lab. She completed her PhD in May 2017 under the guidance of Prof. Albert Pisano and Prof. Tarek Zohdi. Her research interests include Nanomaterials Self-assembly, Polymers, Thin Films and Nanocomposites. She has developed solid state dielectric materials with high dielectric permittivity and low dielectric loss properties. She is currently working on generating structured liquids employing nanoparticle-polymer self-assemblies at the liquid interfaces.


Alex Alves Bandeira

Computational Modeling of Solid Mechanics

Post-Doctoral Scholar: UC Berkeley (6/2015-7/2016). Associate Professor of Civil Engineering at the Federal University of Bahia (Brazil). Holds MSc (1997) and Ph.D. (2001) degrees in Civil Engineering from the University of São Paulo, Brazil. Since 1997, has been working in computational mechanics applied to structural engineering, optimization, non-linear analysis, finite element method, contact mechanics, impact problems, elastoplasticity, reinforced concrete and concrete structures reinforced with carbon fiber. Developed part of his Ph.D. research with Prof. Peter Wriggers at the Institute for Computational Mechanics in the Leibniz University of Hannover, Germany (1999-2001), and with Prof. Giorgio Zavarise, at the University of Padua, Italy (1999-2000). Developed a Post-Doctoral Scholar (2015-2016) at the University of California, Berkeley, with Prof. Tarek Ismail Zohdi, in the Computational Manufacturing and Materials Research Lab. Since 2015, has been developing research in Discrete Element Method, particle methods, computational materials, granular materials and structural fabric.



Semion Shaul

Kidney Stones: Fluid Dynamics Modeling and ESWL Treatment

Post-Doctoral Scholar: UC Berkeley (01/2015-09/2016). He is currently a Solid State Research Scientist at Perrigo API. Semion received his PhD from BGU, Israel. He enjoys finding solutions to problems in areas of mechanical, chemical and bio system engineering. He believes that the source for innovation is finding simple and creative solutions to challenging problems.



Syd Hashemi

Multiscale and Multiphysics Modeling of Heat Transfer

He enjoys playing tennis, squash, and soccer.



Maria Pace

Silicon Nanowires for Chemical Sensors, True pH Measurement and Species Identification

Now a post-doc at UCSF, she conducted her PhD research under the supervision of Dean Albert P. Pisano and Professor Tarek I. Zohdi. Some of her research interests include design, modeling and characterization of MEMS nanowire electrochemical sensors, resonators, harsh environment MEMS, modeling and design of transducers and investigation of mechanical and electrical properties of 2D materials.
Maria received the National Science Foundation Fellowship in 2010.


Daniel Driver

EM Simulations of Laser Ablation for Roll-to-Roll Manufacturing of Flexible Electronics 

Ph.D.(ME): 12/2015. He is an Engineering Analyst at Lawrence Livermore National Lab (1/2016~). He is a North American Unicycle Basketball Champion.




Aashish Ahuja

Developing Energy Efficient Facades for Buildings

Prior to working on this project, he helped Applied Materials in developing an API between Siemens NX and Simulink as a part of his Master’s thesis at UC, Berkeley. He completed his undergraduate degree from BITS, Pilani, India in Mechanical Engineering. His hobbies include ballroom dancing, table tennis, and windsurfing.



John Stevens

Operational Analysis of Artificial Photosynthetic Systems

Interests include renewable energy technology, energy policy, and CO2 sequestration. Hobbies include the outdoors and bicycling.



Rishi Ganeriwala

Multiphysical Modeling and Simulation of Selective Laser Sintering

Ph.D.(ME): 12/2015. He is currently an Engineering analyst and computational mechanics code developer at Lawrence Livermore National Lab (01/2016 – present). Interests include 3D printing and novel additive manufacturing technologies. Also deeply interested in renewable energy technologies, energy efficiency, and environmental policy. Some hobbies include hiking, running, music, and reading.



Alejandro Queiruga

Simulation of Electromagnetically Sensitive Ballistic Fabric

His research interests include Electromagnetic Structure Interaction, Impact Phenomena, Numerical modelling of multiphysics problems. His personal hobbies include Go, Electronics, FPGA programming.




Bhavesh Patel

Modeling and Simulation of Particle Doped Materials under an Electromagnetic Field

Ph.D.(ME): 12/2015. Job title: Assistant Research Professor. Hailing from France, he received his “Diplôme d’Ingénieur” Arts et Métiers from ParisTech, France. His hobbies include soccer, Bollywood movies, and music.




Ercan Degirmenci

Discrete Multi-Scale Network Modeling of Fabric Undergoing Ballistic Impact

He was a visiting scholar in CMMRL (2013-2014). He is currently an associated Professor at Turkish National Defense Ministry. Previous research focused on experimental, theoretical and numerical aspects of impact phenomena that are mostly associated with the design and simulation of high-strength isotropic and anisotropic materials.


Eduardo M.B. Campello

DEM Formulations for the Modeling of Particulate Materials and Biological Membranes and FEM Formulations for the Analysis of Thin Structures

Associate Professor at the Department of Structural and Geotechnical Engineering, University of São Paulo, Brazil. Was a post-doctoral researcher at the Institute for Computational Mechanics in the Leibniz University of Hannover, Germany (2006), and a Visiting Scholar at the University of California at Berkeley, USA (2012-2014, Department of Mechanical Engineering). Holds MSc and DSc degrees in Civil Engineering from the University of São Paulo (2000 and 2005), and Habilitation in Solid Mechanics from the Polytechnic School, University of São Paulo (2016). Has research efforts focused on theoretical and numerical aspects of computational mechanics that are associated with three main subjects: (1) thin flexible structures, (2) steel structures, and (3) granular materials and discrete media. Member of the Editorial Board of the scholarly journal Computational Particle Mechanics (Springer) and President (elected, since 2016) of the Brazilian Association for Computational Methods in Engineering (ABMEC – an IACM affiliated).




Debanjan Mukherjee

Discrete Particle Simulation Techniques for the Analysis of Colliding and Flowing Particulate Media

Ph.D.(ME): 12/2013. He is currently a Post-doctoral Scholar UC Berkeley Mechanical Engineering. In his free time Dr. Mukherjee likes to pursue his interests in music and to try his hand at cooking new recipes.


Website: Dr. Mukherjee’s Webpage


Ilker Temizer

FEM Composites, Multi-Scale Modeling, Homogenization and Modeling of Fabrics

M.S.: 2003, Ph. D.(ME): 12/2005. He is currently an assistant professor at Bilkent University, Turkey. He leads Computational Multiscale Mechanics Laboratory where the research efforts are focused on the theoretical and numerical aspects of computational mechanics that are associated with multiscale-multiphysics modeling strategies for heterogeneous materials and interfaces.


David Powell

FEM Composites, Multi-Scale Modeling, Homogenization and Modeling of Fabrics

M.S.: 2005, Ph. D.(ME): 2008. He is currently an Engineer with Baker Engineering and Risk Consultants. He was once a staff scientist at the Army Research Labs (ARL). In his free time, David likes to paint and attend art competitions. He also enjoys learning about history, especially ancient history, and traveling.



Diego Arbelaez

Computational Modeling of Granular Flows for Industrial Applications

M.S.: 2005, Ph. D.(ME): 5/2008, and was co-supervised with D. Dornfeld. Post-Doctoral Scholar: UC Berkeley (5/2008-5/2009).



Jonathan Wenk

FEM Composites, Multi-Scale Modeling, Homogenization and Modeling of Fabrics

M.S.: 2005, Ph. D.(ME): 5/2008, and was co-supervised with P. Papadopoulos. Currently an assistant professor at the University of Kentucky.



George Mseis

FEM Composites, Multi-Scale Modeling, Homogenization and Modeling of Fabrics

Ph.D.(ME): 12/2010. He is currently a product design engineer at Apple.


Tim Kostka

FEM, Ductile Fracture, Material Localization

Ph.D.(ME): 5/2010. He is currently a Principal Member of the Technical Staff at Sandia National Laboratories (2010-present).




Lik Chuan Lee

Coupling of Cardiac Electrophysiology with Cardiac Mechanics

Ph.D.(ME): 06/2010. Post-Doctoral Scholar: UC Berkeley/UCSF(with Prof. J. Guccione), 07/2010-12/2012. He is currently an assistant professor at Computational Biomechanics Research Group at Michigan State University since 08/2014. Previous research included study of grain boundary diffusion in polycrystalline solids, and its effects on seismic wave attenuation.



Doron Klepach

Computational Mechanics, Continuum Mechanics, Bio-Mechanics, Multiphysics Modeling, FEM

Ph.D.(ME): 12/2010. Post-Doctoral Scholar: UC Berkeley/UCSF(with Prof. J. Guccione), (12/2010-8/2012). He is currently a lecturer at Tel-Aviv University, Israel.



Ryan Krone

FEM, Composites, Multi-Scale Modeling, Homogenization and Modeling of Fabrics

Ph.D.(ME): 12/2010 and was co-supervised with D. Steigmann. Post-Doctoral Scholar: Stanford University, (8/2013-7/2014). Post-doctoral fellowship in the Biodesign program at Stanford 2012-13. He is currently a Co-Founder and Chief Technology Officer of Madorra Inc.. Ryan spends his working hours on his medical device start-up (Madorra) and another medtech company focused on changing the paradigm for interventional stroke care in the Bay Area. His free time he spends with his wife and kids being active where they live in Portland, OR.


Sun Choi

Particulate Flow in Channels

Ph.D.(ME): 5/2012 and was co-supervised with A. Pisano. Post-doc fellow at LBNL (06/2012-05/2014). He is currently a Senior Research Scientist at Korea Institute of Science and Technology (06/2014~).




Brett Collins

Multi-Scale Modeling of Electromagnetic Composites and Micromechanics

Ph.D.(ME): 5/2013. He is a Senior Member of Technical Staff at Sandia National Laboratories – Livermore CA.


Hiroyuki Minaki

Multiscale Modeling

Ph.D.(ME): 5/2013 and was co-supervised with S. Li. Currently works for a tire manufacturer in Japan.



Peter Minor

Discrete Element Modeling of Impact Damage on Thermal Barrier Coatings

Ph.D.(ME): 12/2013. He is currently a Partner of CITRIS Foundry at UC Berkeley. His hobbies and interests include technology, energy affairs, environmentalism, and current events.


Philipp Glösmann

Post-Doctoral Scholar: Hamburg, Germany (8/2007-8/2008)


Gilles Lubineau

Composite and Heterogeneous Materials Analysis and Simulation

Visiting Researcher: 2007-2008. He is currently a professor of Mechanical Engineering at KAUST and a principal investigator of Composite and Heterogeneous Materials Analysis and Simulation Laboratory (COHMAS).


Konrad Linnemann

Post-Doctoral Scholar: UC Berkeley (01/2009-06/2009). He is currently a Scientific Employee at the BAM Bundesanstalt für Materialforschung und -prüfung, 12200 Berlin, Germany.


Master of Engineering Capstone Project Teams (2018~2019)


Simulation and Optimization of Fused Deposition Modeling(FDM) Process

The market of Additive Manufacturing process has grown dramatically from 5 billions to 7 billions by 40% in 2018. However, this process is hard to simulate because of its transient(time-depending) model. In order to model this process, I had utilized Star-CCM+ and its API in Java to generate a simulation model. Further, optimizations and several parameter studies regarding to printing environment are conducted with the simulation model.

Zhi-Wei Lin


Lei Zhou


Yucao Ji


Ismail Breiwish



Master of Engineering Capstone Project Teams (2017~2018)


WorkOutimal (Smart Exercise Machine)

The goal of WorkOutimal is to create a stationary exercise bike that is able to passively guide the rider through an efficient workout. An efficient workout, for our purposes, is one in which the combination of force applied by the user and the velocity of pedalling results in a maximum power output. Therefore, the workout is able to burn the most amount of calories per unit time. We will be simulating an ideal control system, while building the hardware to implement a simplified version of the system. Additionally, our team has done market research and created a business plan for bringing this technology to market.

Abdulaziz Alfaris


Rex Chen


Bradley Los


Meredith Meyer


Ming-Hsueh Wu


Shican Zheng



Next Generation 3D Printing Materials

We are working to create new 3D printer materials that have properties that are determinable by the customer. The printing process should be user-friendly, cost efficient, and maintain the integrity of the material, as well as, be easy to produce. Accordingly, our value proposition focuses on customizable 3D printer material, which users are able to choose the properties they want and we will make it for them.

Apoorva Sooranahalli


Jiayun Shao


Xiao Liu


Nagapratik Mundla


Tsung-Ying Tsai


Johann Chow



Modeling the Design of a Specialized Lubricant for Rotating Machinery

We are a bunch of Master of Engineering graduate, working on creating a mathematical model for additive based lubricants. The definition of success or the aim for the project is to build a mechanistic model of the heat generation within a bearing, as a function of the properties of the lubricant and the additives. We will formulate a numerical technique to integrate the model and solve the inverse problem of computing lubricant additives to obtain a given heat generation limit.

Kshitij Verma


Mayur Birari


Gaurav Vijay Shende



Modeling the Dynamics of a Swarm

A swarm is a system composed of a large amount of simple and identical agents which interact locally among themselves without any central control, allowing complex group behavior and emergent collective intelligence. It involves population based algorithms that can generate fast and robust solutions to complicated optimization problems which traditional approaches cannot solve. The main algorithm used in our project, Particle Swarm Optimization, is a population based, stochastic optimization technique. Our capstone project objective is to create simulation software in MATLAB that reproduces the mathematical models of interaction, or “swarm behavior” using the PSO algorithms.

Wendy Siu


Liang Fan