Prof. Ashley Spear has received the Constance Tipper Silver Medal from the International Congress on Fracture (ICF), the highest honor that the ICF bestows on a mid-career researcher. The award is given every four years in honor of Constance Tipper, a pioneer in the field of fracture mechanics who is well-known for her discoveries of ductile-to-brittle transition in metals used in the construction of wartime ships during World War II. Spear received the medal in Tipper’s honor for her “innovative research in simulating 3-D cracking and multi-scale modeling of fracture in metals.” One of the cornerstones of Spear’s lab...
Continue readingSpear Named University Presidential Scholar
The annual award recognizes excellence and achievement for faculty members at the assistant or associate professor level and comes with $10,000 in annual funding for three years to support their scholarship and enrich their research activities. Read more in the full article here: https://attheu.utah.edu/facultystaff/2022-u-presidential-scholars-named/ ...
Continue readingDamage-enabled FFT simulations provide insight into failure of 3D polycrystalline materials
The MMM Lab and collaborators from Los Alamos National Laboratory and the High Strain-Rate Mechanics of Materials Lab at Utah published work on their recent implementation and experimental validation of a damage-enabled crystal-plasticity FFT code. Click here to read the full paper in the International Journal of Plasticity!...
Continue readingMMM Lab Awarded 1st Place NIST AM-Bench Challenge
The MMM Lab received a first-place award in the National Institute for Standards and Technology (NIST) Additive Manufacturing Benchmark Test Series, a competition that enables teams to test their simulations against additive manufacturing benchmark test data. The team included graduate students Carter Cocke, Brian Phung, Laura Ziegler, Elliott Marsden, and Vignesh Babu Rao. In the team’s specific challenge, titled “Subcontinuum Mesoscale Tensile Test,” all the competing teams were given a set of materials characterization data for a small sample of 3D-printed Inconel 625, a type of nickel alloy. They were then asked to make blind predictions of the mechanical (stress-strain)...
Continue readingNew work on Void Descriptor Function published in Acta Materialia
Recent MMM Lab graduate, Dillon Watring, and collaborators from the National Institute of Standards and Technology (NIST) published work on the extension and experimental evaluation of a void descriptor function, or VDF. The VDF is intended to provide a unique parameter to characterize complex void networks in structural metals, including additively manufactured metals. Compared to other pore-related metrics reported in the literature, the VDF parameter has been shown to be more strongly correlated with ductile-metal failure properties, including fracture location. Click here to learn more!...
Continue readingMMM Lab & Collaborators Named Top Performer in National Additive Manufacturing Modeling Challenge
MMM Lab & collaborators were named a Top Performer in a national additive manufacturing modeling challenge hosted by the Air Force Research Laboratory and America Makes. University of Utah mechanical engineering associate Professor Ashley Spear, undergraduate researcher Carter Cocke, Prof. Anthony Rollett from Carnegie Mellon University, and Dr. Ricardo Lebensohn from Los Alamos National Laboratory are a U led team and awardees of the America Makes and Air Force Research Laboratory (AFRL) Additive Manufacturing Modeling Challenge Series. The goal of the Challenge Series was to improve the accuracy of model predictions for metal, using INCONEL® nickel-chromium alloy 625 (IN625)....
Continue readingMMM Lab Represents at TMS Annual Meeting
MMM Lab members recently presented work at the TMS Annual Meeting in San Diego, CA. The following presentations included MMM Lab members: Predicting Microstructurally Sensitive Fatigue-crack Path in WE43 Magnesium Using High-fidelity Numerical Modeling and Three-dimensional Experimental Characterization: Brian Phung, Duncan Greeley (Univ. of Michigan), Mohammadreza Yaghoobi (Univ. of Michigan), John Allison (Univ. of Michigan), Ashley Spear Accelerating Microstructurally Small Crack Growth Predictions in Three-dimensional Microstructures Using Deep Learning: Vignesh Babu Rao, Brian Phung, Bjorn Johnsson, Ashley Spear Predicting Microstructure-sensitive Fracture Behavior in AM IN625 Using a Damage-enabled Elasto-viscoplastic FFT Framework: Ashley Spear, Carter Cocke, Brian Phung, Laura Ziegler,...
Continue readingMMM Lab welcomes five new members
The MMM Lab recently welcomed Dr. Krishna Prasath Logakannan, Claire Ticknor, Jake Hirst, Bjorn Johnsson, and Allie Richards. Dr. Krishna Logakannan joins the lab as a postdoctoral researcher after earning his Ph.D. in 2021 at IIT Madras and the India & Swinburne University of Technology. He later moved to Johns Hopkins University where he was a member of the Hopkins Extreme Materials Institute prior to joining the MMM Lab at Utah. Claire Ticknor joins the lab as a Ph.D. student. She is originally from Los Alamos, New Mexico, and earned her B.S. degree in Mechanical Engineering at the...
Continue readingCongratulations to Dr. Karen DeMille and Carter Cocke!
We are pleased to announce the graduation of MMM Lab members Karen DeMille and Carter Cocke. Karen DeMille successfully defended her Ph.D. dissertation entitled Establishment of Representative Volume Elements for Microstructurally Small Cracks Using Numerical Simulation and Machine Learning. In her dissertation, she explores the question: “What is the minimum volume of microstructure needed to accurately capture the fields around a microstructurally small crack?”. Since graduating, she has been working as a Research Mechanical Engineer at the Air Force Research Laboratory (AFRL). Congratulations, Dr. DeMille! Carter Cocke successfully defended his M.S....
Continue readingSpear joins editorial boards of EFM and FFEMS
Dr. Spear recently joined the editorial boards for two top journals in the field of fracture mechanics. The aims and scope for each journal are described below. Engineering Fracture Mechanics: EFM covers a broad range of topics in fracture mechanics to be of interest and use to both researchers and practitioners. Contributions are welcome which address the fracture behavior of conventional engineering material systems as well as newly emerging material systems. Contributions on developments in the areas of mechanics and materials science strongly related to fracture mechanics are also welcome. Papers on fatigue are welcome if they treat the fatigue...
Continue readingCongratulations to Dr. Dillon Watring!
Congratulations to MMM Lab member, Dillon Watring, who successfully defended his Ph.D. dissertation this year and was awarded a prestigious postdoctoral fellowship from the National Research Council (NRC) to conduct research at the Naval Research Laboratory. Dillon’s dissertation is entitled Multiscale Characterization of Process-Structure-Property Relationships in Additively Manufactured IN718 and can be downloaded here. Congratulations, Dr. Watring! ...
Continue reading