All Stories

  1. A Gaussian process autoregressive model capturing microstructure evolution paths in a Ni–Mo–Nb alloy
  2. Statistically conditioned polycrystal generation using denoising diffusion models
  3. Voxelized atomic structure framework for materials design and discovery
  4. Reduced-Order Models Correlating Ti Beta 21S Microstructures and Vickers Hardness Measurements
  5. High throughput structure–property relationship for additively manufactured 316L/IN625 alloy mixtures leveraging 2-step Bayesian estimation
  6. Neighborhood spatial correlations and machine learning classification of fatigue hot-spots in Ti-6Al-4V
  7. A new framework for the assessment of model probabilities of the different crystal plasticity models for lamellar grains in α+β Titanium alloys
  8. Local-global decompositions for conditional microstructure generation
  9. Bayesian calibration of continuum damage model parameters for an oxide-oxide ceramic matrix composite using inhomogeneous experimental data
  10. Transmission electron microscopy image analysis effects on cellulose nanocrystal particle size measurements
  11. Study of a Bimodal α–β Ti Alloy Microstructure Using Multi-Resolution Spherical Indentation Stress-Strain Protocols
  12. Efficient Generation of Anisotropic N-field Microstructures from 2-Point Statistics using Multi-output Gaussian Random Fields
  13. Prediction of the Electron Density of States for Crystalline Compounds with Atomistic Line Graph Neural Networks (ALIGNN)
  14. Machine learning-enabled feature classification of evaporation-driven multi-scale 3D printing
  15. Multiresolution investigations of thermally aged steels using spherical indentation stress-strain protocols and image analysis
  16. A hybrid approach for the efficient computation of polycrystalline yield loci with the accuracy of the crystal plasticity finite element method
  17. Microstructure Quantification and Multiresolution Mechanical Characterization of Ti-Based Bulk Metallic Glass-Matrix Composites
  18. A Generalized and Modular Framework for Digital Generation of Composite Microstructures
  19. Carbon stoichiometry and mechanical properties of high entropy carbides
  20. Evaluation of the influence of B and Nb microalloying on the microstructure and strength of 18% Ni maraging steels (C350) using hardness, spherical indentation and tensile tests
  21. Materials graph ontology
  22. Machine learning approaches for feature engineering of the crystal structure: Application to the prediction of the formation energy of cubic compounds
  23. Decoding defect statistics from diffractograms via machine learning
  24. Automated Image Processing Workflow for Morphological Analysis of Fluorescence Microscopy Cell Images
  25. Digital Representation and Quantification of Discrete Dislocation Structures
  26. Critical Comparison of Spherical Microindentation, Small Punch Test, and Uniaxial Tensile Testing for Selective Laser Melted Inconel 718
  27. Semi-automatic image analysis of particle morphology of cellulose nanocrystals
  28. Critical comparison of image analysis workflows for quantitative cell morphological evaluation in assessing cell response to biomaterials
  29. Correlation of Measured Load-Displacement Curves in Small Punch Tests with Tensile Stress-Strain Curves
  30. Evaluation of Ti–Mn Alloys for Additive Manufacturing Using High-Throughput Experimental Assays and Gaussian Process Regression
  31. Feature engineering of material structure for AI-based materials knowledge systems
  32. A digital workflow for learning the reduced-order structure-property linkages for permeability of porous membranes
  33. Bayesian estimation of single ply anisotropic elastic constants from spherical indentations on multi-laminate polymer-matrix fiber-reinforced composite samples
  34. New Insights into the Microstructural Changes During the Processing of Dual-Phase Steels from Multiresolution Spherical Indentation Stress–Strain Protocols
  35. Study of Local Mechanical Responses in an Epoxy–Carbon Fiber Laminate Composite Using Spherical Indentation Stress–Strain Protocols
  36. Application of Gaussian process autoregressive models for capturing the time evolution of microstructure statistics from phase-field simulations for sintering of polycrystalline ceramics
  37. Localization models for the plastic response of polycrystalline materials using the material knowledge systems framework
  38. Application of Gaussian Process regression models for capturing the evolution of microstructure statistics in aging of Nickel-based superalloys
  39. A Bayesian framework for materials knowledge systems
  40. Materials knowledge system for nonlinear composites
  41. Establishing structure-property localization linkages for elastic deformation of three-dimensional high contrast composites using deep learning approaches
  42. A new framework for rotationally invariant two-point spatial correlations in microstructure datasets
  43. Phonon transport properties of two-dimensional electride Ca2N—A first-principles study
  44. Application of chord length distributions and principal component analysis for quantification and representation of diverse polycrystalline microstructures
  45. Multiresolution mechanical characterization of hierarchical materials: Spherical nanoindentation on martensitic Fe-Ni-C steels
  46. Data-driven reduced-order models for rank-ordering the high cycle fatigue performance of polycrystalline microstructures
  47. Computationally efficient predictions of crystal plasticity based forming limit diagrams using a spectral database
  48. Prediction of microscale plastic strain rate fields in two-phase composites subjected to an arbitrary macroscale strain rate using the materials knowledge system framework
  49. Material structure-property linkages using three-dimensional convolutional neural networks
  50. Probing nanoscale damage gradients in ion-irradiated metals using spherical nanoindentation
  51. Extracting knowledge from molecular mechanics simulations of grain boundaries using machine learning
  52. Reduced-order structure-property linkages for polycrystalline microstructures based on 2-point statistics
  53. Estimating the slip resistance from spherical nanoindentation and orientation measurements in polycrystalline samples of cubic metals
  54. Extraction of reduced-order process-structure linkages from phase-field simulations
  55. Development of high throughput assays for establishing process-structure-property linkages in multiphase polycrystalline metals: Application to dual-phase steels
  56. On capturing the grain-scale elastic and plastic anisotropy of alpha-Ti with spherical nanoindentation and electron back-scattered diffraction
  57. High throughput exploration of process-property linkages in Al-6061 using instrumented spherical microindentation and microstructurally graded samples
  58. Correlation of spherical nanoindentation stress-strain curves to simple compression stress-strain curves for elastic-plastic isotropic materials using finite element models
  59. Studies of grain boundary regions in deformed polycrystalline aluminum using spherical nanoindentation
  60. Microstructure-based knowledge systems for capturing process-structure evolution linkages
  61. Quantification and classification of microstructures in ternary eutectic alloys using 2-point spatial correlations and principal component analyses
  62. The materials innovation ecosystem: A key enabler for the Materials Genome Initiative
  63. Microstructure taxonomy based on spatial correlations: Application to microstructure coarsening
  64. Effect of microstructure on oxygen rich layer evolution and its impact on fatigue life during high-temperature application of α/β titanium
  65. Investigations of orientation and length scale effects on micromechanical responses in polycrystalline zirconium using spherical nanoindentation
  66. Nacre-like hybrid films: Structure, properties, and the effect of relative humidity
  67. Versatile algorithms for the computation of 2-point spatial correlations in quantifying material structure
  68. Statistical construction of 3-D microstructures from 2-D exemplars collected on oblique sections
  69. Analytics for microstructure datasets produced by phase-field simulations
  70. Machine learning approaches for elastic localization linkages in high-contrast composite materials
  71. In situ X-ray nanotomography of metal surfaces during electropolishing
  72. Proceedings of the 3rd World Congress on Integrated Computational Materials Engineering (ICME 2015)
  73. Application of data science tools to quantify and distinguish between structures and models in molecular dynamics datasets
  74. Representation and calibration of elastic localization kernels for a broad class of cubic polycrystals
  75. Materials Data Science: Current Status and Future Outlook
  76. Structure–property linkages using a data science approach: Application to a non-metallic inclusion/steel composite system
  77. Calibrated Localization Relationships for Polycrystalline Aggregates by Using Materials Knowledge System
  78. Spherical nanoindentation stress–strain curves
  79. Grain-scale measurement of slip resistances in aluminum polycrystals using spherical nanoindentation
  80. Crystal plasticity finite element simulations using a database of discrete Fourier transforms
  81. Materials, Data, and Informatics
  82. Structure–Property Linkages
  83. Microstructure Function
  84. Process–Structure Linkages
  85. Materials Innovation Cyberinfrastructure
  86. Statistical Quantification of Material Structure
  87. Reduced-Order Representations of Spatial Correlations
  88. Generalized Composite Theories
  89. Calibrated localization relationships for elastic response of polycrystalline aggregates
  90. Understanding pop-ins in spherical nanoindentation
  91. Extracting single-crystal elastic constants from polycrystalline samples using spherical nanoindentation and orientation measurements
  92. Data science and cyberinfrastructure: critical enablers for accelerated development of hierarchical materials
  93. Workflow for integrating mesoscale heterogeneities in materials structure with process simulation of titanium alloys
  94. Strong cube recrystallization texture in silicon steel by twin-roll casting process
  95. Mechanical characterization of grain boundaries using nanoindentation
  96. Dependence of mechanical properties on crystal orientation of semi-crystalline polyethylene structures
  97. A data-driven approach to establishing microstructure–property relationships in porous transport layers of polymer electrolyte fuel cells
  98. Exploration of data science techniques to predict fatigue strength of steel from composition and processing parameters
  99. Influence of deformation twinning on static annealing of AZ31 Mg alloy
  100. Morphological Analyses of Polymer Electrolyte Fuel Cell Electrodes with Nano-Scale Computed Tomography Imaging
  101. Effect of the continuous stiffness measurement on the mechanical properties extracted using spherical nanoindentation
  102. Microstructure-Driven Analysis of Two-Phase Transport in Diffusion Media of PEFCs
  103. Resolving macro- and micro-porous layer interaction in polymer electrolyte fuel cells using focused ion beam and X-ray computed tomography
  104. Microstructure Informatics
  105. Key computational modeling issues in Integrated Computational Materials Engineering
  106. Introduction
  107. Spectral Representation
  108. Homogenization Theories
  109. Microstructure Hull and Closures
  110. Design for Performance Optimization
  111. Symmetry in Microstructure Representation
  112. Structure–Property Relations
  113. Description of the Microstructure
  114. Spectral Representation of Microstructure
  115. Tensors and Rotations
  116. Microstructure Evolution by Processing
  117. Higher-Order Microstructure Representation
  118. Higher-Order Homogenization
  119. Second-Order Hull, Property Closure, and Design
  120. Higher-Order Models of Deformation Processing
  121. Electron Backscatter Diffraction Microscopy and Basic Stereology
  122. Novel microstructure quantification framework for databasing, visualization, and analysis of microstructure data
  123. Assessment of lamellar level properties in mouse bone utilizing a novel spherical nanoindentation data analysis method
  124. Estimating the response of polycrystalline materials using sets of weighted statistical volume elements
  125. Multi-scale modeling of the elastic response of a structural component made from a composite material using the materials knowledge system
  126. Microstructure Evolution during Roller Hemming of AZ31B Magnesium Sheet
  127. Critical evaluation of the indentation data analyses methods for the extraction of isotropic uniaxial mechanical properties using finite element models
  128. Computationally Efficient, Fully Coupled Multiscale Modeling of Materials Phenomena Using Calibrated Localization Linkages
  129. Selection of representative volume elements for pore-scale analysis of transport in fuel cell materials
  130. 3-D Microstructure Analysis of Fuel Cell Materials: Spatial Distributions of Tortuosity, Void Size and Diffusivity
  131. Understanding and visualizing microstructure and microstructure variance as a stochastic process
  132. Studying grain boundary regions in polycrystalline materials using spherical nano-indentation and orientation imaging microscopy
  133. Formulation and calibration of higher-order elastic localization relationships using the MKS approach
  134. Microstructural Evolution during Roller Hemming of AZ31 Magnesium Sheet
  135. Microstructure informatics using higher-order statistics and efficient data-mining protocols
  136. Representation and computational structure-property relations of random media
  137. Microstructure Analysis Tools for Quantification of Key Structural Properties of Fuel Cell Materials
  138. Measuring the dynamic mechanical response of hydrated mouse bone by nanoindentation
  139. A new framework for computationally efficient structure–structure evolution linkages to facilitate high-fidelity scale bridging in multi-scale materials models
  140. A Representative Volume Element Approach for Pore-Scale Modeling of Fuel Cell Materials
  141. Deformation twinning in AZ31: Influence on strain hardening and texture evolution
  142. Optimized structure based representative volume element sets reflecting the ensemble-averaged 2-point statistics
  143. Special issue in honor of Lallit Anand
  144. Microstructure sensitive design for performance optimization
  145. Building texture evolution networks for deformation processing of polycrystalline fcc metals using spectral approaches: Applications to process design for targeted performance
  146. Multi-scale modeling of elastic response of three-dimensional voxel-based microstructure datasets using novel DFT-based knowledge systems
  147. Representation of the orientation distribution function and computation of first-order elastic properties closures using discrete Fourier transforms
  148. Viscoelasticity and high buckling stress of dense carbon nanotube brushes
  149. Measurement of the local mechanical properties in polycrystalline samples using spherical nanoindentation and orientation imaging microscopy
  150. Modeling texture evolution in equal channel angular extrusion using crystal plasticity finite element models
  151. Crystal plasticity simulations using discrete Fourier transforms
  152. Importance of surface preparation on the nano-indentation stress-strain curves measured in metals
  153. Determination of an effective zero-point and extraction of indentation stress–strain curves without the continuous stiffness measurement signal
  154. Second-Order Microstructure Sensitive Design Using 2-Point Spatial Correlations
  155. First-Order Microstructure Sensitive Design Based on Volume Fractions and Elementary Bounds
  156. A Comparison of Deformation Textures and Mechanical Properties Predicted by Different Crystal Plasticity Codes
  157. Gradient-based microstructure reconstructions from distributions using fast Fourier transforms
  158. Delineation of the space of 2-point correlations in a composite material system
  159. Modeling Anisotropic Stress-Strain Response and Crystallographic Texture Evolution in α-Titanium during Large Plastic Deformation using Taylor-Type Models: Influence of Initial Texture and Purity
  160. Spectral representation of higher-order localization relationships for elastic behavior of polycrystalline cubic materials
  161. Determination of the effective zero-point and the extraction of spherical nanoindentation stress–strain curves
  162. Application of microstructure sensitive design to structural components produced from hexagonal polycrystalline metals
  163. Computationally efficient database and spectral interpolation for fully plastic Taylor-type crystal plasticity calculations of face-centered cubic polycrystals
  164. A strong contrast homogenization formulation for multi-phase anisotropic materials
  165. A new spectral framework for establishing localization relationships for elastic behavior of composites and their calibration to finite-element models
  166. A crystal plasticity finite element analysis of cross-grain deformation heterogeneity in equal channel angular extrusion and its implications for texture evolution
  167. Thermomechanical Processing for Recovery of Desired $$ {\left\langle {001} \right\rangle } $$ Fiber Texture in Electric Motor Steels
  168. Microstructure reconstructions from 2-point statistics using phase-recovery algorithms
  169. Delineation of first-order closures for plastic properties requiring explicit consideration of strain hardening and crystallographic texture evolution
  170. Analyzing indentation stress–strain response of LaGaO3 single crystals using spherical indenters
  171. Analyzing indentation behavior of LaGaO3 single crystals using sharp indenters
  172. Calibration of elastic localization tensors to finite element models: Application to cubic polycrystals
  173. Retention of the ‹001› Fiber Texture for Fe-Si Electric Motor Steels
  174. Application of Microstructure Sensitive Design to FCC Polycrystals
  175. Fast computation of first-order elastic–plastic closures for polycrystalline cubic-orthorhombic microstructures
  176. Elastic–plastic property closures for hexagonal close-packed polycrystalline metals using first-order bounding theories
  177. Application of the Spectral Methods of Microstructure Design to Continuous Fiber-reinforced Composites
  178. Generalized Pareto front methods applied to second-order material property closures
  179. Prediction of crystallographic texture evolution and anisotropic stress–strain curves during large plastic strains in high purity α-titanium using a Taylor-type crystal plasticity model
  180. Integration of Microstructure-Sensitive Design with Finite Element Methods: Elastic-Plastic Case Studies in FCC Polycrystals
  181. Application of Microstructure Sensitive Design to FCC Polycrystals
  182. Retention of the ‹001› Fiber Texture for Fe-Si Electric Motor Steels
  183. Finite element modeling of crystal plasticity with grains shaped as truncated octahedrons
  184. Strain-path effects on the evolution of microstructure and texture during the severe-plastic deformation of aluminum
  185. Procedures for construction of anisotropic elastic–plastic property closures for face-centered cubic polycrystals using first-order bounding relations
  186. On the elastic properties and mechanical damping of Ti3SiC2, Ti3GeC2, Ti3Si0.5Al0.5C2 and Ti2AlC in the 300–1573K temperature range
  187. Elastic properties closures using second-order homogenization theories: Case studies in composites of two isotropic constituents
  188. Spectral calibration of crystal plasticity models
  189. Solid particle erosion resistance of thermally sprayed functionally graded coatings for polymer matrix composites
  190. Incipient and regular kink bands in fully dense and 10vol.% porous Ti2AlC
  191. Sapphire: A kinking nonlinear elastic solid
  192. Macroscale constitutive modeling of kinking nonlinear elastic solids
  193. Compressive creep of fine and coarse-grained T3SiC2 in air in the 1100–1300°C temperature range
  194. A crystal plasticity finite element analysis of texture evolution in equal channel angular extrusion
  195. Microstructure Sensitive Design with First Order Homogenization Theories and Finite Element Codes
  196. Effects of temperature, strain rate and grain size on the compressive properties of Ti3SiC2
  197. Spectral methods for capturing crystallographic texture evolution during large plastic strains in metals
  198. Finite approximations to the second-order properties closure in single phase polycrystals
  199. Strain hardening due to deformation twinning in α-titanium: Constitutive relations and crystal-plasticity modeling
  200. Micro-Mechanical Finite Element Models for Crystal Plasticity
  201. A Crystal Plasticity Framework for Deformation Twinning
  202. Microscale modeling of kinking nonlinear elastic solids
  203. Dynamic Elastic Hysteretic Solids and Dislocations
  204. Adhesive/Cohesive Properties of Thermally Sprayed Functionally Graded Coatings for Polymer Matrix Composites
  205. Damage Mechanisms around Hardness Indentations in Ti3SiC2
  206. Microstructure Sensitive Design with First Order Homogenization Theories and Finite Element Codes
  207. Ambient- and High-Temperature Properties of Titanium Carbide-Titanium Boride Composites Fabricated by Transient Plastic Phase Processing
  208. Processing and Mechanical Properties of Ti3SiC2: II, Effect of Grain Size and Deformation Temperature
  209. Microstructure sensitive design of an orthotropic plate subjected to tensile load
  210. Detailed analyses of grain-scale plastic deformation in columnar polycrystalline aluminium using orientation image mapping and crystal plasticity models
  211. A quantitative evaluation of the deformation texture predictions for aluminium alloys from crystal plasticity finite element method
  212. Kinking Nonlinear Elastic Solids, Nanoindentations, and Geology
  213. Spherical Nanoindentations and Kink Bands in Ti3SiC2
  214. Texture evolution during equal channel angular extrusion
  215. Kink bands, nonlinear elasticity and nanoindentations in graphite
  216. DNET: The Drexel Nano Engineering Track.
  217. Erosion/Oxidation Resistant Coatings for High Temperature Polymer Composites
  218. How Do Polycrystalline Materials Deform Plastically?
  219. The role of crystallinity in the crystallographic texture evolution of polyethylenes during tensile deformation
  220. Strain hardening of titanium: role of deformation twinning
  221. Fracture properties of multiphase alloy MP35N
  222. Role of Deformation Twinning on Strain Hardening in Cubic and Hexagonal Polycrystalline Metals
  223. Fully reversible, dislocation-based compressive deformation of Ti3SiC2 to 1 GPa
  224. Plane strain fracture toughness of MP35N in aged and unaged conditions measured using modified CT specimens
  225. Quantitative prediction of textures in aluminium cold rolled to moderate strains
  226. Modeling the evolution of anisotropy in Al–Li alloys: application to Al–Li 2090-T8E41
  227. Materials Design by Spectral Methods
  228. A theoretical investigation of the influence of dislocation sheets on evolution of yield surfaces in single-phase B.C.C. polycrystals
  229. Strain hardening regimes and microstructure evolution during large strain compression of high purity titanium
  230. Comparison of two grain interaction models for polycrystal plasticity and deformation texture prediction
  231. Spectral Integration of Microstructure and Design
  232. Modelling Microstructure-Based Anisotropy in BCC Polycrystals during Changing Strain Paths
  233. The incorporation of dislocation sheets into a model for plastic deformation of b.c.c. polycrystals and its influence on r-values
  234. A disclination-based model for grain subdivision
  235. Influence of deformation path on the strain hardening behavior and microstructure evolution in low SFE FCC metals
  236. Microstructure-sensitive design of a compliant beam
  237. Modeling anisotropic strain hardening and deformation textures in low stacking fault energy fcc metals
  238. Editorial
  239. Evolution of grain-scale microstructure during large strain simple compression of polycrystalline aluminum with quasi-columnar grains: OIM measurements and numerical simulations
  240. Work-hardening/softening behaviour of b.c.c. polycrystals during changing strain paths: I. An integrated model based on substructure and texture evolution, and its prediction of the stress–strain behaviour of an IF steel during two-stage strain paths
  241. Crystallographic texture evolution in high-density polyethylene during uniaxial tension
  242. Swelling of crosslinked poly(methylmethacrylate‐acrylic acid) copolymers in serum and saline solutions
  243. Fixation strength of swellable bone anchors in low-density polyurethane foam
  244. Fixation strength of swellable bone anchors in low‐density polyurethane foam
  245. On the prediction of yield surfaces by the crystal plasticity models for fcc polycrystals
  246. Deformation texture transition in brass: critical role of micro-scale shear bands
  247. Biological and mechanical characteristics of the interface between a new swelling anchor and bone
  248. Swelling of crosslinked poly(methylmethacrylate-acrylic acid) copolymers in serum and saline solutions
  249. Evolution of Grain-Scale Microstructure during Large Strain Simple Compression of Polycrystalline Aluminium
  250. Influence of cold-work and aging heat treatment on strength and ductility of MP35N
  251. Influence of grain size and stacking-fault energy on deformation twinning in fcc metals
  252. On the accuracy of the predictions of texture evolution by the finite element technique for fcc polycrystals
  253. Incorporation of deformation twinning in crystal plasticity models
  254. Effect of water absorption on the izod impact energy of crosslinked poly(methyl methacrylate-acrylic acid) and their composites
  255. Determination of unknown stress states in silicon wafers using microlaser Raman spectroscopy
  256. Strain hardening regimes and microstructural evolution during large strain compression of low stacking fault energy fcc alloys that form deformation twins
  257. Synthesis of nickel aluminides by vacuum plasma spraying and exothermic in-situ reactions
  258. Synthesis and characterization of a poly(methyl methacrylate-acrylic acid) copolymer for bioimplant applications
  259. Development of self-anchoring bone implants. II. Bone-implant interface characteristicsin vitro
  260. Development of self-anchoring bone implants. I. Processing and material characterization
  261. Numerical evaluation of isostrain and weighted-average models for elastic moduli of three-dimensional composites
  262. Development of self‐anchoring bone implants. I. Processing and material characterization
  263. Microstructural Evolution during Transient Plastic Phase Processing of Titanium Carbide-Titanium Boride Composites
  264. The transient plastic phase processing of ceramic-ceramic composites
  265. The process of shear band formation in plane strain compression of fcc metals: Effects of crystallographic texture
  266. Macroscopic shape change and evolution of crystallographic texture in pre-textured FCC metals
  267. Large deformation simple compression of a copper single crystal
  268. An approximate procedure for predicting the evolution of crystallographic texture in bulk deformation processing of fcc metals
  269. Crystallographic texture evolution in bulk deformation processing of FCC metals
  270. A Unified Approach for Modeling CVD Processes
  271. Determination of Rate Controlling Step in CVD Processes with Gas Phase and Surface Reactions
  272. MSR acoustic vibrations due to the HP and LP tube bundle and cavity interactions using a bond graph model
  273. Analytical Model for the Low Pressure Chemical Vapor Deposition of SiO[sub 2] from Tetraethoxysilane
  274. Bond Graphs For Cvd Processes
  275. Contributions of Gas Phase Reactions to CVD Processes