Optimally‐Tailored Spinodal Architected Materials for Multiscale Design and Manufacturing

  title={Optimally‐Tailored Spinodal Architected Materials for Multiscale Design and Manufacturing},
  author={Fernando V. Senhora and E D Sanders and Glaucio H. Paulino},
  journal={Advanced Materials},
Spinodal architected materials with tunable anisotropy unify optimal design and manufacturing of multiscale structures. By locally varying the spinodal class, orientation, and porosity during topology optimization, a large portion of the anisotropic material space is exploited such that material is efficiently placed along principal stress trajectories at the microscale. Additionally, the bicontinuous, nonperiodic, unstructured, and stochastic nature of spinodal architected materials promotes… 

Growth rules for irregular architected materials with programmable properties

Biomaterials display microstructures that are geometrically irregular and functionally efficient. Understanding the role of irregularity in determining material properties offers a new path to

GM-TOuNN: Graded Multiscale Topology Optimization using Neural Networks

method: Given candidate microstructures and a topology optimization problem, a neural network (NN) maps the spatial coordinates to a volume fraction field and a microstructure field, that produce a



International Journal for Numerical Methods in Engineering

The Journal is known for welcoming contributions in a wide range of areas in computational engineering, including computational issues in model reduction, uncertainty quantification, verification and

Cellular Materials in Nature and Medicine

This chapter discusses the interaction of biological cells with tissue engineering scaffolds in medicine and the materials of nature, as well as the structure and mechanics of cellular materials.

Numerical Optimization

no exception. MRP II and JIT=TQC in purchasing and supplier education are covered in Chapter 15. Without proper education MRP II and JIT=TQC will not be successful and will not generate their true

Acoustic fields and waves in solids

This work, part of a two-volume set, applies the material developed in the Volume One to various boundary value problems (reflection and refraction at plane surfaces, composite media, waveguides and

Asymptotic analysis for periodic structures


Structural and Multidisciplinary Optimization

The journal’s scope ranges from mathematical foundations of the field to algorithm and software development, and from benchmark examples to case studies of practical applications in structural,

GE jet engine bracket challenge

  • https://grabcad.com/ challenges/ge-jet-engine-bracket-challenge
  • 2021

Papanicolau, Asymptotic Analysis for Periodic Structures, Elsevier

  • 1978