| 1 |
High-performance icephobic droplet rebound surface with nanoscale doubly reentrant structure
Liao D, He MH, Qiu HH
International Journal of Heat and Mass Transfer, 133, 341, 2019 |
| 2 |
Heat-counteracted strategy for tailoring the cell structure and properties of sustainable poly(butylene succinate) foams
Yue JF, Gan L, Liu CH, Ma XZ, Wang D, Huang J
Polymer, 155, 50, 2018 |
| 3 |
Generation of 3D representative volume elements for heterogeneous materials: A review
Bargmann S, Klusemann B, Markmann J, Schnabel JE, Schneider K, Soyarslan C, Wilmers J
PROGRESS IN MATERIALS SCIENCE, 96, 322, 2018 |
| 4 |
Effect of organic co-blowing agents on the morphology of CO2 blown microcellular polystyrene foams
Nistor A, Topiar M, Sovova H, Kosek J
Journal of Supercritical Fluids, 130, 30, 2017 |
| 5 |
A Lattice Monte Carlo analysis of the effective thermal conductivity of closed-cell aluminum foams and an experimental verification
Ye H, Ni Q, Ma MY
International Journal of Heat and Mass Transfer, 86, 853, 2015 |
| 6 |
Thermal conductivity of closed-cell aluminum foam based on the 3D geometrical reconstruction
Zhu XL, Ai SG, Lu XF, Ling X, Zhu LX, Liu B
International Journal of Heat and Mass Transfer, 72, 242, 2014 |
| 7 |
Effective Thermal Conductivity Modelling for Closed-Cell Porous Media with Analytical Shape Factors
Yang XH, Lu TJ, Kim T
Transport in Porous Media, 100(2), 211, 2013 |
| 8 |
Preparation and Characterization of Biodegradable Poly(butylene succinate)(PBS) Foams
Lim SK, Jang SG, Lee SI, Lee KH, Chin IJ
Macromolecular Research, 16(3), 218, 2008 |
| 9 |
Heat transfer in multi-channels of closed cell aluminum foams
Ma WP, Tzeng SC
Energy Conversion and Management, 48(3), 1021, 2007 |
| 10 |
Sound absorption properties of Al foam
Kim SY, Park SH, Um YS, Hur BY
Materials Science Forum, 486-487, 468, 2005 |
