81 |
Fractal dimensions of low rank coal subjected to liquid nitrogen freeze-thaw based on nuclear magnetic resonance applied for coalbed methane recovery Qin L, Zhai C, Liu SM, Xu JZ, Wu SJ, Dong RW Powder Technology, 325, 11, 2018 |
82 |
Shear strength of granular materials based on fractal fragmentation of particles Xu YF Powder Technology, 333, 1, 2018 |
83 |
Fractal dimension of demolition waste fragmentation and its implication of compactness Xu YF Powder Technology, 339, 922, 2018 |
84 |
Pore structure and permeability of concrete with high volume of limestone powder addition Li CZ, Jiang LH, Xu N, Jiang SB Powder Technology, 338, 416, 2018 |
85 |
Three-Dimensional Lattice Boltzmann Simulations of Single-Phase Permeability in Random Fractal Porous Media with Rough Pore-Solid Interface Cousins TA, Ghanbarian B, Daigle H Transport in Porous Media, 122(3), 527, 2018 |
86 |
Rebound behavior of nanoparticle-agglomerates Gensch M, Weber AP Advanced Powder Technology, 28(8), 1930, 2017 |
87 |
Stereological correction method based on sectional texture analysis for the liberation distribution of binary particle systems Ueda T, Oki T, Koyanaka S Advanced Powder Technology, 28(5), 1391, 2017 |
88 |
Influence analysis for the behavior of dewaterability of excess sludge in a two-stage vermifilter Xing MY, Li CR, Jiang JZ, Wang Y, Yang J Applied Microbiology and Biotechnology, 101(4), 1643, 2017 |
89 |
Effect of angle of deposition on the Fractal properties of ZnO thin film surface Yadav RP, Agarwal DC, Kumar M, Rajput P, Tomar DS, Pandey SN, Priya PK, Mittal AK Applied Surface Science, 416, 51, 2017 |
90 |
Realization of quantifying interfacial interactions between a randomly rough membrane surface and a foulant particle Chen JR, Lin HJ, Shen LG, He YM, Zhang MJ, Liao BQ Bioresource Technology, 226, 220, 2017 |