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Particle interactions with permeable drops in shear fl ow Baysinger S, Davis R Powder Technology, 383, 410, 2021 |
52 |
The effects of dry and wet rock surfaces on shear behavior of the interface between rock and cemented paste backfill Xiu ZG, Wang SH, Ji YC, Wang FL, Ren FY, Nguyen VT Powder Technology, 381, 324, 2021 |
53 |
A review of high shear wet granulation for better process understanding, control and product development Liu BB, Wang JM, Zeng J, Zhao LJ, Wang YJ, Feng Y, Du RF Powder Technology, 381, 204, 2021 |
54 |
Effect of strain rate on powder flow behaviour using ball indentation method Zafar U, Hare C, Hassanpour A, Ghadiri M Powder Technology, 380, 567, 2021 |
55 |
Predicting the flowability of powder mixtures from their single components properties through the multi-component population-dependent granular bond number; extension to ground powder mixtures Giraud M, Vaudez S, Gatumel C, Nos J, Gervais T, Bernard-Granger G, Berthiaux H Powder Technology, 379, 26, 2021 |
56 |
Modelling of shear zones during quasi-static granular silo flow using material point method (MPM) Krzyzanowski J, Tejchman J, Solowski W, Wojcik M Powder Technology, 378, 538, 2021 |
57 |
Drag, lift, and torque on a prolate spheroid resting on a smooth surface in a linear shear flow Fillingham P, Vaddi RS, Bruning A, Israel G, Novosselov IV Powder Technology, 377, 958, 2021 |
58 |
Studies on development of adhesive material from post-consumer (waste) expanded polystyrene: a two-edged sword approach Uttaravalli AN, Dinda S, Gidla BR, Kasturi G, Kasala P, Penta G Process Safety and Environmental Protection, 145, 312, 2021 |
59 |
Study of probability characteristics and peak value of heliostat support column base shear Xiong QW, Li ZN, Luo HY, Zhao ZF, Jiang AM Renewable Energy, 168, 1058, 2021 |
60 |
Wind turbine unsteady aerodynamics and performance by a free-wake panel method Greco L, Testa C Renewable Energy, 164, 444, 2021 |