| 1 |
Characterizing the intrinsic properties of powder-A combined discrete element analysis and Hall flowmeter testing study
Dai L, Chan YR, Vastola G, Khan N, Raghavan S, Zhang YW
Advanced Powder Technology, 32(1), 80, 2021 |
| 2 |
용액 침전법에 의한 SLS 3-D 프린팅용 폴리프로필렌 파우더 개발
장희수, 강종원, 강호종
Polymer(Korea), 45(2), 253, 2021 |
| 3 |
Flowability of steel and tool steel powders: A comparison between testing methods
Marchetti L, Hulme-Smith C
Powder Technology, 384, 402, 2021 |
| 4 |
Fluidization stability vs. powder history of Geldart group C+ particles
Du HM, Zhou YDZ, Zhao DQ, Shao YY, Zhu ES
Powder Technology, 384, 423, 2021 |
| 5 |
Flow characterization of compressible biomass particles using multiscale experiments and a hypoplastic model
Lu YM, Jin WC, Klinger J, Westover TL, Dai S
Powder Technology, 383, 396, 2021 |
| 6 |
Quantification of mechanisms governing the angle of repose, angle of tilting, and Hausner ratio to estimate the flowability of particulate materials
Kalman H
Powder Technology, 382, 573, 2021 |
| 7 |
Flowability of ultrafine-tailings cemented paste backfill incorporating superplasticizer: Insight from water film thickness theory
Guo ZB, Qiu JP, Jiang HQ, Xing J, Sun XG, Ma ZY
Powder Technology, 381, 509, 2021 |
| 8 |
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 |
| 9 |
Reducing cohesion of metal powders for additive manufacturing by nanoparticle dry-coating
Gartner E, Jung HY, Peter NJ, Dehm G, Jagle EA, Uhlenwinkel V, Madler L
Powder Technology, 379, 585, 2021 |
| 10 |
Improving the effectiveness of the Comil as a dry-coating process: Enabling direct compaction for high drug loading formulations
Capece M, Borchardt C, Jayaraman A
Powder Technology, 379, 617, 2021 |
