| 31 |
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 |
| 32 |
Multi-laser powder bed fusion of Ti-6.5Al-2Zr-Mo-V alloy powder: Defect formation mechanism and microstructural evolution
Li SH, Yang JJ, Wang ZM
Powder Technology, 384, 100, 2021 |
| 33 |
Impact of excipients on batch and continuous powder blending
Jaspers M, de Wit MTW, Kulkarni SS, Meir B, Janssen PHM, van Haandel MMW, Dickhoff BHJ
Powder Technology, 384, 195, 2021 |
| 34 |
Vacuum drying of the Terbina fi ne HCl powder: A kinetics study and mathematical modeling
Hentabli M, Belhadj AE, Benimam H, Dahmoune F, Keskes S
Powder Technology, 383, 220, 2021 |
| 35 |
Slurry development for lithography-based additive manufacturing of cemented carbide components
Rieger T, Schubert T, Schurr J, Butschle M, Schwenkel M, Bernthaler T, Schneider G
Powder Technology, 383, 498, 2021 |
| 36 |
The influence of material and process parameters on powder spreading in additive manufacturing
Shaheen MY, Thornton AR, Luding S, Weinhart T
Powder Technology, 383, 564, 2021 |
| 37 |
Main powder physicochemical characteristics influencing their reconstitution behavior
Fournaise T, Petit J, Gaiani C
Powder Technology, 383, 65, 2021 |
| 38 |
Influence of processing parameters on the porosity, thermal expansion, and oxidation behavior of consolidated Fe22Cr stainless steel powder
Ozturk B, Topcu A, Cora ON
Powder Technology, 382, 199, 2021 |
| 39 |
Fabrication of homogeneous nanosized nickel powders using a planetary ball mill: Applications to multilayer ceramic capacitors (MLCCs)
Im T, Pyo J, Lee JS, Lee CS
Powder Technology, 382, 118, 2021 |
| 40 |
Laser powder bed fusion additive manufacturing, microstructure evolution, and mechanical performance of carbon nanotube-decorated titanium alloy powders
Zhou WW, Kamata K, Dong MQ, Nomura N
Powder Technology, 382, 274, 2021 |
