화학공학소재연구정보센터
검색결과 : 290건
No. Article
61 Construction of a 36 L dust explosion apparatus and turbulence flow field comparison with a standard 20 L dust explosion vessel
Castellanos D, Carreto V, Skjold T, Yuan S, Chaudhari P, Mannan MS, Mashuga C
Journal of Loss Prevention in The Process Industries, 55, 113, 2018
62 Combustion properties of titanium alloy powder in ALM processes: Ti6Al4V
Millogo M, Bernard S, Gillard P, Frascati F
Journal of Loss Prevention in The Process Industries, 56, 254, 2018
63 Factors influencing and a statistical method for describing dust explosion parameters: A review
Zhang JS, Xu PH, Sun LH, Zhang WY, Jin JH
Journal of Loss Prevention in The Process Industries, 56, 386, 2018
64 Influence of particle size polydispersity on coal dust explosibility
Liu SH, Cheng YF, Meng XR, Ma HH, Song SX, Liu WJ, Shen ZW
Journal of Loss Prevention in The Process Industries, 56, 444, 2018
65 Study on the inhibition influence on gas explosions by metal foam based on its density and coal dust
Wang YJ, Jiang SG, Wu ZY, Shao H, Wang K, Wang L
Journal of Loss Prevention in The Process Industries, 56, 451, 2018
66 Effect of dust dispersion on particle breakage and size distribution in the minimum ignition energy apparatus
Bagaria P, Zhang JQ, Mashuga C
Journal of Loss Prevention in The Process Industries, 56, 518, 2018
67 Dust explosion modeling: Status and prospects
Skjold T
Particulate Science and Technology, 36(4), 489, 2018
68 Proposal of a new injection nozzle to improve the experimental reproducibility of dust explosion tests
Murillo C, Amin M, Bardin-Monnier N, Munoz F, Pinilla A, Ratkovich N, Torrado D, Vizcaya D, Dufaud O
Powder Technology, 328, 54, 2018
69 Flame propagation behaviors and temperature characteristics in polyethylene dust explosions
Gan B, Gao W, Jiang HP, Li YC, Zhang Q, Bi MS
Powder Technology, 328, 345, 2018
70 Comparative analysis of the explosibility of several different hybrid mixtures
Ji WT, Yan XQ, Sun HL, Yu XZ, Yu JL
Powder Technology, 325, 42, 2018