共搜索到15874条信息,每页显示10条信息,共1588页。用时:0小时0分1秒562毫秒
research on absorbing SO2 waste gas with Bayer red mud[J]. Journal of Guizhou University of Technology (Natural Science Edition), 2007, 36(4): 30-32, 36. [30] 司秀芬, 邓佐国, 徐廷华. 赤泥提钪综述[J]. 江西有色金属, 2003, 17(2......
acid wastewater of copper smelting flue gas purification system: China, CN103695961A[P]. 2014-04-02. [11] 柴立元, 王庆伟, 蒋国民, 周成赟, 李青竹, 杨志辉, 高伟荣. 污酸资源回收与深度处理方法及装置: 中国, WO 2017113882 A1[P]. 2016-03-30. CHAI Li......
natural gas tender crashworthiness research [C]// 2015 Joint Rail Conference. New York: 2015: V001T02A015. [11] HA N S, LU G. A review of recent research on bio-inspired structures and materials......
, MUHAMMAD M, ABDUL KARIM Z A. Performance-based health monitoring, diagnostics and prognostics for condition-based maintenance of gas turbines: A review [J]. Applied Energy, 2017, 198: 122-144. DOI......
treatment, water gradually penetrates the internal pores of the rock, the gas inside is discharged, and the water bridge is gradually formed between the particles. The force can be roughly divided......
J. Cent. South Univ. (2020) 27: 2793-2821 DOI: https://doi.org/10.1007/s11771-020-4511-y Rockburst proneness criteria for rock materials:Review and new insights GONG Feng-qiang(宫凤强)1, 2, WANG Yun-liang(王云亮)1, LUO Song(罗松)1 1. School of Resources and Safety Engineering, Central South University, Ch......
. Simultaneously removing of iron and aluminum from leaching liquor of flue gas desulfurization with pyrolusite[J]. Hydrometallurgy of China, 2015, 34(3): 218-221, 224. [87] 李学鹏, 杨斌, 刘大春, 等. 硫酸镍电解液净化除杂工艺研究[J]. 稀有金......
and Engineering A, 2019, 756: 354-364. [35] LI R D, CHEN H, CHEN C, ZHU H B, WANG M B, YUAN T C, SONG B. Selective laser melting of gas atomized Al-3.02Mg-0.2Sc-0.1Zr alloy powder: Microstructure......
): 1615-1620. [5] 范雪柳, 陈 祥, 刘兴男, 等. 吹气法制备泡沫铝的性能[J]. 中国有色金属学报, 2011, 21(6): 1320-1327. FAN Xue-liu, CHEN Xiang, LIU Xing-nan, et al. Properties of aluminum foam prepared by gas injection method[J......
; HREM image of an amorphous layer between NiAl and TiC 层,比NiAl/TiC界面观察到的3 nm厚非晶层要薄一些,而且后者观察到的机会更多一些.在界面处存有一个合适的界面过渡层,能有效地吸收界面处的残余热应力,从而有利于提高其低温塑性和韧性.但如果非晶层大量存在,会降低界面结合强度,使复合材料的强度降低.因此,所研制的复合材料界面以光滑,平直......