[1] aijun deng, chunhu yu, zeyang xue, jianfeng huang, hongbo pan, lizhai pei. rare metal doping of the hexahydroxy strontium stannate with enhanced photocatalytic performance for organic pollutants. j mater res technol. 2022, 19: 1073-1089. (jcr 2区) [2] aijun deng, shaojie wu, junjie hao, hongbo pan, mingyang li, and xiangpeng gao. photocatalytic removal of cr(vi) by thiourea modified sodium alginate/biochar composite gel. gels. 2022, 8(5): 293-312. (jcr 2区) [3] aijun deng, yong shuai, honggen gong, ruihong cao, haichuan wang, shiheng peng. optimal control of surface crack in microalloyed steel with big stroke liquid core reduction process. trans indian inst met. 2022, 75(5): 1269-1278. [4] aijun deng, haichuan wang, dingdong fan. dissolution mechanism of modifying agent in fibrotic process of steel slag. isij int. 2021, 61(10): 210-220. [5] ai-jun deng, ding-dong fan, hai-chuan wang, can-hua li. simulation research on oxygen mass transfer between the steel and slag in if steel refining process. j. iron steel res. int. 2020, 27(4): 409-419. [6] aijun deng, huan zhang, wenyan wang, jun zhang, dingdong fan, peng chen, bing wang. developing computational model to predict protein-protein interaction sites based on the xgboost algorithm. int. j. mol. sci. 2020, 21(7): 2274-2287. [7] aijun deng, yunjin xia, hongbiao dong, haichuan wang, dingdong fan. prediction of re-oxidation behaviour of ultra-low carbon steel by different slag series. sci. rep. 2020, 10: 1-10. [8] aijun deng, yunjin xia, jie li, dingdong fan. effect of 2cao·sio2 particles addition on dephosphorization behavior. high temp. mat. pr. 2020, 39: 219-227. [9] deng nanyang, zhou di, wei rufei, deng aijun*, xia yunjin, fan dingdong. reduction behavior and mechanism of iron ore in molten iron in the process of converter steelmaking. int. j. chem. react. eng. 2019, 17(8): 1-11. [10] 孙陶安,操瑞宏,夏云进,王海川,范鼎东,邓爱军. 近似核壳型球对钢渣的熔融还原行为分析. 钢铁,2023,58(01):91-99. [11] 邓爱军, 蒲雪峰, 左小坦,范鼎东,郑安民. h型钢v形开裂的缺陷研究与优化. 钢铁. 2019, 54(8): 161-168. |
[1] 邓爱军等. 一种提高连铸尾坯质量和收得率的工艺方法. 授权号:zl202010274915.7; [2] 邓爱军等. 一种连铸收尾坯用冶金发热剂的制备方法. 授权号:zl202010274269.4; [3] 邓爱军等. 一种连铸收尾坯用冶金发热剂自动加入装置. 授权号:zl202010274264.1; [4] 邓爱军等. 一种钢液连续铸钢用连铸机. 授权号:zl201611231785.9; [5] 邓爱军等. 一种中间包预应力施加机构的装配方法及防下挠中间包的制备工艺. 授权号:zl201611231793.3; [6] 邓爱军等. 一种可控制下挠变形的中间包. 授权号:zl201611231741.6; [7] 邓爱军等. 一种防止铁矿石引起转炉泡沫性喷溅的方法. 授权号:zl201710994894.4; [8] 邓爱军等. 一种控制转炉内铁矿石还原率的方法. 授权号:zl201710993627.5; [9] 邓爱军等. 一种钢渣热量回收利用方法. 授权号:zl201510116833.9; [10] 邓爱军等. 一种液态钢渣在线改性方法. 授权号:zl201510116835.8; [11] 邓爱军等. 一种钢渣裂解粒化方法. 授权号:zl201510116816.5; [12] 邓爱军等. 一种钢渣改质剂. 授权号:zl201510116801.9; [13] 邓爱军等. 一种利用转炉前期熔融态钢渣生产矿棉的方法. 授权号:zl201610369708.3; [14] 邓爱军等. 一种利用转炉炼钢系统熔融还原铁矿石的方法. 授权号:zl201610214494.2; |