[1] |
Yin Wei,Huang Jin,Xie Tian,He Bingbing.
Experimental study on high efficiency decomposition of phosphate rock by phosphoric acid
[J]. Inorganic Chemicals Industry, 2020, 52(9): 34-36.
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[2] |
Zhao Shihao,Lin Xihua,Ma Pengfei,Yuan Yijin,Gao Yuxin,Zhang Ping,Zhou Dali.
Study on formulation calculation of phosphogypsum-based composite cementitious materials based on expansion and failure of critical AFt
[J]. Inorganic Chemicals Industry, 2020, 52(9): 91-95.
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[3] |
Zhang Yulu,Wang Ye,Yang Lin,Yang Xiushan,Wang Xinlong.
Preparation of high purity calcium oxide combined with sulfuric acid from fluorine gypsum decomposed by sulfur
[J]. Inorganic Chemicals Industry, 2020, 52(7): 70-73.
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[4] |
Wu Baojian,Lü Xinfeng,Zhang Qingjie,Yi Meigui,Xiang Lan.
Primary exploration of removing impurities from phosphogypsum by wet coupling process
[J]. Inorganic Chemicals Industry, 2020, 52(12): 55-58.
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[5] |
Luo Shuang,Fu Rubin,Kong Dewen,Xie Lang,Zhou Yinsheng,Zhao Yan.
Summary on effects of admixtures on water resistance and strength of phosphogypsum-based composite cementitious materials
[J]. Inorganic Chemicals Industry, 2020, 52(11): 6-6.
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[6] |
Zheng Shaocong,Wang Fan,Zhu Liping,Xu Chengkun.
Experimental study on influence of phosphogypsum with modified phosphorus slag powder
[J]. Inorganic Chemicals Industry, 2020, 52(1): 73-75.
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[7] |
Ding Feng,Dou Yan,Zheng Zhiyin,Liu Rong,Cui Peng.
Effect of pH on α-CaSO4·0.5H2O in salt solution at atmospheric pressure-succinic acid crystal transfer system
[J]. Inorganic Chemicals Industry, 2020, 52(1): 82-86.
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[8] |
Liu Leilei,Xia Haijian,Feng Weiliang,Wang Tielin,Wang Cunwen,Wang Weiguo,Jiang Zhensheng.
Determination and correlation of solubility of potassium fluosilicate in dilute sulfuric acid solution
[J]. Inorganic Chemicals Industry, 2019, 51(8): 17-19.
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[9] |
Li Bing1,2,Wei Sha2.
Modification of phosphogypsum cement retarder by carbide slag
[J]. Inorganic Chemicals Industry, 2019, 51(7): 74-76.
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[10] |
Liao Xin1,2,Yang Shaoli1,Ma Lan1,Li Hong1.
Comparison and analysis of sulfuric acid process titanium dioxide prepared with titanium
concentrate and titanium slag as raw materials respectively
[J]. Inorganic Chemicals Industry, 2019, 51(10): 7-11.
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[11] |
DU Jian-Qiao, XU Yu-Ting, ZHONG Ben-He.
Technical analysis of green vitriol treatment in large-scale
[J]. INORGANICCHEMICALSINDUSTRY, 2016, 48(5): 9-.
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[12] |
LUO Shu-Feng, FU Quan-Jun, MA Xian-Lin, CHEN Wei, ZHANG Zhi-Ye, WANG Xin-Long, YANG Lin, SHENG Yong.
Thermodynamic analysis of reductive reaction of phosphogypsum with pyrite
[J]. INORGANICCHEMICALSINDUSTRY, 2016, 48(4): 57-.
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[13] |
WANG Yuan-Wang, YANG Ming-Ping, YAO Mao-Sheng, WANG Yuan-Hong.
Study on preparation technology of high purity potassium metavanadate
[J]. INORGANICCHEMICALSINDUSTRY, 2016, 48(10): 40-.
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[14] |
ZHOU Jing, ZOU Hong-Tao, XING Yan, LI Feng.
Optimization of preparation of nano CaO based sorbents from phosphogypsum
[J]. INORGANICCHEMICALSINDUSTRY, 2016, 48(10): 73-.
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[15] |
WANG Bin, LI Chun, YANG Yang-Jun.
Distribution of impurities from low grade titanium slag as raw material in titanium
dioxide manufacturing by sulfate process
[J]. INORGANICCHEMICALSINDUSTRY, 2016, 48(1): 35-.
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