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- FeCl3·xH2O FeCl3·xH2O
- FePO4·xH2O FePO4·xH2O
- FeCl3 ferric chloride
- FeCl3改性 modifying with FeCl3
- FeCl3加料泵 FeCl3 feed pump
- FeCl3-HCl浸出 FeCl3-HCl leaching
- FeCl3·6H2O ferric chloride
- HCl-FeCl3混合液 Mixed solution of HO-FeCl3
- [Bmim]BF4-FeCl3-H2O [Bmim]BF4-FeCl3-H2O
- 阳离子交换树脂-FeCl3 cation exchange resin-FeCl3
- FeCl3-CuCl2-HCl混合液 FeCl3-CuCl2-HCl mixed solution
- 在实际湿法蚀刻的研究中,发现使用高玻美度的FeCl3溶液蚀刻效果好。 It has been reported that high Baume FeCl3 solution is fairly effective.
- 镀层在HCl溶液中的腐蚀属于点蚀,在H2SO4、H3PO4和FeCl3溶液中的腐蚀属于缝隙腐蚀。 The coating corrosion was pitting corrosion in HCl solution and crevice corrosion in H_2SO_4,H_3PO4 and FeCl_3 solutions.
- 方法 采用二羟延胡索酸 (DHF) +FeCl3+ADP左侧脑室注射法建立氧化损伤型类AD大鼠模型。 Methods The rats were injected with the oxygen free radical generation system (DHF-FeCl 3-ADP) in left ventricles of the brain and induced oxidative damaged AD rat model.
- 方法 采用二羟延胡索酸 (DHF)和FeCl3 ADP左侧脑室注射法制作大鼠氧化损伤型类AD大鼠模型 ; Methods Oxidative damaged rat model mimic AD (AD group) was established by injection of dihydroxy fumaric acid (DHF) and FeCl3 ADP into the left lateral ventricle of rats.
- 方法 :采用二羟延胡索酸 (DHF)加FeCl3 ADP左侧脑室注射 ,造成大鼠氧化损伤型类AD大鼠模型 ; Methods: An oxygen free radical generation system (DHF FeCl 3 ADP) was used to create oxidative damaged rat model mimic to AD;
- 采用熔盐法,以天然鳞片石墨为宿主,NiCl2与FeCl3的混合物为插层剂制备三元FeCl3-NiCl2-GIC。 Ternary FeCl3-NiCl2-GICs were synthesized using molten salts method,with natural graphite flake as host and the mixed NiCl2 and FeCl3 as guest.
- 结果表明:随FeCl3含量降低,浸锌过程稳定电位正移,有利于结晶细化,其较好含量范围为0·4~0·8g/L; The stable potential in the dip plating process assumed a positive shift with decreasing FeCl_3 content, which was beneficial to the refining of the crystalline, and the FeCl_3 content was suggested to be within 0.4~0.8 g/L.
- 采用正交试验,得到最佳化学抛光液配方为:每100mL抛光液中含8g FeCl3,8mL盐酸,0.1 mLAEO-9,0.2g BTA,1.2mL乙醇。 Based on orthogonal experiment, an optimal formulation of polishing bath was obtained. The bath (100 mL) contains 8 g FeCl3, 8 mL HCl, 0.1 mL AEO-9, 0.2 g BTA and 1.2 mL ethanol.
- 与传统混凝剂Al2(SO4)3和FeCl3相比,PSAF混凝剂具有混凝沉降速度快、处理废水后水中残余量低、处理废水费用低等特点。 In comparison with the conventional coagulants, such as Al2(SO4)3 and FeCl3, the coagulation performance of PSAF was the best. The remarkable characteristics of this method were higher sedimentation rate, lower remains of pollutants in tanning wastewater and lower cost of treatment.
