Enhanced flotation separation of bastnaesite and monazite by suspension roasting:A study of flotation performance and mechanisms

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作者 Linghui Zhang Wenbo Li +4 位作者 Shaokai Cheng Xiaolong Zhang Junyan Sun Rui Qu Maoyuan Wang 《Journal of Rare Earths》 2026年第3期957-968,I0007,共13页

Bayan Obo rare earth mine is the largest light rare earth resource worldwide,primarily extracts rare earth elements(REEs)from mixed RE concentrates with bastnaesite and monazite.Nevertheless,the adoption of the concen... Bayan Obo rare earth mine is the largest light rare earth resource worldwide,primarily extracts rare earth elements(REEs)from mixed RE concentrates with bastnaesite and monazite.Nevertheless,the adoption of the concentrated sulfuric acid roasting metallurgical process has resulted in damage to the environment.Therefore,this paper adopted the method of selective mineral phase transformation(MPT)followed by enhanced micro-flotation.By determining the optimal MPT co nditions,the flotation recovery of bastnaesite-roasted products by the collector(phthalic acid,PA)is improved,and the enhanced separation of bastnaesite with monazite is realized.The results show that with the increase of roasting temperature and time,the bastnaesite decomposition product is CeOF and monazite does not change significantly.Subsequent micro-flotation exhibits a gradual decline in the PA consumption of bastnaesiteroasted products,while the flotation recovery of monazite-roasted products remains poor.The artificial mixed ore experiments result in a CeOF foam product with a content of 94.14%and a recovery of 85.80%,and a monazite tank product with a content of 73.53%and a recovery of 87.87%.Compared with the preroasting ore,the surface and interior of bastnaesite-roasted products develop numerous cracks and porosities,and no obvious structural damage is observed in monazite-roasted particles.As the roasting temperature increases,the mineral particles undergo recrystallization or closure,reducing the specific surface area of bastnaesite-roasted products and enhancing hydrophobicity,leading to diminished PA consumption.Fourier transform infrared and other flotation-relation tests show that PA is chemisorbed on the surface of CeOF.The MPT conditions are optimized in this study,which provides a reference for further advancing the efficient separation of bastnaesite and monazite. 展开更多

关键词 Rare earths BASTNAESITE MONAZITE Mineral phase transformation Enhanced flotation separation MECHANISMS

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Synthesis and application of a quaternary ammonium ionic liquid collector for flotation separation of fluorite and bastnaesite

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作者 Yanxu Wang Siyuan Yang +4 位作者 Qianqian Wang Bo Chen Shenxu Bao Wenbo Li Cheng Liu 《Journal of Rare Earths》 2026年第3期946-956,I0007,共12页

The efficient flotation separation of rare earth elements(REEs)from gangue minerals is crucial in mineral processing.This study synthesized a quaternary ammonium salt ionic liquid collector,tetrabutylammonium salicylh... The efficient flotation separation of rare earth elements(REEs)from gangue minerals is crucial in mineral processing.This study synthesized a quaternary ammonium salt ionic liquid collector,tetrabutylammonium salicylhydroxamate(T-S),and investigated its performance in separating bastnaesite and fluorite.T-S was synthesized from salicylhydroxamic acid(SHA)and tetrabutylammonium chloride(TBAC),and its molecular structure was characterized using Fourier transform infrared(FTIR)spectroscopy.Microflotation tests indicate that T-S outperforms SHA and TBAC in both collecting ability and selectivity for bastnaesite.Adsorption,zeta potential,and infrared spectroscopy measurements reveal that T-S exhibits stronger adsorption on bastnaesite compared to SHA and TBAC.X-ray photoelectron spectroscopy(XPS)and molecular dynamics simulations(MDS)results confirm that chemical adsorption occurs between Ce on the bastnaesite surface and the-C(=O)NHOH groups of T-S.Moreover,the interaction between T-S and the bastnaesite surface is stronger than that with the fluorite surface.This work provides valuable insights for designing ionic liquid collectors for the flotation separation of bastnaesite and fluorite. 展开更多

关键词 BASTNAESITE FLUORITE Rare earths flotation separation lonic liquid collector

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Flotation separation of chalcopyrite from pyrite using mineral fulvic acid as selective depressant under weakly alkaline conditions 被引量：5

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作者 Zhi-hao SHEN Shu-ming WEN +1 位作者 Jia-mei HAO Qi-cheng FENG 《Transactions of Nonferrous Metals Society of China》 2025年第1期313-325,共13页

Mineral fulvic acid(MFA)was used as an eco-friendly pyrite depressant to recover chalcopyrite by flotation with the use of the butyl xanthate as a collector.Flotation experiments showed that MFA produced a stronger in... Mineral fulvic acid(MFA)was used as an eco-friendly pyrite depressant to recover chalcopyrite by flotation with the use of the butyl xanthate as a collector.Flotation experiments showed that MFA produced a stronger inhibition effect on pyrite than on chalcopyrite.The separation of chalcopyrite from pyrite was realized by introducing 150 mg/L MFA at a pulp pH of approximately 8.0.The copper grade,copper recovery,and separation efficiency were 28.03%,84.79%,and 71.66%,respectively.Surface adsorption tests,zeta potential determinations,and localized electrochemical impedance spectroscopy tests showed that more MFA adsorbed on pyrite than on chalcopyrite,which weakened the subsequent interactions between pyrite and the collector.Atomic force microscope imaging further confirmed the adsorption of MFA on pyrite,and X-ray photoelectron spectroscopy results indicated that hydrophilic Fe-based species on the pyrite surfaces increased after exposure of pyrite to MFA,thereby decreasing the floatability of pyrite. 展开更多

关键词 mineral fulvic acid CHALCOPYRITE PYRITE flotation separation

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Selective inhibition of acrylic acid-2-acrylamido-2-methylpropane sulfonic acid copolymer in the flotation separation of fluorite from dolomite

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作者 PENG Bin-bin ZHU Hai-ling +1 位作者 CHEN Jin-shan YANG Jia-jia 《Journal of Central South University》 2025年第10期3845-3856,共12页

The efficient recovery of fluorite is paid more and more attention with the increasing application especially in strategic emerging industries.In this study,acrylic acid-2-acrylamido-2-methylpropane sulfonic acid copo... The efficient recovery of fluorite is paid more and more attention with the increasing application especially in strategic emerging industries.In this study,acrylic acid-2-acrylamido-2-methylpropane sulfonic acid copolymer(AAAMPS)was first used as the depressant in fluorite flotation,and its effect on the flotation separation of fluorite and dolomite in sodium oleate(NaOL)system was investigated.The depression mechanism was analyzed by contact angle measurement,zeta potential test,FTIR and XPS analyses.The micro-flotation test results showed that dolomite can be inhibited in fluorite flotation system in the addition of 2 mg/L AA-AMPS and 20 mg/L NaOL at pH 10.The CaF_(2) grade increased from 49.85%in the artificial mixed mineral to 89.60%in the fluorite concentrate.The depression mechanism indicated that AA-AMPS could adsorb strongly on dolomite surface by the chelation with Ca and Mg active sites.Moreover,the further adsorption of NaOL on dolomite surface was prevented by the AA-AMPS adsorption,but that on fluorite surface was little affected,thereby increasing the difference in the hydrophobicity and floatability of the two minerals. 展开更多

关键词 FLUORITE DOLOMITE AA-AMPS flotation separation selective inhibition

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Selective depression effect of sodium fluosilicate in flotation separation of cassiterite and dravite

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作者 Yang NI Wen-juan SUN +3 位作者 Hai-sheng HAN Wei SUN Jun-hao FU Yong-biao CHENG 《Transactions of Nonferrous Metals Society of China》 2025年第12期4242-4252,共11页

The flotation separation of cassiterite and dravite was realized using lead complexes of benzohydroxamic acid(Pb-BHA)as a collector and sodium fluosilicate(SF)as a depressant.Zeta potential tests confirmed that SF ena... The flotation separation of cassiterite and dravite was realized using lead complexes of benzohydroxamic acid(Pb-BHA)as a collector and sodium fluosilicate(SF)as a depressant.Zeta potential tests confirmed that SF enabled the selective depression of dravite.The results of Fourier transform infrared(FTIR)spectroscopy analysis demonstrated that hydroxyl-containing groups in the hydrolysis products of SF selectively chemisorbed on the surface of dravite.X-ray photoelectron spectroscopy(XPS)analysis results further demonstrated the strong chemisorption of SF hydrolysis products(F-containing groups and hydroxyl-containing groups)on dravite(Mg sites).Consequently,the adsorption of Pb-BHA on dravite was selectively prevented.Based on the results,a selective depression model of SF on cassiterite and dravite was proposed. 展开更多

关键词 selective depression effect flotation separation sodium fluorosilicate CASSITERITE DRAVITE benzohydroxamic acid

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Flotation properties and separation mechanism of ammonium dodecylsulfate on lepidolite minerals

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作者 Xin Hu Xian-Ping Luo +5 位作者 Zi-Shuai Liu He-Peng Zhou Xue-Kun Tang Hui-Yang Lin Lu-Shuai Yao Wan-Ting Bai 《Rare Metals》 2025年第4期2791-2804,共14页

Lepidolite,feldspar,and quartz are silicate minerals with similar chemical properties,complicating their flotation separation.Current collector systems require strong acidic conditions for effective separation but sti... Lepidolite,feldspar,and quartz are silicate minerals with similar chemical properties,complicating their flotation separation.Current collector systems require strong acidic conditions for effective separation but still face challenges related to low separation efficiency and recovery rates.This study proposed a novel collector,ammonium dodecylsulfate(ALS),to selectively extract lepidolite from feldspar and quartz using highly selective flotation methods.Microflotation experiments showed that ALS significantly outperforms other collectors in collecting lepidolite compared to feldspar and quartz.At pH 7,lepidolite recovery reached 95%,while flotation recoveries for both feldspar and quartz were below 10%.Mixed pure mineral flotation tests revealed that at pH 7 and ALS concentration of 2.5×10^(-4) mol·L^(−1),the Li_(2)O content in the concentrate was 4.21%,with a recovery rate of 95.01%.Separation efficiency and Gaudin selectivity index values were recorded.Solution chemical analyses showed that at pH 7,ALS completely ionizes into NH_(4)^(+)and CH_(3)(CH_(2))_(11)OSO_(3)^(−).Various analytical techniques,including high-speed photography imaging,contact angle measurements,Fourier transform infrared spectroscopy,zeta potential analysis,and X-ray photoelectron spectroscopy,confirmed that the anion CH_(3)(CH_(2))_(11)OSO_(3)^(−)adsorbs chemically onto aluminum sites on lepidolite's surface,while the cation NH_(4)+binds through electrostatic interactions and hydrogen bonding.The combined adsorption of these ions on lepidolite's surface enhanced its hydrophobicity.In contrast,ALS showed minimal adsorption on feldspar and quartz surfaces,which remained hydrophilic,enabling efficient selective flotation separation of lepidolite from both feldspar and quartz. 展开更多

关键词 LEPIDOLITE COLLECTOR flotation separation Ammonium dodecylsulphate Feldspar and quartz

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Selective flotation separation of ilmenite from titanaugite using n-octylphosphonic acid as collector in acidic pulp

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作者 Pan CHEN Jia-yan LIU +2 位作者 Ji-hua ZHAI Yao-hui YANG Wei SUN 《Transactions of Nonferrous Metals Society of China》 2025年第3期954-964,共11页

n-octylphosphonic acid(OPA)was introduced as a novel collector for ilmenite flotation and its effectiveness was compared with the conventional chelating collector,benzohydroxamic acid(BHA).Micro-flotation tests demons... n-octylphosphonic acid(OPA)was introduced as a novel collector for ilmenite flotation and its effectiveness was compared with the conventional chelating collector,benzohydroxamic acid(BHA).Micro-flotation tests demonstrated that OPA was a highly effective and selective collector for separating ilmenite from titanaugite over acidic conditions(optimal pH around 3),which was also supported by adsorption amount measurements.X-ray photoelectron spectroscopy(XPS)tests indicated that the chemisorption of OPA onto ilmenite surface was much stronger than that of BHA.Solution chemistry diagram analyses indicated that OPA could dissociate well at pH 3.0 and mostly exist in anion form.DFT calculations further confirmed that OPA was much easier to adsorb onto ilmenite surface with shorter bond length and lower adsorption energy in comparison with BHA.Therefore,OPA maintained good collecting ability and selectivity for ilmenite flotation in the strongly acidic pulp,providing valuable insights into new collector design and development. 展开更多

关键词 ILMENITE titanaugite flotation separation n-octylphosphonic acid

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Flotation separation performance and mechanism of sphalerite from pyrite by Fe^(3+)-Cu^(2+)-BX process

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作者 LIU Jun ZHANG Zhi-yong +3 位作者 SHI Jun-yang LIU Sheng HU Fang LIU Guang-yi 《Journal of Central South University》 2025年第6期2183-2194,共12页

The lime-Cu^(2+)-xanthate process is commonly used for the flotation separation of sphalerite from pyrite.In this process,lime is added to the pulp to inhibit the floatability of pyrite.However,the excessive use of li... The lime-Cu^(2+)-xanthate process is commonly used for the flotation separation of sphalerite from pyrite.In this process,lime is added to the pulp to inhibit the floatability of pyrite.However,the excessive use of lime can result in pipeline blockage and inadequate recovery of associated precious metals.Therefore,it is necessary to develop new flotation process that minimizes or eliminates the use of lime.In this paper,a novel Fe^(3+)-Cu^(2+)-butyl xanthate process was developed as an alternative to lime for separating of sphalerite from pyrite.The flotation results indicated that with the artificially-mixed minerals,the flotation recovery of pyrite was lower than 16%and that of sphalerite was higher than 47%at pH 5.0−10.0.The zeta potential measurements revealed that ferric ion preferred to adsorb on pyrite,and copper ion displaced with zinc ion from the lattice at the interface of sphalerite.The wettability analyses indicated that the hydrophobicity of sphalerite surface increased apparently after being treated with Fe^(3+)-Cu^(2+)-BX,while the hydrophobicity of pyrite surface remained nearly unchanged.With XPS analysis,Cu-S bond and hydrophilic ferric hydroxide were detected separately on the surface of sphalerite and pyrite after conditioning with Fe^(3+)-Cu^(2+)-BX,which facilitated the flotation separation of sphalerite from pyrite with butyl xanthate collector. 展开更多

关键词 flotation separation SPHALERITE PYRITE Fe^(3+)-Cu^(2+)-butyl xanthate

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Flotation separation of andalusite from quartz using sodium petroleum sulfonate as collector 被引量：8

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作者 朱海玲 邓海波 陈臣 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2015年第4期1279-1285,共7页

The floatability of andalusite and quartz was studied using sodium petroleum sulfonate as collector, being successfully applied in the real ore separation. The collecting performance on minerals was interpreted by mea... The floatability of andalusite and quartz was studied using sodium petroleum sulfonate as collector, being successfully applied in the real ore separation. The collecting performance on minerals was interpreted by means of zeta potential measurement and infrared spectroscopic analysis. The single mineral experiments showed that andalusite got good floatability in acidic pH region while quartz exhibited very poor floatability in the whole pH range. At pH 3, the presence of Fe3+ obviously activated quartz, causing the identical flotation behavior of the two minerals, and calcium lignosulphonate exhibited good selective inhibition to quartz. The real ore test results showed that andalusite concentrate with 53.46% Al2O3 and quartz concentrate with 92.74% SiO2 were obtained. The zeta potential and infrared spectroscopic analysis results indicated that chemical adsorption occurred between sodium petroleum sulfonate and andalusite. 展开更多

关键词 flotation separation ANDALUSITE QUARTZ sodium petroleum sulfonate

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A novel green depressant for flotation separation of scheelite from calcite 被引量：13

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作者 Chen CHEN Wei SUN +1 位作者 Hai-ling ZHU Run-qin LIU 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2021年第8期2493-2500,共8页

Polyaspartic acid(PASP)was used as a novel environmental-friendly depressant,and its inhibition effect on flotation performance of scheelite and calcite using sodium oleate(NaOL)as a collector was investigated by ways... Polyaspartic acid(PASP)was used as a novel environmental-friendly depressant,and its inhibition effect on flotation performance of scheelite and calcite using sodium oleate(NaOL)as a collector was investigated by ways of flotation experiments,zeta potential measurement,contact angle measurement and infrared spectroscopic analysis(IR).The results show that PASP exhibits stronger inhibition capability and selectivity than acidified water glass,and the flotation separation of scheelite from calcite can be realized in the presence of 6 mg/L PASP and 20 mg/L NaOL at pH>6.In the presence of PASP,the zeta potential of calcite surface almost keeps unchanged after adding NaOL,and the contact angle decreases sharply.Therefore,it is indicated that PASP significantly decreases the adsorption of NaOL on calcite surface.By contrast,it has no distinct effect on the adsorption of NaOL on the scheelite surface,which is further confirmed by IR results. 展开更多

关键词 polyaspartic acid SCHEELITE CALCITE flotation separation INHIBITION

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Effect of depressants on flotation separation of magnesite from dolomite and calcite 被引量：11

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作者 Wenqing Qin Junjie Hu +4 位作者 Hailing Zhu Fen Jiao Wenhao Jia Junwei Han Chen Chen 《International Journal of Mining Science and Technology》 SCIE EI CAS CSCD 2023年第1期83-91,共9页

The flotation separation of magnesite from calcium-containing minerals has always been a difficult subject in minerals processing.This work studied the inhibition effects of carboxymethyl cellulose(CMC),sodium lignosu... The flotation separation of magnesite from calcium-containing minerals has always been a difficult subject in minerals processing.This work studied the inhibition effects of carboxymethyl cellulose(CMC),sodium lignosulphonate,polyaspartic acid(PASP)and sodium silicate on flotation behaviors of magnesite,dolomite and calcite,providing guidance for the development of reagents in magnesite flotation.The micro-flotation results showed that among these four depressants,sodium silicate presented the strongest selectivity due to the highest recovery difference,and the flotation separation of magnesite from dolomite and calcite could be achieved by using sodium silicate as the depressant.Contact angle measurement indicated that the addition of sodium silicate caused the largest differences in surface wettability of the three minerals,which was in line with micro-flotation tests.Furthermore,zeta potential test,the Fourier transform infrared(FT-IR)spectroscopy and atomic force microscope(AFM)imaging were used to reveal the inhibition mechanism of sodium silicate.The results indicated that the dominated component SiO(OH)3
of sodium silicate could adsorb on minerals surfaces,and the adsorption of sodium silicate hardly affected the adsorption of NaOL on magnesite surface,but caused the reduction of NaOL adsorption on dolomite and calcite surfaces,thereby increasing the flotation selectivity. 展开更多

关键词 Sodium silicate MAGNESITE DOLOMITE CALCITE flotation separation INHIBITION

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Flotation separation of molybdenite and talc using tragacanth gum as depressant and potassium butyl xanthate as collector 被引量：13

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作者 Chun-hui ZHONG Bo FENG +2 位作者 Yuan-gan CHEN Meng-chi GUO Hui-hui WANG 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2021年第12期3879-3890,共12页

Tragacanth gum(TG)was explored as a depressant to realize the flotation separation of molybdenite and talc.The flotation experiments indicated that when using potassium butyl xanthate(PBX)as a collector,molybdenite sh... Tragacanth gum(TG)was explored as a depressant to realize the flotation separation of molybdenite and talc.The flotation experiments indicated that when using potassium butyl xanthate(PBX)as a collector,molybdenite showed excellent floatability while talc was completely depressed by TG,thus realizing the flotation separation of the two minerals.X-ray photoelectron spectroscopy(XPS)analysis results showed that TG was adsorbed on molybdenite surface via chemisorption.The results of contact angle measurement,Fourier transform infrared(FTIR)spectroscopy,and time-of-flight secondary ion mass spectrometry(ToF-SIMS)indicated that the pre-adsorption of TG on molybdenite could not hinder the further chemisorption of PBX on molybdenite.Because PBX has no collecting ability on talc,the flotation separation of molybdenite and talc came true using PBX to collect molybdenite and TG to depress talc. 展开更多

关键词 MOLYBDENITE tragacanth gum organic depressant TALC flotation separation

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Flotation separation of quartz from magnesite using carboxymethyl cellulose as depressant 被引量：11

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作者 Yang-ge ZHU Lin-feng YANG +2 位作者 Xiao-xing HU Xing-rong ZHANG Gui-bing ZHENG 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2022年第5期1623-1637,共15页

Carboxymethyl cellulose(CMC)was introduced as a depressant in reverse flotation separation of quartz from magnesite.The flotation behavior and surface properties of magnesite and quartz exposed to CMC were studied by ... Carboxymethyl cellulose(CMC)was introduced as a depressant in reverse flotation separation of quartz from magnesite.The flotation behavior and surface properties of magnesite and quartz exposed to CMC were studied by zeta potential tests,atomic force microscopy imaging and contact angle measurements.The addition of CMC as the depressant in reverse flotation using dodecylamine(DDA)as the collector exhibited a selectively depressive performance towards magnesite and achieved an improved recovery of magnesite.The study of surface properties demonstrated that CMC and DDA exhibited different adsorption strengths on the surface of magnesite and quartz.It was found that the adsorption of CMC on magnesite surface was stronger than that of DDA,which hindered the subsequent adsorption of DDA on magnesite surface.On the contrary,the quartz surface was strongly adsorbed by DDA instead of CMC,which proved that the addition of CMC did not influence the flotation of quartz. 展开更多

关键词 flotation separation carboxymethyl cellulose DODECYLAMINE MAGNESITE QUARTZ

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Flotation separation of feldspar from quartz using sodium fluosilicate as a selective depressant 被引量：10

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作者 Xin Hu Xian-Ping Luo +4 位作者 Zi-Shuai Liu Yong-Bing Zhang He-Peng Zhou Zhi-Zhao Yang Xue-Kun Tang 《Rare Metals》 SCIE EI CAS CSCD 2024年第3期1288-1300,共13页

The physical and chemical properties of feldspar and quartz are highly similar,thus they cannot be easily separated effectively.In this work,the flotation separation of feldspar from quartz using sodium fluosilicate(N... The physical and chemical properties of feldspar and quartz are highly similar,thus they cannot be easily separated effectively.In this work,the flotation separation of feldspar from quartz using sodium fluosilicate(Na_(2)SiF_(6);SF)as a selective depressant was investigated.Moreover,the influence mechanism of SF on the selective flotation separation of feldspar and quartz was investigated via flotation tests,chemical analysis of flotation solution,Fourier transform infrared spectroscopy(FTIR),X-ray photoelectron spectroscopy(XPS)and contact angle analysis.The results of the flotation tests show that feld spar and quartz without SF treatment have good floatability.After SF treatment,feldspar still has good floatability,whereas quartz has significantly reduced floatability.Flotation solution chemical analysis shows that the functional group plays an important role in depressing the quartz is[SiF_(6)]^(2-).FTIR,XPS and contact angle analysis results show that[SiF_(6)]^(2-)is adsorbed only on the surface of quartz.Thus,a thin hydrophilic SiOF layer is generated on the surface,which interferes with the adsorption of the collector on the surface of the quartz.This phenomenon leads to a significant reduction in quartz's floatability.Therefore,SF has a good ability to separate feldspar from quartz by flotation. 展开更多

关键词 flotation separation Depressants Sodium fluorosilicate QUARTZ FELDSPAR

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Selective depression mechanism of combination of lime and sodium humate on arsenopyrite in flotation separation of Zn-As bulk concentrate 被引量：8

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作者 Qian WEI Liu-yang DONG +3 位作者 Cong-ren YANG Xue-duan LIU Fen JIAO Wen-qing QIN 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2022年第2期668-681,共14页

Lime(CaO)and sodium humate(NaHA)were used as the combined depressant for arsenopyrite pre-treated by CuSO_(4) and butyl xanthate.Micro-flotation tests show that the combined depressant CaO and NaHA achieved the select... Lime(CaO)and sodium humate(NaHA)were used as the combined depressant for arsenopyrite pre-treated by CuSO_(4) and butyl xanthate.Micro-flotation tests show that the combined depressant CaO and NaHA achieved the selective depression of arsenopyrite.Closed-circuit lab-scale test results indicate that the synergistic effect of CaO+NaHA achieved a satisfactory flotation separation of sphalerite and arsenopyrite,for which the Zn grade and recovery of Zn concentrate were 51.21%and 92.21%,respectively.Contact angle measurements,adsorption amount measurements and X-ray photoelectron spectroscopy analysis indicate that the dissolved calcium species(mainly as Ca(2+))were adsorbed on the mineral surfaces,thereby promoting NaHA adsorption.Moreover,the surface of the arsenopyrite absorbed more amount of calcium species and NaHA than that of the sphalerite,thereby accounting for the strong hydrophilic surface of arsenopyrite.The adsorption of NaHA on arsenopyrite was mainly chemical adsorption through its carboxyl groups and Ca atoms,whereas that on sphalerite surface was relatively weak. 展开更多

关键词 SPHALERITE ARSENOPYRITE Zn−As bulk concentrate flotation separation LIME sodium humate

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Studies of benzyl hydroxamic acid/calcium lignosulphonate addition order in the flotation separation of smithsonite from calcite 被引量：5

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作者 Cheng Liu Yuhua Zhu +2 位作者 Kaihua Huang Siyuan Yang Zhian Liang 《International Journal of Mining Science and Technology》 SCIE EI CAS CSCD 2021年第6期1153-1158,共6页

Flotation separation of smithsonite from calcite is difficult due to their similar surface properties.In the present study,a reagent scheme of depressant calcium lignosulphonate(CLS) and collector benzyl hydroxamic ac... Flotation separation of smithsonite from calcite is difficult due to their similar surface properties.In the present study,a reagent scheme of depressant calcium lignosulphonate(CLS) and collector benzyl hydroxamic acid(BHA) was introduced in the flotation of smithsonite from calcite.Microflotation tests revealed that the efficient flotation of smithsonite from calcite could only be obtained with the addition order of BHA before CLS,which was opposite to the widely-used order that adding depressant prior to the collector.The zeta potential measurements indicated that BHA selectively adsorbed onto smithsonite surface,then not allowed the CLS adsorption onto the smithsonite surface rather than calcite surface because of the steric hindrance,thereby the smithsonite surface remained hydrophobic while calcite surface became more hydrophilic after the addition of CLS.As a result,the calcite flotation was completely depressed while the smithsonite flotation recovery was still in high value,leading to the optimal flotation separation performance. 展开更多

关键词 SMITHSONITE CALCITE Benzyl hydroxamic acid Calcium lignosulphonate flotation separation

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Advances in depressants for flotation separation of Cu–Fe sulfide minerals at low alkalinity:A critical review 被引量：6

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作者 Qicheng Feng Wenhang Yang +3 位作者 Maohan Chang Shuming Wen Dianwen Liu Guang Han 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CSCD 2024年第1期1-17,共17页

The flotation separation of Cu–Fe sulfide minerals at low alkalinity can be achieved using selective depressants.In the flotation system of Cu–Fe sulfide minerals,depressants usually preferentially interact with the... The flotation separation of Cu–Fe sulfide minerals at low alkalinity can be achieved using selective depressants.In the flotation system of Cu–Fe sulfide minerals,depressants usually preferentially interact with the pyrite surface to render the mineral surface hydrophilic and hinder the adsorption of the collector.This review summarizes the advances in depressants for the flotation separation of Cu–Fe sulfide minerals at low alkalinity.These advances include use of inorganic depressants (oxidants and sulfur–oxygen compounds),natural polysaccharides (starch,dextrin,konjac glucomannan,and galactomannan),modified polymers (carboxymethyl cellulose,polyacrylamide,lignosulfonate,and tricarboxylate sodium starch),organic acids (polyglutamic acid,sodium humate,tannic acid,pyrogallic acid,salicylic acid,and lactic acid),sodium dimethyl dithiocarbamate,and diethylenetriamine.The potential application of specific inorganic and organic depressants in the flotation separation of Cu–Fe sulfide minerals at low alkalinity is reviewed.The advances in the use of organic depressants with respect to the flotation separation of Cu–Fe sulfide minerals are comprehensively detailed.Additionally,the depression performances and mechanisms of different types of organic depressants on mineral surfaces are summarized.Finally,several perspectives on depressants vis-à-vis flotation separation of Cu–Fe sulfide minerals at low alkalinity are proposed. 展开更多

关键词 Cu–Fe sulfide minerals flotation separation selective depressants depression mechanism

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Interaction mechanism of ferrate(Ⅵ) with arsenopyrite surface and its effect on flotation separation of chalcopyrite from arsenopyrite 被引量：5

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作者 Run-peng LIAO Pan-jin HU +4 位作者 Shu-ming WEN Yong-xing ZHENG Xian-hui QIU Jin-fang LÜ Jian LIU 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2022年第11期3731-3743,共13页

Potassium ferrate(K_(2)FeO_(4)) was used as a novel environmental-friendly depressant,and its inhibition effect on flotation performance of arsenopyrite and chalcopyrite using potassium ethyl xanthate(PEX)as a collect... Potassium ferrate(K_(2)FeO_(4)) was used as a novel environmental-friendly depressant,and its inhibition effect on flotation performance of arsenopyrite and chalcopyrite using potassium ethyl xanthate(PEX)as a collector was investigated by flotation experiments,contact angle measurements,adsorption measurements,localized electrochemical impedance spectroscopy(LEIS)measurements,and X-ray photoelectron spectroscopy(XPS)analyses.The results showed that K_(2)FeO_(4)strongly depressed arsenopyrite in a pH range of 4−11,and the flotation separation of chalcopyrite from arsenopyrite could be realized in the presence of 5×10^(−4)mol/L K_(2)FeO_(4)and 5×10^(−5)mol/L PEX at pH 8 or 10.In the presence of K_(2)FeO_(4) and PEX,the contact angle and the xanthate adsorption capacity of arsenopyrite decreased significantly.LEIS measurements showed that the addition of ferrate could significantly increase the impedance of the arsenopyrite surface.XPS analyses further confirmed that ferrate accelerated the oxidation of arsenopyrite surface. 展开更多

关键词 ferrate(Ⅵ) ARSENOPYRITE CHALCOPYRITE low-alkalinity flotation separation

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Role of tannin pretreatment in flotation separation of magnesite and dolomite 被引量：4

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作者 Xiufeng Gong Jin Yao +5 位作者 Jun Guo Bin Yang Haoran Sun Wanzhong Yin Yulian Wang Yafeng Fu 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2024年第3期452-461,共10页

Flotation separation of magnesite and its calcium-containing carbonate minerals is a difficult problem.Recently,new regulat-ors have been proposed for magnesite flotation decalcification,although traditional regulator... Flotation separation of magnesite and its calcium-containing carbonate minerals is a difficult problem.Recently,new regulat-ors have been proposed for magnesite flotation decalcification,although traditional regulators such as tannin,water glass,sodium carbon-ate,and sodium hexametaphosphate are more widely used in industry.However,they are rarely used as the main regulators in research because they perform poorly in magnesite and dolomite single-mineral flotation tests.Inspired by the limonite presedimentation method and the addition of a regulator to magnesite slurry mixing,we used a tannin pretreatment method for separating magnesite and dolomite.Microflotation experiments confirmed that the tannin pretreatment method selectively and largely reduces the flotation recovery rate of dolomite without affecting the flotation recovery rate of magnesite.Moreover,the contact angles of the tannin-pretreated magnesite and dolomite increased and decreased,respectively,in the presence of NaOl.Zeta potential and Fourier transform infrared analyses showed that the tannin pretreatment method efficiently hinders NaOl adsorption on the dolomite surface but does not affect NaOl adsorption on the magnesite surface.X-ray photoelectron spectroscopy and density functional theory calculations confirmed that tannin interacts more strongly with dolomite than with magnesite. 展开更多

关键词 tannin pretreatment selective inhibition flotation separation MAGNESITE DOLOMITE

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Flotation separation of brucite and calcite in dodecylamine system enhanced by regulator potassium dihydrogen phosphate 被引量：3

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作者 Xiu-feng GONG Jin YAO +3 位作者 Bin YANG Wan-zhong YIN Yu-lian WANG Ya-feng FU 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2024年第8期2658-2670,共13页

To achieve efficient flotation separation of brucite and calcite,flotation separation experiments were conducted on two minerals using dodecylamine(DDA)as the collector and potassium dihydrogen phosphate(PDP)as the re... To achieve efficient flotation separation of brucite and calcite,flotation separation experiments were conducted on two minerals using dodecylamine(DDA)as the collector and potassium dihydrogen phosphate(PDP)as the regulator.The action mechanism of DDA and PDP was explored through contact angle measurement,zeta potential detection,solution chemistry calculation,FTIR analysis,and XPS detection.The flotation results showed that when DDA dosage was 35 mg/L and PDP dosage was 40 mg/L,the maximum floating difference between brucite and calcite was 79.81%,and the selectivity separation index was 6.46.The detection analysis showed that the main dissolved component HPO_(4)^(2−)of PDP is selectively strongly adsorbed on the Ca site on the surface of calcite,promoting the adsorption of the main dissolved component RNH_(3)^(+)of DDA on calcite surface,while brucite is basically not affected by PDP.Therefore,PDP is an effective regulator for the reverse flotation separation of brucite and calcite in DDA system. 展开更多

关键词 BRUCITE CALCITE selective adsorption flotation separation

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