《礦產綜合利用》2022 年總目次

礦產資源地質勘查及綜合利用專題

四川金川縣列門地區土壤地球化學特征及找礦意義·················································（1.1）

青海大場金礦礦集區成礦規律與找礦潛力································································（1.7）

川西九龍地區兩期偉晶巖型稀有金屬成礦作用························································（1.15）

貴州務川雙河重晶石-螢石礦成礦地質特征及成因分析············································（1.25）

滇黔相鄰區二疊系宣威組富稀土黏土巖綜合研究進展···············································（1.32）

四川大渡河流域偏巖子金礦床地質特征及金的賦存狀態············································（1.42）

楚雄盆地白堊紀晚期鹽湖風成砂微觀組構特征研究···············································（1.48）

四川省雷波地區纖維用玄武巖找礦遠景分析··························································（1.60）

南方稀土礦區隱伏斷裂帶高密度電法勘探實驗························································（1.68）

銅尾礦庫土壤修復效應及周邊植被恢復模式研究······················································（1.74）

基于DEA-Malmquist模型的四川省礦產資源開發效率評價······································（1.82）

滇西北中甸甭哥堿性雜巖體巖相學和礦物學特征及其地質意義···································（1.89）

廣東天堂山銣錫多金屬礦床成礦地質特征及其成因··············································（1.104）

煤礦復墾區土壤重金屬形態分布與富集污染研究·····················································（1.116）

綜合評述

高鐵低硅燒結技術發展動態················（1.121）

典型雜質礦物及離子對黃銅礦浸出影響的研究現狀··············································（1.129）

浮選微泡調控及其作用機制的研究進展································································（2.158）

赤泥在水、土、氣環境治理中的應用研究進展·······················································（2.167）

廢舊鋁電解槽材料回收利用研究進展····（2.177）

氯化法提金工藝技術研究進展··············（3.80）

全球稀土二次資源回收利用進展···········（3.86）

鋼渣易磨性研究現狀··························（3.95）

鉛鋅選礦廢水凈化處理研究概述··········（3.100）

赤泥中提取有價金屬元素的研究進展····（3.107）

川南典型硫鐵礦區土壤污染調查方法 ····（3.113）

鐵尾礦瀝青混合料基本性能及老化耐久性研究·······················································（4.111）

廢舊鋰電池正極材料中有價金屬的回收工藝研究進展··············································（4.119）

粉煤灰基礦物聚合材料研究進展··········（4.123）

煤矸石制備地質聚合物注漿材料的研究進展·························································（4.129）

全球鈷礦產的供應安全與技術創新·······（4.134）

全球銻資源分布供需及產業鏈發展現狀··（5.77）

從鋰云母中提鋰及綜合利用的研究進展··（5.83）

微生物技術在礦物選冶過程中的研究進展·····························································（5.91）

紅土鎳礦處理工藝研究現狀·················（5.96）

磁黃鐵礦選礦研究進展與發展趨勢·······（5.103）

川東南地區頁巖儲層開采條件對比分析································································（5.109）

礦產資源稟賦條件與開發利用異質性：基于河北

鐵礦資源聚集區的研究······················（5.120）

礦區土壤重金屬污染化學修復及強化方法研究進展··············································（6.104）

熔鹽電解法制備鑭合金的研究進展·······（6.110）

含硫鐵物料脫硫工藝技術現狀·············（6.116）

礦物加工工程

昌寧含鐵低品位高泥錫石礦重-磁選工藝研究························································（1.136）

硫酸銨焙燒法提鈦渣堿浸提硅反應動力學····························································（1.142）

川北鋁土巖型釩礦釩的賦存狀態與可選性實驗研究··············································（1.146）

B2O3對高鋁低鎂渣穩定性影響研究······（1.152）

基于密度泛函理論的水對黃鐵礦和煤表面潤濕性機理研究········································（1.157）

提升貴州水銀洞金礦浮選工藝指標生產實踐·························································（1.164）

金川硫化銅鎳礦選礦工藝改造實踐·······（1.168）

高鐵三水鋁石型礦的酸浸性能·············（1.173）

某6000 t/d銅多金屬選礦廠Ⅰ段磨礦分級系統改進與實踐········································（1.179）

堿洗—氧化鈣煅燒兩段法改性粉煤灰脫除廢水中Cr（VI）的性能研究·····················（1.184）

基于微波處理的燒結煙氣NO脫除影響因素·············（1.190）

西藏某細粒嵌布難選硫化銅礦選礦實驗研究··························································（2.45）

福建某低品位金銅混合礦石綜合回收利用工藝研究···············································（2.51）

王集Ph1層膠磷礦單一反浮選實驗研究及工業化應用············································（2.57）

甲瑪復雜銅多金屬礦石合理配礦的實驗研究與生產實踐············································（2.61）

不同礦漿溫度下滑石表面甲基纖維素脫附行為研究···············································（2.66）

新疆某菱鎂礦浮選工藝實驗研究···········（2.69）

可溶性淀粉在長石與石英浮選分離中的作用··························································（2.74）

基于硫酸調漿的銅鉛鋅多金屬礦浮選分離工藝研究···············································（2.79）

新型捕收劑TZ-1浮選微細粒鈦鐵礦實驗研究·························································（2.86）

豫西某石英型螢石礦浮選工藝研究········（2.92）

聚丙烯酸鈉對蛇紋石浮選的影響及其機理····························································（2.100）

云南某高碳酸鹽型含銀氧化銅礦中銅銀同步浮選實驗··············································（2.105）

某片麻巖鱗片石墨礦浮選實驗研究·······（2.111）

吡啶類離子液體在褐煤反浮選中的應用································································（2.116）

酸化水玻璃對重晶石與白云石浮選分離行為的影響··············································（2.121）

關于某硫化銅鎳礦中礦選別流程的應用探討·························································（2.127）

浮-重選聯合流程選別金尾礦實驗研究···（2.131）

黔西北地區沉積型稀土資源回收稀土研究現狀及選礦實驗探討··································（2.135）

高灰難選煤泥分級浮選降灰實驗研究····（2.142）

高泥尾砂浮選螢石實驗研究················（2.150）

小鱗片膨脹石墨的制備及電化學性能····（2.154）

新疆某金礦選冶聯合工藝研究·············（3.121）

攀西某釩鈦磁鐵精礦浮選脫硫實驗·······（3.126）

老撾某難浸金礦石環保浸金實驗研究····（3.132）

熱改性粉煤灰對水中銅的動態吸附研究································································（3.137）

生物氧化在內蒙某低品位原生金礦浸出研究中的應用··············································（3.143）

KR脫硫渣中鱗片石墨的回收··············（3.148）

膠泥對三種高熔點煤灰熔融特性的影響因素·························································（3.154）

動力煤煤泥高剪切調漿浮選提質研究····（3.158）

氯化鈉改善微晶石墨浮選指標的選礦實驗····························································（3.163）

陜西某石英砂工藝礦物學及可選性實驗································································（3.167）

內蒙古某復雜多金屬鉛銅鋅硫化礦選礦工藝研究·····················································（3.172）

響應曲面法優化鉛轉爐灰的砷浸出過程································································（3.181）

菱鎂礦浮選體系中Fe3+對白云石的選擇性活化及機理分析········································（5.126）

某鐵礦石懸浮磁化焙燒—磁選實驗研究································································（5.131）

硫酸氧鈦水解法制備重晶石/二氧化鈦復合粉·························································（5.136）

某難選釩礦提取釩實驗研究················（5.141）

河南某泥質高氧化型金礦選冶聯合回收工藝·························································（5.148）

西北某低鉛高鋅多金屬硫化礦浮選實驗································································（5.153）

云南某高硫鉛鋅礦浮選分離工藝研究····（5.159）

充氣攪拌預處理對黃銅礦和磁黃鐵礦浮選分離的影響··············································（5.165）

四川某鐵精礦回收超純鐵精礦的選礦實驗研究·······················································（5.169）

青海某低品位鉬礦浮選工藝················（5.175）

磷礦反浮選幾種胺離子捕收劑脫硅性能對比·························································（6.124）

攀枝花某細粒嵌布鐵礦石分選工藝·······（6.131）

新型環保鎢捕收劑的工業化應用研究····（6.138）

油酸鈉與含苯環類羥肟酸鹽對金紅石可浮性的影

響及協同作用機理研究······················（6.142）

四川某鐵礦鐵精礦制備超級鐵精礦實驗································································（6.150）

內蒙古某多金屬礦尾礦回收螢石實驗研究····························································（6.155）

基于EDEM—FLUENT耦合礦物顆粒分離效果的模擬研究·····································（6.159）

銅火法精煉爐高砷銅煙塵低溫真空碳熱還原脫砷研究··············································（6.167）

加藥方式對銅萃余液中和處理的影響····（6.174）

粗鋅中鋅的真空蒸餾蒸發動力學研究····（6.179）

分析與鑒定

西太平洋深海底泥中稀土元素賦存狀態································································（1.195）

廢棄鋰電池電極材料中有價金屬的賦存狀態·························································（1.200）

礦物解離分析系統在磷石膏工藝礦物學研究中的應用··············································（1.205）

貴州省丹寨縣老冬寨鉛鋅礦工藝礦物學研究·························································（2.194）

青海某銅陽極泥的工藝礦物學·············（2.200）

云南某鈦鐵礦的工藝礦物學研究··········（2.206）

高純石英砂原料礦中流體包裹體研究····（3.188）

吉林某高鐵鉀長石工藝礦物學·············（3.193）

安徽省金寨縣迎風崖鉛鋅銅多金屬礦床物質組分及賦存狀態研究·······························（3.198）

四川某低品位難選磷礦石工藝礦物學研究····························································（3.202）

堿熔-電感耦合等離子體原子發射光譜法測定釩

鐵爐渣中釩鐵錳磷····························（3.207）

鞍千磁鐵礦工藝礦物學研究················（4.193）

內蒙某鐵礦石的工藝礦物學研究··········（4.200）

鐵礦粉鐵含量的高光譜分析和定量反演研究·························································（4.205）

三水鋁土礦活性硅含量測定影響因素····（5.181）

川西九龍打槍溝鋰鈹礦石特征及其銣元素賦存狀

態和分布規律研究····························（5.186）

某難選金礦物工藝礦物學研究·············（5.194）

某含鈦礦石中鈦的賦存狀態研究··········（5.200）

云南某鎢礦石工藝礦物學研究·············（5.206）

山東某低品位金礦工藝礦物學·············（6.184）

某銅鎳多金屬硫化礦工藝礦物學··········（6.189）

高品位稀土精礦中稀土、鐵、磷、鈣元素賦存狀態研究···········································（6.193）

西藏丁青象牙玉的玉石學及礦物學特征································································（6.201）

雙碳目標下的礦產綜合利用專題

碳中和目標下的鋰礦產業創新及顛覆性技術····························································（2.1）

碳中和背景下礦區生態修復減排增匯實現對策··························································（2.9）

“雙碳目標”下表面改性與新型藥劑在低階煤浮選中的應用······································（2.15）

燒結煙氣CO減排研究動態··················（2.22）

“雙碳目標”下陶瓷球替換鋼球的應用研究····························································（2.26）

“雙碳”目標下鎳資源的綜合利用發展趨勢····························································（2.31）

雙碳背景下提釩棄渣制備集熱涂層及其性能··························································（2.40）

礦山環境

礦區煤矸石堆對土壤重金屬污染時空特征研究·······················································（2.181）

四川省馬邊老河壩磷礦重金屬污染分析································································（2.187）

礦物材料專題

鈦鋁合金及其金屬間化合物制備工藝研究進展··························································（3.1）

硫鐵礦尾礦礦渣改良混凝土力學性質與耐久性··························································（3.6）

鉛鋅尾礦免蒸免燒磚的制備及性能········（3.12）

氫氧化鎂制備活性MgO及MOC的工藝研究·························································（3.17）

硅藻土對水泥銅尾礦粉膠凝材料性能的影響··························································（3.27）

黃鐵礦尾礦泡沫混凝土力學性能和水化特征··························································（3.32）

膨脹珍珠巖/脫硫石膏復合材料的制備與性能··························································（3.37）

改性礦渣處理活性艷藍KN-R染料廢水的能力························································（3.42）

鐵尾礦制備微晶玻璃的研究·················（3.47）

LiFePO4的制備及改性工藝的研究進展···（3.51）

酸浸釩渣制備高強陶粒工藝·················（3.58）

粉煤灰中銨離子含量對混凝土減水劑摻量及吸附特性影響·········································（3.64）

復合耐磨材料在甲瑪選礦廠的應用與實踐·····························································（3.70）

Fe-6.5%Si高硅鋼片的制備工藝研究進展·································································（3.75）

金屬礦產資源綜合利用專題

拜耳法赤泥熔融態深度還原燒結協同提取鋁、鐵實驗研究···········································（4.1）

鉛鋅尾礦氧化過程中重金屬釋放遷移動態································································（4.6）

青海鐵礦伴生金銀銅的綜合回收···········（4.12）

肅北某金礦浮選尾礦尼爾森重選實驗·····（4.17）

從攀枝花釩鈦磁鐵礦中回收鈧研究進展··（4.21）

贊比亞某高鐵錳礦工藝礦物學特性········（4.27）

浸提法去除鐵尾礦中重金屬Pb、Zn、Cu、Cr和Ni的研究·········································（4.33）

柿竹園磁鐵礦粗精礦提質選礦實驗········（4.41）

基于響應曲面法的微波干燥沉鐵渣實驗優化··························································（4.48）

低價釩溶液中鐵(II)和釩(IV)、鉻(III)的分離及莫爾鹽的制備···································（4.53）

微納米臭氧對硫酸鋅生產工藝中Fe2+、Mn2+去除······················································（4.59）

不同堿浸工藝處理氧化鋅礦的對比研究··（4.65）

復雜鋅精礦沸騰焙燒的行為研究···········（4.71）

重慶接龍鐵礦懸浮磁化焙燒溫度對焙燒產品性能的影響············································（4.75）

基于工藝礦物學分析的含碲金礦石堿浸預處理效果研究············································（4.82）

四川拉拉銅礦構造變形與成礦的關系·····（4.87）

西秦嶺格爾托金礦工藝礦物學與選冶實驗·····························································（4.94）

細粒富鈦料制粒工藝技術研究現狀·······（4.100）

拜爾法赤泥利用現狀及高效資源化利用新技術·······················································（4.106）

礦物工程

礦物摻合料再生骨料混凝土的力學及耐高溫性質研究··············································（4.143）

贛南某未開發離子型稀土礦區土壤環境質量評價·····················································（4.152）

制備13X分子篩的優化實驗研究·········（4.157）

粉煤灰中提取非晶態硅及硅產物的高值化利用·······················································（4.162）

磷渣改性瀝青混合料的綜合利用研究····（4.169）

鉀長石-磷石膏-活性炭提鉀工藝的影響因素研究·····················································（4.175）

南方某高嶺土除鐵增白實驗················（4.183）

濕式粉磨提高某磷礦粉釋磷特性研究····（4.188）

二次資源綜合利用專題

含鋅冶煉渣綜合利用現狀及發展趨勢·······（5.1）

萃取冶金揮發性有機廢氣處理技術發展和應用實踐·················································（5.9）

聚合氯化鋁工業廢渣生產硅肥實驗研究··（5.15）

釩鈦鐵精礦鈦白廢酸浸出提釩實驗········（5.20）

赤泥礦粉瀝青混合料的抗水損壞研究·····（5.25）

高爐瓦斯泥自還原鐵鋅分離BBD法優化·································································（5.31）

硫酸和硫酸鋁對鋇渣的無害化影響········（5.37）

采用CCF浮選柱回收某尾礦中銅的實驗研究·························································（5.42）

以含碳固廢為還原劑的銅渣顆粒直接還原正交實驗···············································（5.46）

某尾礦庫重金屬遷移規律及水資源優化配置研究······················································（5.51）

油泥熱解渣對鉛渣中As、Zn、Pb和Cd的同步穩定化············································（5.58）

含鉻固廢的資源化處理及循環利用研究進展··························································（5.65）

某金礦氰渣除氰固砷實驗研究··············（5.72）

非金屬礦物材料應用專題

我國高嶺土開發現狀及綜合利用進展·······（6.1）

我國煤系高嶺土應用現狀研究與展望·····（6.11）

高純石英（SiO2）評述（一）：微量、微細粒鋁硅酸鹽礦物的活化與分離····················（6.17）

高純石英（SiO2）評述（二）：晶格雜質的活化與分離技術······································（6.21）

高純石英（SiO2）評述（三）：流體包裹體的分析、活化與分離································（6.26）

TiO2-蒙脫土復合載體在平板式脫硝催化劑中的應用···············································（6.30）

粉磨細度對磷石膏物相轉變速率和力學強度的影響研究············································（6.36）

溫度對銅渣和磷礦協同聯產制備磷鐵影響的實驗研究···············································（6.42）

偏高嶺土混凝土的耐久性與水化特性分析·····························································（6.49）

基于正交實驗的廢石-磷尾砂充填材料配比優化研究···············································（6.55）

鉛鋅尾礦砂對混凝土單軸壓縮聲發射特征的影響研究···············································（6.61）

鐵尾礦粉瀝青混凝土膠漿-集料粘附性和TGDSC實驗研究 ···································（6.66）

基于正交實驗金尾礦砂再生混凝土實驗研究··························································（6.73）

礦山固廢資源化與生態環境

夏家店金礦含氰尾礦無害化處理實驗·····（6.79）

攀西地區某典型銅礦尾礦資源化技術研究·····························································（6.84）

某電解錳渣燒結磚吸水率和飽和系數研究·····························································（6.89）

先鋒植物修復介導的根際微域對鉛鋅冶煉廢渣中重金屬的形態分異特性影響·················（6.94）