{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":3,"startPagecode":1},"records":[{"abstractinfo":"传统吸附型干燥剂,包括活性炭、硅胶、活性氧化铝和合成沸石等,利用其孔道结构和表面属性发挥吸湿作用.硅酸盐矿物蒙脱石、海泡石和坡缕石具有成分和结构上的相似性和吸湿能力,是良好的干燥剂材料.相对于传统吸附型干燥剂,蒙脱石、海泡石和坡缕石的优势在于资源丰富,对环境无污染和价格低廉等.坡缕石可弥补蒙脱石和海泡石某些应用上的不足.","authors":[{"authorName":"桂海涛","id":"5a8a5404-13d9-4794-b368-aa7437b45bd3","originalAuthorName":"桂海涛"},{"authorName":"尹琳","id":"1f035d71-31e7-43e1-93be-13a4073e846e","originalAuthorName":"尹琳"},{"authorName":"邹继兴","id":"f40b587d-d990-4684-9e7b-1132ea75bf7c","originalAuthorName":"邹继兴"},{"authorName":"王军","id":"417fba1d-fb86-4dd9-8f30-28d17b85fb46","originalAuthorName":"王军"},{"authorName":"李真","id":"c0fed7ea-5d67-4189-ba39-30ca5635a4c7","originalAuthorName":"李真"},{"authorName":"李效棠","id":"c22ecd45-f125-40a5-930b-9c40cf36b270","originalAuthorName":"李效棠"}],"doi":"10.3969/j.issn.1001-1625.2006.02.020","fpage":"78","id":"24683438-83da-4c2b-9f92-3b2bf5433b05","issue":"2","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"872a1c22-042d-48d3-816b-137dd4661192","keyword":"吸附型干燥剂","originalKeyword":"吸附型干燥剂"},{"id":"40817dc9-18ed-4f22-b154-8a58bac7fea0","keyword":"硅酸盐矿物","originalKeyword":"硅酸盐矿物"},{"id":"f86f8fc5-cad2-458b-a3a6-8c2a8f19c6be","keyword":"坡缕石","originalKeyword":"坡缕石"}],"language":"zh","publisherId":"gsytb200602020","title":"硅酸盐矿物和传统吸附型干燥剂","volume":"25","year":"2006"},{"abstractinfo":"在水/二甲基亚砜(DMSO)的混合溶液体系中,利用自组装方法,使5,10,15,20-四苯基卟琳铟(InTPP)分子聚集成纳米材料,并研究了其最优制备温度为50℃.通过场发射扫描电子显微镜(FE-SEM)对铟卟啉纳米材料的表面形貌进行了研究,可获得粒径为100~200nm的棒状铟卟啉纳米材料.利用紫外-可见光谱分析了铟卟啉单体与纳米材料光学性质的差别:在紫外-可见光谱中,铟卟啉纳米分散体系的Soret带吸收峰从原来的423nm分别红移到433和453nm,吸光值明显减小,峰形呈劈裂状且明显变宽.利用紫外-可见光谱对铟卟啉的光学检测性能进行了研究,将铟卟啉单体和纳米溶液体系对低浓度甲基膦酸二甲酯(DMMP)的检测效果进行了对比,结果显示铟卟啉纳米溶液体系的检测效果明显优于单体.","authors":[{"authorName":"侯长军","id":"b7445b76-a669-4f50-aaa8-561823d248db","originalAuthorName":"侯长军"},{"authorName":"刘琛","id":"d67962d7-f2af-41a9-8cee-2f952bc61f4e","originalAuthorName":"刘琛"},{"authorName":"霍丹群","id":"a571b653-2af2-493b-94af-078352a2d2ae","originalAuthorName":"霍丹群"},{"authorName":"法焕宝","id":"65883c03-8a52-4137-8eee-049dd0bcf9cd","originalAuthorName":"法焕宝"},{"authorName":"杨眉","id":"4dcee122-12ba-40a2-8d5c-8328e1e21bd5","originalAuthorName":"杨眉"},{"authorName":"向芸颉","id":"a82ff802-ecf5-491d-99cc-2d8457a500ff","originalAuthorName":"向芸颉"},{"authorName":"宋坤","id":"f628f161-fae6-4630-81b2-7ad522b9117d","originalAuthorName":"宋坤"},{"authorName":"陈泳池","id":"d93c69f0-8286-434e-a620-c7a57a70ecca","originalAuthorName":"陈泳池"},{"authorName":"卢中明","id":"c11c6f44-cb44-4589-a176-36ab5102cb92","originalAuthorName":"卢中明"}],"doi":"","fpage":"1155","id":"d1e34b99-ec3a-44ce-97c0-489969a28114","issue":"6","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"2c3a3a8b-ccf1-422c-8948-348023cb8778","keyword":"铟卟啉","originalKeyword":"铟卟啉"},{"id":"dc55bd49-3adb-43df-a01f-f0cc56cb3ac8","keyword":"纳米材料","originalKeyword":"纳米材料"},{"id":"8889647c-d1ae-4769-9856-9d865992198f","keyword":"检测","originalKeyword":"检测"},{"id":"e38f344d-b2f2-4846-a959-b12fab1d8706","keyword":"甲基膦酸二甲酯","originalKeyword":"甲基膦酸二甲酯"},{"id":"18a18529-956a-4410-8e82-e6d3df066d85","keyword":"光学性能","originalKeyword":"光学性能"}],"language":"zh","publisherId":"gncl201106050","title":"四苯基卟琳铟纳米材料的制备及其光学传感性能研究","volume":"42","year":"2011"},{"abstractinfo":"运用地质观测和统计分析研究,讨论了山东大尹格庄金矿床NWW向大尹格庄断裂的控矿作用.研究表明,大尹格庄断裂对矿化类型、强度和矿体产状都有明显的控制作用.NWW向大尹格庄断裂以北的Ⅱ号矿体群以金矿化为主,断裂南部Ⅰ号矿体群以银矿化叠加早期金矿化为特征.此外,研究还发现,大尹格庄断裂本身也存在金矿化,这对深化对该区矿床成因的认识和指导找矿预测都有一定的意义.","authors":[{"authorName":"潘红伟","id":"cfd2ffbc-3c14-4ba8-acee-2236512398f8","originalAuthorName":"潘红伟"},{"authorName":"张瑞忠","id":"499f1785-9507-47cc-b37e-a22d1be4445b","originalAuthorName":"张瑞忠"},{"authorName":"樊明玉","id":"357781ea-702c-41a6-a887-72016ead099e","originalAuthorName":"樊明玉"}],"doi":"10.3969/j.issn.1001-1277.2008.01.005","fpage":"21","id":"125cfddb-de49-43e9-949d-5160bbe74e26","issue":"1","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"3e701120-25e3-4287-897f-3c7f1fa6a6e3","keyword":"大尹格庄断裂","originalKeyword":"大尹格庄断裂"},{"id":"48402ab9-dfd8-4b5d-8b94-f7f2850a9afb","keyword":"NWW向断裂","originalKeyword":"NWW向断裂"},{"id":"2930d870-0187-4afe-ad61-3e2bff71c8eb","keyword":"控矿构造","originalKeyword":"控矿构造"},{"id":"bf1c20db-0a5d-4759-8b6c-93c00877b4fd","keyword":"大尹格庄金矿","originalKeyword":"大尹格庄金矿"}],"language":"zh","publisherId":"huangj200801005","title":"山东大尹格庄金矿NWW向断裂控矿作用浅析","volume":"29","year":"2008"},{"abstractinfo":"大尹格庄金矿床为招平断裂带中部的大型蚀变岩型金矿床,矿体的产出严格受招平断裂带控制.文中利用显微构造特征、显微运动学标志观测以及显微裂隙统计计算,来探讨大尹格庄金矿床控矿构造的变形、演化及与金成矿的关系.研究表明:大尹格庄金矿床控矿构造以脆-韧性变形为特征;显微运动学标志揭示控矿断裂发生过左行剪切向右行剪切的转变;显微裂隙统计计算表明,成矿前后主应力方位发生NWW→NE→NW的转变,伴随着构造差应力大→小→大的变化.金成矿作用发生在剪压变形向剪张变形转换阶段.","authors":[{"authorName":"高帮飞","id":"756c2a73-88a1-4bde-8e88-951df2e27179","originalAuthorName":"高帮飞"},{"authorName":"杨立强","id":"a10e9a93-359b-4cbe-b020-315d6be980fa","originalAuthorName":"杨立强"},{"authorName":"王庆飞","id":"39a67aa2-76c8-4bc2-87c3-bdb0269ed006","originalAuthorName":"王庆飞"}],"doi":"10.3969/j.issn.1001-1277.2007.01.003","fpage":"9","id":"ace2e0ac-4344-463c-a407-da34395212ad","issue":"1","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"e8f20066-1227-4a08-97da-b1ae3d56b0a5","keyword":"显微构造","originalKeyword":"显微构造"},{"id":"bcd8d624-28be-446b-b917-4d6b205dbdc8","keyword":"脆-韧性变形","originalKeyword":"脆-韧性变形"},{"id":"e4286d72-24bd-4a9a-8ac4-4cbf77f1f14e","keyword":"应力场转换","originalKeyword":"应力场转换"},{"id":"54f46cfc-6760-4944-bd6a-5fb7896f9dff","keyword":"大尹格庄金矿床","originalKeyword":"大尹格庄金矿床"},{"id":"8554f56b-3647-4db9-8c0a-6473e8e9490b","keyword":"胶东","originalKeyword":"胶东"}],"language":"zh","publisherId":"huangj200701003","title":"胶东大尹格庄金矿床控矿显微构造特征","volume":"28","year":"2007"},{"abstractinfo":"基于大尹格庄金矿尾矿库加高扩容的工程实践,介绍了尾矿库基本系统的主要构成,分析了尾矿库排洪系统的可靠性,并通过浸润线指标的控制对尾矿库稳定性进行了评价。","authors":[{"authorName":"郭俊利","id":"fddb964c-9ab7-4758-9ed5-7f5febd992cf","originalAuthorName":"郭俊利"},{"authorName":"肖刚","id":"eca1d814-39db-4f23-b3e3-58dba2f02207","originalAuthorName":"肖刚"},{"authorName":"吴锋","id":"e275eef1-ee77-4959-b1b5-9abdcc45fad4","originalAuthorName":"吴锋"}],"doi":"10.11792/hj20140818","fpage":"82","id":"2e340937-f3c3-42ce-ba1a-3ae9daf4ce66","issue":"8","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"f4cbc921-09f3-4ea6-a362-946c60523f0b","keyword":"尾矿库扩容","originalKeyword":"尾矿库扩容"},{"id":"c8006380-31ba-4a3f-b917-4880781290ef","keyword":"排洪系统","originalKeyword":"排洪系统"},{"id":"90a07084-185c-4512-bcaa-ee156e330652","keyword":"浸润线","originalKeyword":"浸润线"},{"id":"3b545a06-876f-437f-9b7a-7f946f7e5059","keyword":"稳定性分析","originalKeyword":"稳定性分析"}],"language":"zh","publisherId":"huangj201408027","title":"大尹格庄金矿尾矿库扩容工程实践","volume":"","year":"2014"},{"abstractinfo":"以大尹格庄金矿-616 m水平8204采场为工程依托,对采场进行稳定性分析及结构参数优化。为此,对8204采场进行工程地质调查、矿岩力学性质试验,并应用Q系统和RMR分级法对采场岩体质量进行评价。基于Mathews稳定性图表法、临界跨度图表法和数值模拟,对采场尺寸和最大跨度进行优化。分析认为,8204采场的最佳跨度为12 m,并将其结果应用于现场。结果表明,采用采场暴露面尺寸为12 m ×100 m的结构参数进行回采,采场顶板及围岩并未发生垮落及剥落现象,采场稳定性良好。","authors":[{"authorName":"李江","id":"63d69bad-032f-4355-833c-3a794801d5a0","originalAuthorName":"李江"},{"authorName":"姜磊","id":"eef0258c-c816-4731-aad3-36aad72c3808","originalAuthorName":"姜磊"},{"authorName":"吴锋","id":"ec4a1348-603a-4e4b-9451-a4c723ffa6f4","originalAuthorName":"吴锋"},{"authorName":"夏自锋","id":"cd96bbe7-ad9f-4f68-8230-f4678b0b2283","originalAuthorName":"夏自锋"}],"doi":"10.11792/hj20150409","fpage":"43","id":"20a5dbb8-9d78-4682-bf6d-ecd7b927ede0","issue":"4","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"671984f2-7d95-4ebb-b23d-68d25a0b02e7","keyword":"采场稳定性","originalKeyword":"采场稳定性"},{"id":"092bf8da-9e9d-412d-80de-c1b5e4371f28","keyword":"Q系统","originalKeyword":"Q系统"},{"id":"31e67b4b-aed1-4a94-bb93-8bb794de19fa","keyword":"岩体质量评价","originalKeyword":"岩体质量评价"},{"id":"62ac3d2d-d700-4d64-bda7-42873cf6feb2","keyword":"Mathews稳定性图表法","originalKeyword":"Mathews稳定性图表法"},{"id":"c1119094-96ac-486c-9ab7-3cc35a33da37","keyword":"数值模拟","originalKeyword":"数值模拟"},{"id":"51a6cc95-229b-4204-a136-62718da260f2","keyword":"采场跨度","originalKeyword":"采场跨度"}],"language":"zh","publisherId":"huangj201504012","title":"大尹格庄金矿深部采场稳定性分析与参数优化","volume":"","year":"2015"},{"abstractinfo":"大尹格庄金矿自动控制系统以“稳定、平衡”为设计理念,采用切实可行的检测手段与控制方法,实现了选矿工艺的自动控制.详细介绍了破碎筛分和磨矿分级控制系统设计及控制过程,并对选矿自动控制系统应用前后的主要工艺和技经指标进行对比.结果表明:选矿自动控制系统的应用,有效地提高了管理效率、设备生产能力及劳动生产率,降低了材料消耗和工人劳动强度,取得了很好的应用效果.","authors":[{"authorName":"李进友","id":"aa7ebc04-56c4-4ec6-8a23-48bfc912129c","originalAuthorName":"李进友"},{"authorName":"王少林","id":"09addd4c-9d42-459f-a38e-8aa0a391699f","originalAuthorName":"王少林"},{"authorName":"徐怀浩","id":"c10eea65-db9e-443e-8759-4c398cf227a0","originalAuthorName":"徐怀浩"},{"authorName":"尹辉琳","id":"d19e43b7-be36-442e-bbcd-9d6f7fbd06a9","originalAuthorName":"尹辉琳"}],"doi":"","fpage":"36","id":"7a7a27df-5ecf-46d6-9b0a-ea26fdb74db3","issue":"9","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"8e58b5be-00a9-42e6-96fb-d265b3563d71","keyword":"选矿自动控制","originalKeyword":"选矿自动控制"},{"id":"5079dfe0-c7d1-4d63-a1da-61310e175211","keyword":"稳定","originalKeyword":"稳定"},{"id":"be2844ca-807a-4f89-ab18-d9e416efb3ca","keyword":"影响因素","originalKeyword":"影响因素"},{"id":"011f225d-ffa2-4c00-96c1-adda7d17eb89","keyword":"检测","originalKeyword":"检测"},{"id":"030f48bd-7d4a-4d9e-98c8-af59772e01cc","keyword":"控制","originalKeyword":"控制"}],"language":"zh","publisherId":"huangj201209009","title":"大尹格庄金矿选矿自动控制的应用","volume":"33","year":"2012"},{"abstractinfo":"大尹格庄金矿床矿体空间定位规律系统研究结果表明,已探明主矿体均产于招平断裂带内,NEE向次级断裂对主矿体空间定位有明显控制作用,与招平断裂带主裂面平行的次级断裂构造常产出小规模富矿体,招平断裂带深部派生的\"入\"字形构造有利于富矿体的产出,构造岩(碎裂岩、糜棱岩)和断层泥厚大部位矿体厚度增大;已探明矿体北东侧伏方向上是深部隐伏矿体的有利定位空间.据此圈定的成矿预测区,经工程验证,探矿增储效果明显.","authors":[{"authorName":"张瑞忠","id":"4345996e-3a16-4a2e-9376-ac600a6a4871","originalAuthorName":"张瑞忠"},{"authorName":"高帮飞","id":"1b56857c-e108-4d9b-8e17-9432695e2b24","originalAuthorName":"高帮飞"},{"authorName":"郭春影","id":"46477400-7d27-4beb-963a-b09fec3c53a5","originalAuthorName":"郭春影"},{"authorName":"宋吉杰","id":"63e2fe3f-8b9c-43a9-a32d-81704b5257ba","originalAuthorName":"宋吉杰"},{"authorName":"付建林","id":"aab3f004-ee60-4ee5-8962-fe0671453063","originalAuthorName":"付建林"}],"doi":"10.3969/j.issn.1001-1277.2008.04.003","fpage":"9","id":"87d52a98-a12d-4138-b405-52fcda341427","issue":"4","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"f5eb629f-5366-485d-b953-f21046267c4c","keyword":"招平断裂带","originalKeyword":"招平断裂带"},{"id":"c8c3dc2e-7e28-47d9-958b-a6363f462d75","keyword":"矿体定位","originalKeyword":"矿体定位"},{"id":"464ada3a-b7bb-4f11-a29f-143460e84a32","keyword":"成矿预测","originalKeyword":"成矿预测"},{"id":"f51ac4dc-6691-45bf-8660-36e4b31d1372","keyword":"大尹格庄金矿床","originalKeyword":"大尹格庄金矿床"}],"language":"zh","publisherId":"huangj200804003","title":"胶东大尹格庄金矿床矿体定位与成矿预测","volume":"29","year":"2008"},{"abstractinfo":"针对大尹格庄金矿选矿厂一段磨机中钢球尺寸偏大及补加球不合理等问题,应用精确化装补球方法对其装补球制度进行优化.工业应用效果表明:采用新的装补球方法后,在不改变磨矿细度的条件下,磨机单位处理量提高7.46%,选矿厂电耗降低6.10%,磨矿介质单耗降低4.24%.同时,工业应用实践也证明精确化装补球方法在金矿选矿中具有很好的应用及推广价值.","authors":[{"authorName":"康怀斌","id":"fcea57d9-e175-40d2-8574-266dc9b4988c","originalAuthorName":"康怀斌"},{"authorName":"肖庆飞","id":"064ebb58-4a23-491d-9ed5-e57c9b01cadd","originalAuthorName":"肖庆飞"},{"authorName":"秦洪训","id":"97eb5c5a-130d-46cd-b347-cf6b7ca7d8e6","originalAuthorName":"秦洪训"},{"authorName":"王彩霞","id":"ff867cf8-658e-42b4-8988-d3348d570112","originalAuthorName":"王彩霞"},{"authorName":"李进友","id":"4f914d92-30f6-491d-94b7-ae899a056c7f","originalAuthorName":"李进友"}],"doi":"10.11792/hj20150613","fpage":"53","id":"9f5b59bb-7a6f-4b7f-857a-30fd15176f04","issue":"6","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"419a17d1-6259-47d5-a399-56a90bb81a8c","keyword":"精确化装补球方法","originalKeyword":"精确化装补球方法"},{"id":"553ccc22-de18-4858-8a82-248e6a31663f","keyword":"磨矿","originalKeyword":"磨矿"},{"id":"8ea181dc-da8a-455e-ad24-76c76bf0027a","keyword":"节能降耗","originalKeyword":"节能降耗"},{"id":"f0bc7d5c-71fe-48dd-915a-520f69243c28","keyword":"球径半理论公式","originalKeyword":"球径半理论公式"},{"id":"c9d76db5-9af2-46b9-9a69-1a8a7af06e54","keyword":"金矿","originalKeyword":"金矿"}],"language":"zh","publisherId":"huangj201506013","title":"精确化装补球方法在大尹格庄金矿中的应用研究","volume":"36","year":"2015"},{"abstractinfo":"通过运用矿体空间分布规律即主构造控矿律、对应产出律等,结合地球物理、地球化学探矿信息进行找矿靶区预测,在曹家洼金矿小尹格庄矿区找矿取得了显著效果.","authors":[{"authorName":"王慧","id":"a952af57-bc0a-4ce8-b784-4dd605f9a287","originalAuthorName":"王慧"},{"authorName":"丛培章","id":"155421c4-0693-46a4-b20b-3a1c79843372","originalAuthorName":"丛培章"}],"doi":"10.3969/j.issn.1001-1277.2004.11.005","fpage":"18","id":"49b37d4b-01f6-41bb-9b7b-10a4d390dde9","issue":"11","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"0621c9e7-5a07-455c-9bca-d158be0816c4","keyword":"综合信息","originalKeyword":"综合信息"},{"id":"56f715b0-beb7-4fdd-ae5b-c8bbd1304ce3","keyword":"成矿预测","originalKeyword":"成矿预测"},{"id":"89bbd1de-952d-4330-8e9f-5cae3bb63a93","keyword":"曹家洼金矿","originalKeyword":"曹家洼金矿"}],"language":"zh","publisherId":"huangj200411005","title":"曹家洼金矿小尹格庄矿区综合信息研究与成矿靶区预测","volume":"25","year":"2004"}],"totalpage":3,"totalrecord":30}