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  4. 减压蒸馏法改性氢氧化镁阻燃剂的性能

材料科学与工程学报, 2009, 27(4): 601-604.

减压蒸馏法改性氢氧化镁阻燃剂的性能

王春来 1, , 卢晗锋 2, , 俞振海 3, , 陈银飞 4, 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3091-2001 要求的硫酸铜溶液腐蚀试验,研究了锌粉粒度及形状对机械镀锌层性能的影响.试验表明:在相同机械镀锌工艺规范下,320目颗粒状锌粉镀层颗粒粗大且不均匀,厚度范围33~55 mm,500目颗粒状锌粉镀层不及500目片状锌粉镀层致密,厚度范围45~58 mm,500目片状锌粉镀层最致密颗粒分布也最均匀,厚度范围33~41 mm; 320目颗粒状锌粉、500目颗粒状锌粉、500目片状锌粉机械镀锌层与钢铁基体之间附着强度均达到有关国家标准;均匀性均达到GB/T 3091-2001要求;锌粉粒度越小对应其镀层耐蚀性及均匀性也越好;在相同粒度尺寸下(500目锌粉),片状锌粉比粒状锌粉的镀层具有更好的耐腐性.","authors":[{"authorName":"李铁龙","id":"58572fa7-f1b8-4e15-85b9-20d31b4dd3b5","originalAuthorName":"李铁龙"},{"authorName":"杨新岐","id":"8defd5e2-4eed-4f84-8f64-cb7792cd2569","originalAuthorName":"杨新岐"},{"authorName":"海龙","id":"71ee907b-4e51-4055-a273-267e899f3870","originalAuthorName":"姜海龙"},{"authorName":"孙莉","id":"b67ed361-fdbd-405b-9071-2be5f69c00dd","originalAuthorName":"孙莉"}],"doi":"10.3969/j.issn.1001-1560.2005.11.004","fpage":"14","id":"cef08d4f-db0c-4d71-9f9d-1ac7463edae0","issue":"11","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"bd0d8ef6-2ccb-4d45-b9f2-6f829da92a0a","keyword":"机械镀","originalKeyword":"机械镀"},{"id":"e1ef378e-98dc-4c27-be97-5434c666d02a","keyword":"锌粉特性","originalKeyword":"锌粉特性"},{"id":"6313f807-bed0-4dc1-8b87-8976c552e089","keyword":"镀层均匀性","originalKeyword":"镀层均匀性"},{"id":"2002f36b-cd85-4806-8c06-57c5141afb4e","keyword":"耐蚀性","originalKeyword":"耐蚀性"}],"language":"zh","publisherId":"clbh200511004","title":"锌粉特性对机械镀锌层性能的影响","volume":"38","year":"2005"},{"abstractinfo":"在分析了几种大口径厚壁管的生产方法后,发现电渣重熔管坯技术可解决其他方法生产大口径厚壁管生产过程中存在的成本高、铸件质量低的问题.通过对电渣重熔管坯技术的原理及几项关键技术的分析,证实电渣重熔管坯技术是可行的,并且具有广泛的应用前景和经济价值.","authors":[{"authorName":"臧喜民","id":"b86cbd7c-baea-4814-856b-9c0a60e8edd1","originalAuthorName":"臧喜民"},{"authorName":"周华","id":"d972230a-cc9a-4e42-ad91-9e1431051c3f","originalAuthorName":"姜周华"},{"authorName":"","id":"af977036-ea52-4f12-a642-ff8141980156","originalAuthorName":""},{"authorName":"海龙","id":"2e96ffe9-1c4e-4d44-8a8c-1558ed46f675","originalAuthorName":"姜海龙"}],"doi":"10.3969/j.issn.1671-6620.2011.z1.015","fpage":"72","id":"8f4cedb0-eaee-4988-bf7e-4031a5a25a8e","issue":"z1","journal":{"abbrevTitle":"CLYYJXB","coverImgSrc":"journal/img/cover/CLYYJXB.jpg","id":"17","issnPpub":"1671-6620","publisherId":"CLYYJXB","title":"材料与冶金学报"},"keywords":[{"id":"567d3369-12b6-4e6d-aa59-3ee41c38ce97","keyword":"电渣重熔","originalKeyword":"电渣重熔"},{"id":"ce18de60-20ed-45a3-92ac-9ca4d9e99b98","keyword":"厚壁管","originalKeyword":"厚壁管"},{"id":"0710cdeb-0db0-4063-8373-3339fb53a1f0","keyword":"T形结晶器","originalKeyword":"T形结晶器"},{"id":"db68e4dc-6ae0-4598-8ffe-5a0187bb1e4a","keyword":"结晶器导电","originalKeyword":"结晶器导电"},{"id":"25f6c6e2-f9e9-42c3-ae4f-6f4c09425aef","keyword":"漏渣","originalKeyword":"漏渣"}],"language":"zh","publisherId":"clyyjxb2011z1015","title":"空心管坯电渣重熔技术","volume":"10","year":"2011"},{"abstractinfo":"用超临界CO2萃取生姜根茎中的油树脂,并用气相色谱-质谱联用技术对其进行了成分分析.从油树脂中分析出77种化合物,其中挥发油成分50种,主要是α-烯(22.29%)、β-倍半水芹烯(8.58%)、α-法尼烯(3.93%)、β-没药烯(3.87%)和α-姜黄烯(2.63%)等倍半萜类化合物;辣素成分27种,主要成分为6-酚(9.38%)、6-烯酚(7.59%)和分析过程中由酚类或烯酚类化合物受热分解而形成的油酮(9.24%).在辣素成分中,6-异酚、(Z)-10-异烯酚和(E)-10-异烯酚3种化合物是新发现的未见报道的化合物.实验中对这3种新化合物进行了质谱裂解分析.","authors":[{"authorName":"战琨友","id":"18029250-7538-4dbd-a479-4a7c758cfe80","originalAuthorName":"战琨友"},{"authorName":"王超","id":"e25f333c-dd8d-45ed-9015-ba6126bcf7cd","originalAuthorName":"王超"},{"authorName":"徐坤","id":"e8424cb6-b0d4-46ed-8fa2-c673af3ec31c","originalAuthorName":"徐坤"},{"authorName":"尹洪宗","id":"ec76914e-8f6c-4f7e-afaf-bbc7cda8c69f","originalAuthorName":"尹洪宗"}],"doi":"10.3321/j.issn:1000-8713.2008.06.009","fpage":"692","id":"42c1bbc0-652a-433f-8e34-86f30b7f6523","issue":"6","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"e53773ad-891b-403b-8b22-f5b0686630e3","keyword":"超临界萃取","originalKeyword":"超临界萃取"},{"id":"286cbdc0-600d-40b3-affc-527a1b3253a4","keyword":"气相色谱-质谱联用技术","originalKeyword":"气相色谱-质谱联用技术"},{"id":"7ed48749-e650-4478-96ef-9741cba04e1c","keyword":"油树脂","originalKeyword":"姜油树脂"},{"id":"bf6fde50-9a7b-42f4-953e-bf1116bcbb98","keyword":"成分分析","originalKeyword":"成分分析"}],"language":"zh","publisherId":"sp200806009","title":"气相色谱-质谱技术分析油树脂中的挥发性及非挥发性成分","volume":"26","year":"2008"},{"abstractinfo":"为了快速缩小找矿范围,提供有利靶区,根据1∶5万水系沉积物测量化探异常( Hs-27)区,在青海龙哇俄当地区开展了1∶1万土壤地球化学测量工作,通过对1570件有效土壤样品进行Au、Ag、Pb、Zn、Cu、As、Sb、Bi等元素分析测试,结果表明:Pb、Zn和As元素的浓集系数和变异系数较大,易形成地球化学异常,共圈定出12处异常集中区。运用聚类分析和因子分析等方法,在分析各元素组合特征、浓度情况的基础上,对异常进行了筛选评价,圈定和优选了3处找矿靶区,并对下一步找矿工作提出了建议。","authors":[{"authorName":"陈健","id":"ae3f40bb-6453-4d96-b425-6bebc4b42330","originalAuthorName":"陈健"},{"authorName":"卢学斌","id":"9139b25f-28e5-4fe0-8fe8-810408aaad73","originalAuthorName":"卢学斌"},{"authorName":"李正栋","id":"4767e679-cb7b-4ab4-bcb7-36c57b7337f6","originalAuthorName":"李正栋"},{"authorName":"保守礼","id":"55b0b77f-7d84-4898-84ae-7f5a172ee3f5","originalAuthorName":"保守礼"}],"doi":"10.11792/hj20160906","fpage":"24","id":"84fed4bf-7bbc-4214-86d4-fc27d2b420eb","issue":"9","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"6582a0c2-a4c9-40ed-a5ec-7f9dd6f7ad63","keyword":"土壤地球化学测量","originalKeyword":"土壤地球化学测量"},{"id":"e78a2ab6-cf3d-4f82-803c-9f8526dd89dd","keyword":"地球化学异常","originalKeyword":"地球化学异常"},{"id":"82e63137-6014-4a4f-93f0-4f556177f392","keyword":"聚类分析","originalKeyword":"聚类分析"},{"id":"5b6738f4-33bc-401c-8542-135cfd7e38fa","keyword":"因子分析","originalKeyword":"因子分析"},{"id":"42ed652a-9b12-4cbc-9609-9f1d4e78c168","keyword":"龙哇俄当地区","originalKeyword":"龙哇俄当地区"},{"id":"8d40410a-702a-4c24-b40b-7433c01c6fbb","keyword":"青海省","originalKeyword":"青海省"}],"language":"zh","publisherId":"huangj201609006","title":"青海龙哇俄当地区土壤地球化学测量找矿研究","volume":"37","year":"2016"},{"abstractinfo":"招平断裂南段的夏甸-家窑金矿床受断裂产状变化、断层泥、脉岩、次级断裂复合控制.矿体多赋存于蚀变分带明显、产状由缓变陡处、脉岩的下盘,并具北东侧伏及尖灭再现规律.","authors":[{"authorName":"王慧","id":"7fb4a685-ee01-4317-819a-300c21af4083","originalAuthorName":"王慧"},{"authorName":"丛成双","id":"061afad7-97f4-4639-b4cd-68988fd1f17e","originalAuthorName":"丛成双"},{"authorName":"丛培章","id":"c090b397-22b7-4f56-ba4e-2c18ca877e09","originalAuthorName":"丛培章"}],"doi":"10.3969/j.issn.1001-1277.2003.08.004","fpage":"12","id":"8bf4c3f0-63ec-49ae-a9a0-0667a8411238","issue":"8","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"10e6b959-ddde-4db4-b855-31927c89ad94","keyword":"赋存规律","originalKeyword":"赋存规律"},{"id":"cc25cee2-8e48-436f-99af-04df19dba09c","keyword":"控矿规律","originalKeyword":"控矿规律"},{"id":"6575bbc0-457d-43a2-88fc-6b2f84731b46","keyword":"夏甸-家窑金矿床","originalKeyword":"夏甸-姜家窑金矿床"}],"language":"zh","publisherId":"huangj200308004","title":"夏甸—家窑金矿床矿体赋存规律及控矿规律研究","volume":"24","year":"2003"},{"abstractinfo":"家窑金矿根据国内外矿山竖井提升现状,经过较详细地理论计算,自行设计出提升容器及配套系统,在该矿得到了应用,并取得了竖井小断面(1.8m×2.7m),卷扬机小型号(φ1.2m双卷筒卷扬机)、提升能力大(达到300~470t/d)的可喜成果,为矿山竖井开拓设计和竖井改造提供了一条可借鉴的经验.","authors":[{"authorName":"郭建军","id":"783308e8-87b6-40f3-9c39-7feb3a63137e","originalAuthorName":"郭建军"},{"authorName":"马玉山","id":"b94224e7-ec93-4950-896c-062c77ba65e2","originalAuthorName":"马玉山"},{"authorName":"贾汉义","id":"ada19182-f707-40f2-80b0-796996b18f85","originalAuthorName":"贾汉义"},{"authorName":"李勇","id":"36bfaa12-893d-443b-b747-041645e6db4e","originalAuthorName":"李勇"}],"doi":"10.3969/j.issn.1001-1277.2002.06.007","fpage":"21","id":"321851a5-c603-4614-8ce4-0bd2be6f3478","issue":"6","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"869cd681-9122-4747-ba4f-9ac4614bdc37","keyword":"竖井","originalKeyword":"竖井"},{"id":"5d0ede2b-afe1-4b9c-9648-37d619c8edb8","keyword":"提升容器","originalKeyword":"提升容器"},{"id":"43140e8c-cc3b-48d2-aa61-b07004268c15","keyword":"配套系统","originalKeyword":"配套系统"},{"id":"8430467d-ad62-43e8-aea9-26e36a7d5c72","keyword":"研究","originalKeyword":"研究"},{"id":"394bd3ab-4dde-451f-947f-57d830b95fb9","keyword":"应用","originalKeyword":"应用"}],"language":"zh","publisherId":"huangj200206007","title":"家窑金矿盲竖井提升容器及配套系统的研究与应用","volume":"23","year":"2002"},{"abstractinfo":"夏甸—家窑测区位于招平断裂带中段. 招平断裂带在该区段大致沿玲珑花岗岩与胶东群变质岩接触带展布,总体走向42°,倾向SE,倾角37°~52°. 主要金矿体赋存于招平断裂带主裂面下盘黄铁绢英岩化碎裂岩和黄铁绢英岩化花岗岩中. 本次地表构造地球化学测量面积约12 .6 km2 ,采集样品352件,测试元素包括Au、Ag、Cu、Pb、Zn、As、Sb、Hg、Mo、Bi、Mn等19种. Au元素异常与Ag和As元素异常有普遍套合性,与Cu、Pb、Zn、Sb元素异常呈局部套合性. 结合多元统计分析,测定针对深部矿体预测的构造地球化学标志Au-Ag-As,元素组合异常以及斜交参考因子得分Y( i,3)异常和Y( i,7)异常. 在现采矿区深、边部所对应的地表区域圈定出深部隐伏矿体找矿靶位4处.","authors":[{"authorName":"阚靖","id":"02776e6c-2d0c-4c48-9b41-3f220a253ca9","originalAuthorName":"阚靖"},{"authorName":"杨欣鹏","id":"1e620d36-2b91-439c-8108-8d9427ea3a83","originalAuthorName":"杨欣鹏"},{"authorName":"向胤合","id":"271df6c2-7de4-4d5b-9d30-39a2d41bd08c","originalAuthorName":"向胤合"},{"authorName":"杨斌","id":"e652f160-2b33-4865-9ec8-cd5b20be1c70","originalAuthorName":"杨斌"},{"authorName":"梁琴琴","id":"379efe08-608a-4ad3-8de7-d34b22d6060a","originalAuthorName":"梁琴琴"},{"authorName":"陈燕","id":"ecc028b7-a4da-442a-8686-2fa957658c26","originalAuthorName":"陈燕"},{"authorName":"刘庚寅","id":"c88839aa-3014-437a-865d-28f32b2129f0","originalAuthorName":"刘庚寅"}],"doi":"10.11792/hj20150504","fpage":"12","id":"75a62c02-8a0a-4531-8687-f60251820855","issue":"5","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"2f556708-0107-46c4-9134-903d60144569","keyword":"找矿预测","originalKeyword":"找矿预测"},{"id":"ea5d46b4-7b4d-453f-a06d-5d2092637c8b","keyword":"构造地球化学","originalKeyword":"构造地球化学"},{"id":"ee6028e8-5ceb-4284-9a19-0c36b7511af1","keyword":"多元统计分析","originalKeyword":"多元统计分析"},{"id":"99bc456f-c949-4921-8d8b-7ca4d12537e3","keyword":"夏甸—家窑测区","originalKeyword":"夏甸—姜家窑测区"},{"id":"35ec4729-d34c-4d49-bc6b-967a77e01731","keyword":"招平断裂带","originalKeyword":"招平断裂带"}],"language":"zh","publisherId":"huangj201505004","title":"招平断裂带夏甸—家窑段构造地球化学找矿预测","volume":"36","year":"2015"},{"abstractinfo":"","authors":[],"doi":"","fpage":"34","id":"5b4d8b4f-3ef6-4bb3-807c-db01b4ef7cc2","issue":"4","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"b15c31bf-47ec-42d4-9738-2b69805131bc","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"clbh200304042","title":"上海龙生助剂厂2003年工作计划","volume":"36","year":"2003"},{"abstractinfo":"采用压榨和熬煮两种方法从萝卜、香菜、大葱、柚子皮、中提取制剂,并采用电化学方法研究各种制剂对钢的腐蚀行为的影响,初步探讨制备方法对植物提取物缓蚀作用的影响规律.结果表明,各种制剂对钢在酸化盐溶液中的腐蚀均具有一定的缓蚀作用.制备方法对葱、制剂的缓蚀效果影响较大,葱压榨制剂的缓蚀效果明显高于熬煮制剂的缓蚀效果,而生姜熬煮制剂的缓蚀效果高于压榨制剂的.制备方法对制剂缓蚀效率的影响缘于制备方法对制剂成分的影响.","authors":[{"authorName":"赵卫民","id":"ebe3c495-9b20-4e2d-bf29-736be21d8793","originalAuthorName":"赵卫民"},{"authorName":"于道永","id":"6cbe8e90-e91c-435f-b10c-00b1d25649e9","originalAuthorName":"于道永"}],"doi":"","fpage":"110","id":"58246008-8af2-4008-934d-f6d45dbfd7e2","issue":"2","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"e655c10f-5932-449e-9466-c385d5ce80ef","keyword":"金属腐蚀","originalKeyword":"金属腐蚀"},{"id":"bf3be800-53fd-4a0b-a962-5c94e26c7e99","keyword":"天然植物","originalKeyword":"天然植物"},{"id":"c42c5ebd-5240-4033-a7d8-d9fb07a5da08","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"}],"language":"zh","publisherId":"fsyfh200902011","title":"制备方法对植物提取物缓蚀作用的影响","volume":"30","year":"2009"}],"totalpage":2,"totalrecord":18}