{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":2,"startPagecode":1},"records":[{"abstractinfo":"从编写安全技术说明书(SDS)的临界值、最低限度信息、语言要求等方面介绍了联合国《全球化学品统一分类和标签制度》(GHS第五修订版)关于编写SDS的新指南;针对目前企业编写的SDS不符合GHS要求的常见问题进行分析和归纳,为我国实施SDS提出建议.","authors":[{"authorName":"蔡清平","id":"df87185e-602f-4f23-8f61-12933b8e9ecb","originalAuthorName":"蔡清平"},{"authorName":"陈谷峰","id":"d5444379-5f2e-482c-bc5b-f932c3dc8178","originalAuthorName":"陈谷峰"},{"authorName":"李政军","id":"105b238b-fcd2-48b2-a25f-7bb91aad3326","originalAuthorName":"李政军"},{"authorName":"陈强","id":"baa28845-78ef-44bf-b48c-6f1c20b47315","originalAuthorName":"陈强"},{"authorName":"翟翠萍","id":"406fe5cb-7ade-44a3-91fd-dd7ff2cb886f","originalAuthorName":"翟翠萍"},{"authorName":"郑建国","id":"a30576ca-7e79-4bf0-9cc9-58c577778341","originalAuthorName":"郑建国"}],"doi":"","fpage":"46","id":"9439e4c7-bb80-430b-8d73-1b74f9a55778","issue":"3","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"470c4ea9-a110-40c1-8b7d-e6e929e701ad","keyword":"安全技术说明书(SDS)","originalKeyword":"安全技术说明书(SDS)"},{"id":"e3100348-494d-4e7c-9f5a-0b225d97f175","keyword":"全球化学品统一分类和标签制度(GHS)","originalKeyword":"全球化学品统一分类和标签制度(GHS)"},{"id":"621ac622-1d9e-40ac-b20f-fa82a9296f71","keyword":"临界值","originalKeyword":"临界值"},{"id":"7d32a17b-f244-4ea4-b467-137dd82a1b2a","keyword":"最低限度信息","originalKeyword":"最低限度信息"},{"id":"e34c79aa-9533-43f8-b680-550fa8e6e179","keyword":"危险化学品","originalKeyword":"危险化学品"}],"language":"zh","publisherId":"tlgy201503010","title":"GHS最新修订版对我国实施SDS的启示","volume":"45","year":"2015"},{"abstractinfo":"矿山金属平衡通过矿山金属产量实现了地质资源储量模型与矿山实际生产数据有机的结合,它涉及到储量评估、采矿计划、品位控制、矿山测量、选矿流程和产品销售等各个矿山生产环节.以蔡家营矿为例详细介绍了矿山金属平衡的操作步骤,实施矿山金属平衡不但可以评估矿山生产运作过程中财务现金流的风险,而且更重要的是运用实际品位数据来检验矿体矿块模型对采矿品位预计的可信度.","authors":[{"authorName":"梁涛","id":"4db6c0b4-2849-48c9-8284-1924cd18346c","originalAuthorName":"梁涛"},{"authorName":"卢仁","id":"12f6c54d-476c-4ec6-9349-0d1d5b907b04","originalAuthorName":"卢仁"},{"authorName":"吕胜利","id":"798ec94f-56a6-4a6b-b2b1-4d7b2dba45bf","originalAuthorName":"吕胜利"},{"authorName":"王书军","id":"1eb66d1f-a26a-46ac-bb0f-17754796659f","originalAuthorName":"王书军"},{"authorName":"刘明月","id":"db9462e3-990f-49cc-869b-2eb9e19d8516","originalAuthorName":"刘明月"},{"authorName":"张四维","id":"9704dcd6-3761-42e1-90a9-abd06a6f03c3","originalAuthorName":"张四维"}],"doi":"10.3969/j.issn.1001-1277.2010.09.008","fpage":"33","id":"276f67c7-9926-4144-b980-ca476b438ce6","issue":"9","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"59adb483-d722-4ab6-a33e-869876754a12","keyword":"矿山金属平衡","originalKeyword":"矿山金属平衡"},{"id":"b70fda73-0fee-4ebe-8ee1-5edf570404b1","keyword":"Micromine软件","originalKeyword":"Micromine软件"},{"id":"5eac0457-2b20-4ee9-9e7b-46993907204e","keyword":"蔡家营矿","originalKeyword":"蔡家营矿"}],"language":"zh","publisherId":"huangj201009008","title":"矿山金属平衡的应用——以蔡家营矿为例","volume":"31","year":"2010"},{"abstractinfo":"在工艺矿物学研究的基础上对含金0.084 g/t、硫2.74%的陕西蔡川铜尾矿进行了金的强化回收技术研究.结果表明,含金铜尾矿经过一次粗选、一次精选、一次扫选闭路流程可获得硫品位43.34%、回收率44.30%的硫精矿,其中金品位为1.26g/t、回收率为42.06%,达到计价标准.另外矿石中的银和镓元素也得到了一定程度的回收.理论分析结果显示,组合药剂的使用可大幅度提高含金矿物的选别效果,Y-89和丁基铵黑药的组合属于正—负型协同药剂,药剂基团中硫原子的Mulliken电荷分布是影响捕收剂选别性能的关键因素.","authors":[{"authorName":"刘明宝","id":"56fb3e34-3b54-4489-9bf7-82c08366462d","originalAuthorName":"刘明宝"},{"authorName":"杨超普","id":"e833885d-42ff-4dd3-a39e-666936e47fe5","originalAuthorName":"杨超普"},{"authorName":"阎赞","id":"1bea5843-bdd1-4e40-96d2-d451a868d4ee","originalAuthorName":"阎赞"},{"authorName":"印万忠","id":"c641e8f4-946b-41d9-94d4-78e7fb636315","originalAuthorName":"印万忠"}],"doi":"10.3969/j.issn.2095-1744.2016.05.013","fpage":"61","id":"0e228049-8998-421c-9974-9b7ac7be17a9","issue":"5","journal":{"abbrevTitle":"YSJSGC","coverImgSrc":"journal/img/cover/YSJSGC.jpg","id":"76","issnPpub":"2095-1744","publisherId":"YSJSGC","title":"有色金属工程"},"keywords":[{"id":"a81e098e-e47c-4fb2-8b06-a6e17609a946","keyword":"铜尾矿","originalKeyword":"铜尾矿"},{"id":"3deeda17-63a5-42a6-b747-abf688732cc2","keyword":"协同药剂","originalKeyword":"协同药剂"},{"id":"8c0e1c8f-f808-4870-91e6-fa75ff442474","keyword":"Mulliken电荷","originalKeyword":"Mulliken电荷"}],"language":"zh","publisherId":"ysjs201605013","title":"陕西蔡川铜矿含金铜尾矿中金的回收","volume":"6","year":"2016"},{"abstractinfo":"","authors":[{"authorName":"任奋华","id":"2a5b4689-c62a-4960-8eb2-6567c990c681","originalAuthorName":"任奋华"}],"doi":"10.3969/j.issn.1000-6826.2014.01.02","fpage":"4","id":"1c40aff9-dee8-40ea-a8c8-c489e460ba13","issue":"1","journal":{"abbrevTitle":"JSSJ","coverImgSrc":"journal/img/cover/3abe017a-2574-4821-8152-4ae974ef0471.jpg","id":"47","issnPpub":"1000-6826","publisherId":"JSSJ","title":"金属世界"},"keywords":[{"id":"8e811965-276b-46fd-8dd8-070856ff5f74","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"jssj201401002","title":"蔡美峰院士主要学术成就和学术贡献","volume":"","year":"2014"},{"abstractinfo":"","authors":[{"authorName":"刘蕊","id":"93c831ad-10b7-4a10-857f-b8e8da3ee185","originalAuthorName":"刘蕊"}],"doi":"10.3969/j.issn.1000-6826.2014.01.01","fpage":"1","id":"6d20aacd-b773-41ad-9445-fe85c129b7e3","issue":"1","journal":{"abbrevTitle":"JSSJ","coverImgSrc":"journal/img/cover/3abe017a-2574-4821-8152-4ae974ef0471.jpg","id":"47","issnPpub":"1000-6826","publisherId":"JSSJ","title":"金属世界"},"keywords":[{"id":"14566ad4-62b0-4252-bb81-3f48146ff780","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"jssj201401001","title":"蔡美峰:苦孩子长成大院士","volume":"","year":"2014"},{"abstractinfo":"采用薄壁圆筒扭转的试验方法测定碳纤维/环氧树脂复合材料的面内剪切性能,得到了碳纤维/环氧树脂复合材料的面内剪切模量与剪切强度结果.最后将试验结果与4种经验公式估算结果对比,得出蔡-韩修正公式对面内剪切模量的估算结果接近试验值.","authors":[{"authorName":"孙炳君","id":"ee4cf278-3c10-4bc0-aa4b-decc15004622","originalAuthorName":"孙炳君"},{"authorName":"王俊","id":"1f95dfdc-fd71-41ac-b0d8-b4180aa040de","originalAuthorName":"王俊"},{"authorName":"迟蕾","id":"e7f98809-cdf2-4368-8b64-687acc1edc02","originalAuthorName":"迟蕾"}],"doi":"","fpage":"187","id":"3f733507-f2fe-4de2-9611-63619f2a96cf","issue":"z3","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"c824d975-47da-4d4c-92e4-e0419c01ed0d","keyword":"薄壁圆筒","originalKeyword":"薄壁圆筒"},{"id":"5737a280-5d2b-4e1a-8d59-2283ba59a9be","keyword":"扭转","originalKeyword":"扭转"},{"id":"02cce7c9-7546-441a-bed5-9d6afa26110e","keyword":"经验公式","originalKeyword":"经验公式"}],"language":"zh","publisherId":"cldb2008z3060","title":"碳纤维复合材料面内剪切性能试验研究","volume":"22","year":"2008"},{"abstractinfo":"实验分析了锌镍合金电沉积过程中温度、导电盐、添加剂量和pH值等工艺参数对镀层镍含量的影响.着重考蔡了pH值与添加剂之间的相互作用及其匹配关系对镀层镍含量的影响.发现pH值在有无添加剂时对镀层镍含量的影响规律不同,并试用极化曲线分析其原因.","authors":[{"authorName":"欧雪梅","id":"33f268d5-c95a-4dfa-b03e-f3a1caea1b38","originalAuthorName":"欧雪梅"},{"authorName":"易春龙","id":"579bf0c0-917d-4ad4-87d9-f7537cab56a2","originalAuthorName":"易春龙"},{"authorName":"孙寅","id":"af63a93f-0f08-4898-9593-9799b0d8a08c","originalAuthorName":"孙寅"},{"authorName":"王锐","id":"61c7ccf3-a156-44f9-b044-70adfcf54d17","originalAuthorName":"王锐"},{"authorName":"喻尊璞","id":"23937dda-b728-455c-9eb6-0d61ce02d796","originalAuthorName":"喻尊璞"}],"doi":"10.3969/j.issn.1001-3660.2001.04.003","fpage":"6","id":"5ff6b9c9-06bc-41f7-8d5a-e4f57289e575","issue":"4","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 "},"keywords":[{"id":"37c6c48c-ed80-4bab-9e4b-6dea57f9b228","keyword":"锌镍合金","originalKeyword":"锌镍合金"},{"id":"3d07cdb0-65d6-43dd-a5a1-0169c77aa703","keyword":"镀层","originalKeyword":"镀层"},{"id":"40f1ecdc-22f2-4c1f-8c9d-47700873995c","keyword":"工艺参数","originalKeyword":"工艺参数"},{"id":"f26bf90e-9ffa-44f1-a9c7-23760b43801c","keyword":"镍含量","originalKeyword":"镍含量"}],"language":"zh","publisherId":"bmjs200104003","title":"电沉积工艺对锌镍合金镀层镍含量的影响","volume":"30","year":"2001"},{"abstractinfo":"基于微分几何推导出了不等极孔椭球类容器纤维缠绕的非测地线稳定缠绕方程,并根据薄膜理论、层合板理论、蔡-吴失效准则得到了赤道处纤维层的最小厚度1.281 7 mm,计算出的纤维方向的应力小于纤维的极限强度3.92 GPa.发现纤维缠绕椭球容器的应力状态是赤道处最先发生破坏,且会出现局部失效现象.以缠绕层最小质量M为目标函数,蔡-吴失效准则为约束条件,在给定内压5 MPa的情况下,得到了优化后的容器质量为34.072 kg.相比于等极孔的容器而言,非测地线缠绕具有高度非线性、不稳定性及精度难以控制等问题.","authors":[{"authorName":"王荣","id":"010b4731-ced0-4e76-b3ef-153f18213542","originalAuthorName":"王荣"},{"authorName":"何钦象","id":"7f2ff5b2-2c8b-4e70-9e34-a963bd59301c","originalAuthorName":"何钦象"},{"authorName":"祖磊","id":"1cc23578-e302-47c2-a97b-a665d7a757c3","originalAuthorName":"祖磊"}],"doi":"10.3969/j.issn.1007-2330.2014.04.004","fpage":"25","id":"91beb900-b243-4240-8ac5-176798a9a552","issue":"4","journal":{"abbrevTitle":"YHCLGY","coverImgSrc":"journal/img/cover/YHCLGY.jpg","id":"77","issnPpub":"1007-2330","publisherId":"YHCLGY","title":"宇航材料工艺 "},"keywords":[{"id":"e91feb4f-3b33-4286-97a2-7e1fcdc81d15","keyword":"不等极孔","originalKeyword":"不等极孔"},{"id":"310d9ae7-1c80-41a6-b83d-dfb4cf9fa880","keyword":"纤维缠绕","originalKeyword":"纤维缠绕"},{"id":"00e46863-45a4-4e61-b6c2-83f59f095d76","keyword":"非测地线","originalKeyword":"非测地线"},{"id":"fdb7739d-84e2-4329-b304-5396b29bc6ee","keyword":"优化","originalKeyword":"优化"}],"language":"zh","publisherId":"yhclgy201404004","title":"纤维缠绕不等极孔椭球类容器的应力分析及优化","volume":"44","year":"2014"},{"abstractinfo":"采用加速溶剂萃取-高效液相色谱法测定了武汉市6个远城区(蔡甸、东西湖、汉南、黄陂、江夏、新洲)农田土壤样品中16种多环芳烃(PAHs)的含量.结果表明,研究区土壤中16种PAHs总量范围为12.86-876.82μg·kg-1,平均含量为122.64μg·kg-1,土壤中PAHs以中高环PAHs为主.通过因子分析法和异构体比值法分析,研究区土壤中PAHs主要为化石燃烧来源(包括汽油燃烧和柴油燃烧)、生物质或煤炭燃烧来源.采用毒性当量评价方法对研究区土壤PAHs进行潜在致癌性分析,结果表明土壤中PAHs潜在致癌性较低.","authors":[{"authorName":"贺小敏","id":"baffbfe3-e483-466d-bec3-0fc9a72cdb41","originalAuthorName":"贺小敏"},{"authorName":"李爱民","id":"0f74e523-f455-4037-a121-76fac28efb71","originalAuthorName":"李爱民"},{"authorName":"吴昊","id":"e86fb7ca-e491-4636-941c-d6bc2fbe1711","originalAuthorName":"吴昊"},{"authorName":"施敏芳","id":"271a2cc9-7926-4209-939b-133fae18adb0","originalAuthorName":"施敏芳"},{"authorName":"陈浩","id":"5311d911-c034-4634-8b0a-0be96ff6f696","originalAuthorName":"陈浩"}],"doi":"10.7524/j.issn.0254-6108.2015.11.2015041801","fpage":"2139","id":"11bfe23d-41a1-4f59-8012-db375d8139d3","issue":"11","journal":{"abbrevTitle":"HJHX","coverImgSrc":"journal/img/cover/HJHX.jpg","id":"43","issnPpub":"0254-6108","publisherId":"HJHX","title":"环境化学 "},"keywords":[{"id":"5b5f42b1-4152-41c0-8dc5-4570b3bc89e0","keyword":"多环芳烃","originalKeyword":"多环芳烃"},{"id":"d6930a3d-4b81-4fb8-ae54-6c4c4a0a9004","keyword":"农田土壤","originalKeyword":"农田土壤"},{"id":"b9f56ca4-5511-4133-88f1-bb455a59db27","keyword":"分布","originalKeyword":"分布"},{"id":"5c6375b0-c0f2-42fb-b05b-72f49fb0d0c9","keyword":"来源","originalKeyword":"来源"},{"id":"008c348b-e309-47de-8c0e-3df135e856e5","keyword":"风险评价","originalKeyword":"风险评价"},{"id":"257b1687-720e-4313-a3e4-da25c144b15b","keyword":"武汉市","originalKeyword":"武汉市"}],"language":"zh","publisherId":"hjhx201511024","title":"武汉市远城区农田土壤中多环芳烃的分布特征、来源和风险评价","volume":"34","year":"2015"},{"abstractinfo":"萘系高效减水剂合成过程中回收的挥发萘颜色较深,与工业萘相比纯度降低近3%.使用掺有挥发萘合成的萘系高效减水剂配制水泥净浆,研究表明,随着挥发蔡掺入量的增加,净浆初始流动度减小,经时损失增大;混凝土试验表明,随着挥发萘掺入量的增加,萘系高效减水剂的减水率降低,增强作用减弱.因此,在挥发萘回用过程中,掺量不宜过大,最好不要超过5%.","authors":[{"authorName":"何廷树","id":"393635cd-b86b-4d58-bf69-70dfd9dd1653","originalAuthorName":"何廷树"},{"authorName":"刘鹏","id":"ebc92b62-2837-4d89-b1da-cdbb724be588","originalAuthorName":"刘鹏"},{"authorName":"高哲","id":"1e1af1dd-2658-4088-bd7f-e1fa03d96458","originalAuthorName":"高哲"},{"authorName":"潘亚生","id":"00d0b1a2-e5f4-4d07-a508-7ca830e2a228","originalAuthorName":"潘亚生"},{"authorName":"潘晓让","id":"ee83111f-e061-4473-9803-256ab69cb112","originalAuthorName":"潘晓让"}],"doi":"","fpage":"116","id":"46900488-0120-4981-861c-40be727ee885","issue":"10","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"f3c21d94-f51c-485d-9624-05f55a7348e6","keyword":"挥发萘回用","originalKeyword":"挥发萘回用"},{"id":"a6292832-30b7-470d-9009-1c2322bc7067","keyword":"红外光谱","originalKeyword":"红外光谱"},{"id":"5a5fa98f-47dd-4ae1-9485-0913afa8c084","keyword":"净浆流动性","originalKeyword":"净浆流动性"},{"id":"2c6d84f6-647c-4c10-b6db-560aae7ed9ea","keyword":"混凝土","originalKeyword":"混凝土"}],"language":"zh","publisherId":"cldb201210033","title":"挥发萘回用对萘系高效减水剂性能的影响","volume":"26","year":"2012"}],"totalpage":2,"totalrecord":17}