{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用控制双脉冲电位沉积技术制备Ni-聚苯胺复合电极.扫描电镜下观察电极表面呈菜花状结构,比表面积约为普通镀Ni电极的4～50倍.Ni-PAN复合电极的X射线衍射谱图中分别出现了Ni和PAN的特征峰.通过测试复合电极在模拟氯碱工业电解液中的阴极极化曲线,研究了Ni-PAN电极的析氢性能,结果显示当电流密度为0.10 A/cm2时,析氢过电位较镀Ni电极降低约350 mV.复合电极性能稳定,可作为氯碱工业用活性阴极,能显著降低能耗.","authors":[{"authorName":"姚素薇","id":"adabcc6b-a42b-4391-997f-ec04d5b6fde9","originalAuthorName":"姚素薇"},{"authorName":"<span style=\"color:red\">刘</span><span style=\"color:red\">春</span><span style=\"color:red\">松</span>","id":"8979f12e-92fa-43b6-8176-63a6be13d22e","originalAuthorName":"刘春松"},{"authorName":"张卫国","id":"7a0b0103-74d2-4306-8659-075369fb3f6e","originalAuthorName":"张卫国"},{"authorName":"王宏智","id":"58040d9e-4f92-4461-9314-ee07c38f53d0","originalAuthorName":"王宏智"},{"authorName":"张溪","id":"9b5c0a23-5134-41f0-8be5-415aa9e3a810","originalAuthorName":"张溪"}],"doi":"10.3969/j.issn.1004-227X.2006.02.001","fpage":"1","id":"812c8252-74a4-43a2-9d29-d420c3a3bc32","issue":"2","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰   "},"keywords":[{"id":"c103e2ad-1a42-415d-bd6f-702e0a796236","keyword":"双脉冲","originalKeyword":"双脉冲"},{"id":"9d7422a1-2bad-469c-88d1-5dc52b68378c","keyword":"电沉积","originalKeyword":"电沉积"},{"id":"956ebe7e-558f-4b0d-a838-03594812dc16","keyword":"复合电极","originalKeyword":"复合电极"},{"id":"759cb4b1-6ea9-4bcb-b36b-a7a3d6417896","keyword":"Ni","originalKeyword":"Ni"},{"id":"b3324c43-b2f1-405f-9bbf-059a1a07a4e1","keyword":"聚苯胺","originalKeyword":"聚苯胺"},{"id":"8d0844a0-3510-4c2b-a910-3c6970932626","keyword":"析氢","originalKeyword":"析氢"}],"language":"zh","publisherId":"ddyts200602001","title":"双脉冲电沉积制备Ni-聚苯胺复合电极及其析氢性能的研究","volume":"25","year":"2006"},{"abstractinfo":"在硫氰酸铵分光光度法分析金属钨的基础上建立了Ni-W合金镀液中WO42-的测定方法,考察并排除了镀液组成(Ni2+、络合剂)、显色剂等对测试精度的影响.实验结果表明,该分析方法灵敏度高,误差小(低于3%),适用于研究室及工业生产中的分析.","authors":[{"authorName":"姚素薇","id":"7fb6fdb4-b472-41c4-8699-f4afa636d049","originalAuthorName":"姚素薇"},{"authorName":"朱建红","id":"6222bb25-93e8-4e5f-886a-7072c3df3935","originalAuthorName":"朱建红"},{"authorName":"<span style=\"color:red\">刘</span><span style=\"color:red\">春</span><span style=\"color:red\">松</span>","id":"9585f383-38d3-476e-8378-af22b7bd5c96","originalAuthorName":"刘春松"},{"authorName":"张卫国","id":"2252b838-6aad-4ea7-a6ff-7f367870ad7e","originalAuthorName":"张卫国"},{"authorName":"王宏智","id":"9f95eb79-876f-43ab-a273-4a75f9355160","originalAuthorName":"王宏智"}],"doi":"10.3969/j.issn.1001-3849.2007.01.013","fpage":"45","id":"93268889-56e1-4110-8ccc-15643da6f45b","issue":"1","journal":{"abbrevTitle":"DDYJS","coverImgSrc":"journal/img/cover/DDYJS.jpg","id":"20","issnPpub":"1001-3849","publisherId":"DDYJS","title":"电镀与精饰   "},"keywords":[{"id":"03da0fa2-d042-4e69-9ef0-dc7626ba11f3","keyword":"分光光度分析","originalKeyword":"分光光度分析"},{"id":"1e69dfbc-152a-4813-98a6-3329811b36cc","keyword":"Ni-W合金镀液","originalKeyword":"Ni-W合金镀液"},{"id":"cf60084b-8872-4457-9403-ff0400c224ae","keyword":"钨含量","originalKeyword":"钨含量"}],"language":"zh","publisherId":"ddjs200701013","title":"Ni-W合金镀液中钨的分光光度分析","volume":"29","year":"2007"},{"abstractinfo":"采用Chiralpak IC手性柱(250 mm×4.6 mm,5 μm),建立了正相高效液相色谱测定板蓝根中表告依<span style=\"color:red\">春</span>(R-告依<span style=\"color:red\">春</span>)和告依<span style=\"color:red\">春</span>(S-告依<span style=\"color:red\">春</span>)含量的方法.考察了流动相组成、流速和柱温对分离度的影响.经优化后的实验条件:以正己烷-异丙醇(体积比为90∶10)为流动相,流速为0.8 mL/min;检测波长为245 nm,柱温为20 ℃.在此优化条件下,表告依<span style=\"color:red\">春</span>和告依春分离度为3.4,检出限为2.0 mg/L,在0.02～2.0 g/L 范围内有良好的线性关系,平均回收率为101% ,相对标准偏差(RSD)小于3.0%(n=6).本方法可将具有抗病毒活性的表告依<span style=\"color:red\">春</span>与其对映体告依<span style=\"color:red\">春</span>基线分离并测定,专属性强,能有效控制板蓝根的质量.","authors":[{"authorName":"聂黎行","id":"fee7f0b1-4bfd-4c4e-9d65-d7f03c2a918a","originalAuthorName":"聂黎行"},{"authorName":"王钢力","id":"ee281225-e77f-4477-a486-a098ca91b1db","originalAuthorName":"王钢力"},{"authorName":"戴忠","id":"813e1426-d061-4e41-9723-d75cfa16968e","originalAuthorName":"戴忠"},{"authorName":"林瑞超","id":"3034f33a-eaf2-4665-8751-f5ef70c65379","originalAuthorName":"林瑞超"}],"doi":"10.3724/SP.J.1123.2010.01001","fpage":"1001","id":"32355b8f-ccce-4726-b210-eaacc0917986","issue":"10","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"5c41c71f-d053-43ba-8aa9-32ad96d3cca4","keyword":"手性高效液相色谱法","originalKeyword":"手性高效液相色谱法"},{"id":"e26a591e-56ec-4bb4-acfd-5d5f7ad919ea","keyword":"表告依<span style=\"color:red\">春</span>(R-告依<span style=\"color:red\">春</span>)","originalKeyword":"表告依春(R-告依春)"},{"id":"1e32ab35-876b-46d9-9898-47fb5c40d701","keyword":"告依<span style=\"color:red\">春</span>(S-告依<span style=\"color:red\">春</span>)","originalKeyword":"告依春(S-告依春)"},{"id":"8c1b4600-8fac-47f6-98f6-6670e2a0daa9","keyword":"板蓝根","originalKeyword":"板蓝根"}],"language":"zh","publisherId":"sp201010018","title":"手性高效液相色谱法测定板蓝根中表告依<span style=\"color:red\">春</span>和告依<span style=\"color:red\">春</span>含量","volume":"28","year":"2010"},{"abstractinfo":"利用铱催化高碘酸钾氧化丽<span style=\"color:red\">春</span>红G(PG)的褪色反应,建立了测定痕量铱的催化动力学光度法.在硫酸介质和90℃加热15min的条件下,于500nm波长处,采用固定时间法测定丽<span style=\"color:red\">春</span>红G吸收值的降低.Ir(Ⅳ)的浓度在0～1.0μg/25mL范围内与催化反应的速率有良好的线性关系,检出限为1 81 ×10 mg/mL.对0.3μg/25mLIr(Ⅳ)测定的相对标准偏差为1.61%(n=11).体系至少稳定3.5h.考察了40多种共存离子的影响,大多数常见离子不干扰,方法有较好的选择性.催化反应对Ir(Ⅳ)和丽<span style=\"color:red\">春</span>红G均为一级反应,催化反应的表观活化能为103.66kJ/mol.用于冶金产品及岩矿中铱的测定,结果与推荐值十分吻合.","authors":[{"authorName":"侯能邦","id":"92c62fdf-fec8-4163-aad2-9ed54b7fdce6","originalAuthorName":"侯能邦"},{"authorName":"李祖碧","id":"c4dacfbe-4824-4cbe-a844-91a76be4f69c","originalAuthorName":"李祖碧"},{"authorName":"李崇宁","id":"f7a10f8c-895c-486c-ad99-2b32db2c7164","originalAuthorName":"李崇宁"},{"authorName":"王加林","id":"6d15967f-b1aa-492c-9003-5900696277f5","originalAuthorName":"王加林"},{"authorName":"曹秋娥","id":"b89522cc-6338-40b9-bb28-a8fc73f09d40","originalAuthorName":"曹秋娥"}],"doi":"10.3969/j.issn.1000-7571.2002.05.006","fpage":"17","id":"cf8ee9a7-e782-4fcb-866c-e15d9126e60f","issue":"5","journal":{"abbrevTitle":"YJFX","coverImgSrc":"journal/img/cover/YJFX.jpg","id":"71","issnPpub":"1000-7571","publisherId":"YJFX","title":"冶金分析   "},"keywords":[{"id":"3c381e65-e813-4912-b9c8-15299a341a75","keyword":"铱","originalKeyword":"铱"},{"id":"90683ee6-f835-43a8-b573-bc0be1641329","keyword":"丽<span style=\"color:red\">春</span>红G","originalKeyword":"丽春红G"},{"id":"a2a57fdf-fa6d-4d5d-bc97-967b1b2de292","keyword":"高碘酸钾","originalKeyword":"高碘酸钾"},{"id":"4ffcfe3c-3af4-41cd-ae8f-447d4f037585","keyword":"催化光度法","originalKeyword":"催化光度法"}],"language":"zh","publisherId":"yjfx200205006","title":"高碘酸钾氧化丽<span style=\"color:red\">春</span>红G催化光度法测定铱","volume":"22","year":"2002"},{"abstractinfo":"<span style=\"color:red\">刘</span>文中,关于贝氏体形成机制,包括形核过程的文献很少被引述。作者（<span style=\"color:red\">刘</span>等）的主要论点为贝氏体铁素体以无扩散、非切变机制在奥氏体内贫碳区形核,并未引述形成贫碳区的必要条件。本文作者强调,在钢及铜合金中,不可能由Spinodal分解和位错偏聚形成贫溶质区。<span style=\"color:red\">刘</span>等的理念未得到先进理论观点和精细实验结果的支持。在<span style=\"color:red\">刘</span>文中,据此对临界核心大小和形核能的计算并无显著意义,期望青年学者对贝氏体相变机制作进一步研究。","authors":[{"authorName":"徐祖耀","id":"f5bc6b26-ec4d-45e7-a1da-067daa9d3115","originalAuthorName":"徐祖耀"}],"doi":"","fpage":"158","id":"66a9e9e8-09a0-408c-8c33-bc00aeff35c0","issue":"2","journal":{"abbrevTitle":"CLRCLXB","coverImgSrc":"journal/img/cover/CLRCLXB.jpg","id":"15","issnPpub":"1009-6264","publisherId":"CLRCLXB","title":"材料热处理学报"},"keywords":[{"id":"5224cfe0-dd6d-4ccc-aac3-2bed80f388a5","keyword":"贝氏体形核","originalKeyword":"贝氏体形核"},{"id":"cae16aae-8a2b-43f5-9886-1ca5759c5972","keyword":"扩散机制","originalKeyword":"扩散机制"},{"id":"36bc9f8f-ee13-4c27-8020-c2c5b0dfca8f","keyword":"切变机制","originalKeyword":"切变机制"},{"id":"a3bb808d-ba7a-4c9a-90ff-d5e59a6a0f1a","keyword":"贫碳区","originalKeyword":"贫碳区"}],"language":"zh","publisherId":"jsrclxb201202033","title":"评<span style=\"color:red\">刘</span>宗昌等《贝氏体铁素体的形核》一文","volume":"33","year":"2012"},{"abstractinfo":"利用质子激发X射线荧光分析(PIXE)测试分析汝官瓷、张公巷窑青瓷和<span style=\"color:red\">刘</span>家门窑青瓷样品的主要化学组成,用多元统计判别分析方法对数据进行分析,以确定它们的分类和起源关系.结果表明:汝官瓷、张公巷窑青瓷和<span style=\"color:red\">刘</span>家门窑青瓷釉基本能很好的区分；但是胎区分得不是很理想,张公巷窑青瓷的胎可以和汝官瓷、<span style=\"color:red\">刘</span>家门窑青瓷胎很好的区分,汝官瓷胎和<span style=\"color:red\">刘</span>家门窑青瓷胎有个别样品不能分开.","authors":[{"authorName":"蔡敏敏","id":"bf1f4660-208a-4999-ac81-266bf48c5bcb","originalAuthorName":"蔡敏敏"},{"authorName":"李国霞","id":"f8d3a4dc-7472-4dd6-9382-9f4430feef58","originalAuthorName":"李国霞"},{"authorName":"赵维娟","id":"9572b140-eca3-4192-af6e-ab9fdb21502b","originalAuthorName":"赵维娟"},{"authorName":"李融武","id":"e2d1fb82-016c-4ae3-9ee6-0cabbe60a2a0","originalAuthorName":"李融武"},{"authorName":"赵文军","id":"ea875a05-c1f7-4a8f-b405-2005de7db87c","originalAuthorName":"赵文军"},{"authorName":"承焕生","id":"9ff5fa85-a1fb-4cd2-bdc3-3bd240fd6894","originalAuthorName":"承焕生"},{"authorName":"郭敏","id":"d4074d21-787e-429b-8123-a13fcf5ce433","originalAuthorName":"郭敏"}],"doi":"","fpage":"1363","id":"f1ea8842-b3fe-42a2-9557-aa4c186cac5a","issue":"6","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报   "},"keywords":[{"id":"d281b6ff-a4b5-41d8-ad69-47236e801de5","keyword":"汝官瓷","originalKeyword":"汝官瓷"},{"id":"adf8b648-9625-4b38-96ff-ec6174d0c5d4","keyword":"张公巷窑青瓷","originalKeyword":"张公巷窑青瓷"},{"id":"3a61e23c-a3f8-43e6-84fc-1b7cd4edef5b","keyword":"<span style=\"color:red\">刘</span>家门窑青瓷","originalKeyword":"刘家门窑青瓷"},{"id":"494e2983-99cd-4c53-a919-4bfad5b7c54a","keyword":"判别分析","originalKeyword":"判别分析"}],"language":"zh","publisherId":"gsytb201206005","title":"汝官瓷、张公巷窑青瓷和<span style=\"color:red\">刘</span>家门窑青瓷的判别分析研究","volume":"31","year":"2012"},{"abstractinfo":"采用湿法球磨工艺,通过调整银粉和球的比例、球径大小、球磨时间制备出低<span style=\"color:red\">松</span>装密度片状银粉.该银粉的<span style=\"color:red\">松</span>装密度小于1.0 g/cm3,粒径大小可调,粉末的体积和比表面积大,已成功地应用于制备银浆,并可起到降低银含量,提高浆料粘度和导电性能的作用.","authors":[{"authorName":"李晓龙","id":"25c4280e-54fe-49dd-82c2-887eaf84390e","originalAuthorName":"李晓龙"},{"authorName":"黄富春","id":"1fc9dbba-07d4-4fce-b706-0d4515b1c722","originalAuthorName":"黄富春"},{"authorName":"李文琳","id":"6008e8bd-33fc-452d-997c-e2d1947f2ae3","originalAuthorName":"李文琳"},{"authorName":"赵玲","id":"840f7840-9658-43cd-9b3b-898a7b963266","originalAuthorName":"赵玲"},{"authorName":"陈伏生","id":"c8f077f9-1fc4-412b-abc7-f7673cea66eb","originalAuthorName":"陈伏生"}],"doi":"10.3969/j.issn.1004-0676.2012.01.004","fpage":"16","id":"49d89c85-24e3-4fd4-b613-ce648e95c1ef","issue":"1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"8058b128-5dc7-4c0b-97a5-b4b0fe26399f","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"2b43ac94-938f-4a1e-8f32-4d26a6750e64","keyword":"片状银粉","originalKeyword":"片状银粉"},{"id":"013a6f13-b77b-4a64-9afa-584843c03cdd","keyword":"导电性能","originalKeyword":"导电性能"},{"id":"3f85c3cc-e3a4-4ef9-b9ce-e92c5e497e10","keyword":"银含量","originalKeyword":"银含量"},{"id":"71060ab6-b553-4b33-8bb1-2cde4d6480db","keyword":"混合银粉","originalKeyword":"混合银粉"},{"id":"5904b987-fee7-4932-aab7-b41eb2fe8192","keyword":"粘度","originalKeyword":"粘度"}],"language":"zh","publisherId":"gjs201201004","title":"低<span style=\"color:red\">松</span>装密度片状银粉的研究","volume":"33","year":"2012"},{"abstractinfo":"根据金属液凝固收缩理论和多孔介质中流体流动原理，建立了离心压力下Ti-Al 合金精密铸件中微观缩<span style=\"color:red\">松</span>缺陷预测的数学模型，采用该模型对Ti-Al 增压涡轮铸件进行模拟计算，并进行了实验验证。结果表明，数学模型能够合理反映离心转速、离心半径、温度梯度和冷却速度等重要因素对微观缩<span style=\"color:red\">松</span>的影响规律，数值模拟结果与实验结果相吻合。分析增压涡轮的计算结果表明，在涡轮轴向，温度梯度是影响微观缩<span style=\"color:red\">松</span>度如何分布的主要原因；在涡轮径向，温度梯度、冷却速度和离心半径的共同作用决定着微观缩<span style=\"color:red\">松</span>度的变化规律。提高温度梯度，降低冷却速度，充分利用离心压力对枝晶间补缩的有效作用，有利于减少涡轮内部的微观缩<span style=\"color:red\">松</span>，保证叶片和涡轮的组织致密性和力学性能。","authors":[{"authorName":"梁作俭","id":"d88e565a-b762-4764-b4fe-71f00456ab9f","originalAuthorName":"梁作俭"},{"authorName":"许庆彦","id":"d7aeb773-4e1e-47d2-bcc2-9e1fe6043f96","originalAuthorName":"许庆彦"},{"authorName":"李俊涛","id":"7a02decc-6604-456b-a1a9-18a635dd9d4d","originalAuthorName":"李俊涛"}],"categoryName":"|","doi":"","fpage":"278","id":"c9d91600-4227-4f29-9dbd-56aa75d5d5fa","issue":"3","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"9ac44955-63da-49cc-9842-e67d8eceaa99","keyword":"Ti-Al","originalKeyword":"Ti-Al"},{"id":"fc01c7d3-713c-48a2-acd7-c2c48d91dea6","keyword":"null","originalKeyword":"null"},{"id":"04346c3f-400c-4553-8052-add4528748ce","keyword":"null","originalKeyword":"null"},{"id":"9e6799d6-d713-4246-b5bf-ac4f38ee6a9a","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_2003_3_21","title":"Ti-Al合金精密铸件微观缩<span style=\"color:red\">松</span>预测","volume":"39","year":"2003"},{"abstractinfo":"根据金属液凝固收缩理论和多孔介质中流体流动原理,建立了离心压力下Ti-Al合金精密铸件中微观缩<span style=\"color:red\">松</span>缺陷预测的数学模型,采用该模型对Ti-Al增压涡轮铸件进行模拟计算,并进行了实验验证.结果表明,数学模型能够合理反映离心转速、离心半径、温度梯度和冷却速度等重要因素对微观缩<span style=\"color:red\">松</span>的影响规律,数值模拟结果与实验结果相吻合.分析增压涡轮的计算结果表明,在涡轮轴向,温度梯度值是影响微观缩<span style=\"color:red\">松</span>度如何分布的主要原因;在涡轮径向,温度梯度、冷却速度和离心半径的共同作用决定着微观缩<span style=\"color:red\">松</span>度的变化规律.提高温度梯度,降低冷却速度,充分利用离心压力对枝晶间补缩的有效作用,有利于减少涡轮内部的微观缩<span style=\"color:red\">松</span>,保证叶片和涡轮的组织致密性和力学性能.","authors":[{"authorName":"梁作俭","id":"668e3ca5-1c3a-4a86-ad13-3441154d3dac","originalAuthorName":"梁作俭"},{"authorName":"许庆彦","id":"17955dac-843d-41f2-88c3-fdca487de134","originalAuthorName":"许庆彦"},{"authorName":"李俊涛","id":"951236b0-b688-44ca-8ac5-f539b9f35d35","originalAuthorName":"李俊涛"},{"authorName":"李世琼","id":"086e7597-ada6-48eb-a758-543a05d47681","originalAuthorName":"李世琼"},{"authorName":"张继","id":"3bd3e630-8181-4b3f-8d44-0db3915f4775","originalAuthorName":"张继"},{"authorName":"柳百成","id":"80913066-48b0-4afb-b333-614adb042828","originalAuthorName":"柳百成"},{"authorName":"仲增墉","id":"9a1c6924-0623-467c-a0a2-65db7752a0e7","originalAuthorName":"仲增墉"}],"doi":"10.3321/j.issn:0412-1961.2003.03.011","fpage":"278","id":"8fbfbd17-e039-4f1f-893a-789a15efd87a","issue":"3","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"7a088519-ab01-4cf7-ad12-85b965213b7b","keyword":"Ti-Al合金","originalKeyword":"Ti-Al合金"},{"id":"cfa3bc21-53b8-481d-a611-55f331c10ad7","keyword":"微观缩<span style=\"color:red\">松</span>","originalKeyword":"微观缩松"},{"id":"0c03561f-ac52-40b2-8750-683cb037b4c4","keyword":"数学模型","originalKeyword":"数学模型"},{"id":"c5752d57-2eab-4a3d-aa11-ff554a19b7c7","keyword":"精密铸件","originalKeyword":"精密铸件"}],"language":"zh","publisherId":"jsxb200303011","title":"Ti-Al合金精密铸件微观缩<span style=\"color:red\">松</span>预测","volume":"39","year":"2003"},{"abstractinfo":"研究了用简单分离工艺从造纸废液中分离<span style=\"color:red\">松</span>浆油制备家具底漆及面漆新工艺,对影响其底漆性能的各种因素进行了较为详细的研究,确定了最佳工艺条件.研究结果表明,采用<span style=\"color:red\">松</span>浆油与桐油进行加成反应,酯化温度为220～240℃时所得底漆外观平整光滑,实干时间240min.新工艺制备的家具底漆及面漆性能良好,废液分离工艺简单,具有良好的经济效益与环保效益.","authors":[{"authorName":"胡波年","id":"051adf09-f004-4941-ac4d-4405cd035f30","originalAuthorName":"胡波年"},{"authorName":"胡汉祥","id":"fca05a09-3299-4d42-8f20-9ae419b70a5c","originalAuthorName":"胡汉祥"},{"authorName":"李爱阳","id":"c6e5f4b5-af8e-4bb6-8e1f-fc605964baba","originalAuthorName":"李爱阳"}],"doi":"10.3969/j.issn.1001-3660.2004.06.020","fpage":"53","id":"1ce17b68-b667-4bdc-ab76-6233c1e744f8","issue":"6","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术   "},"keywords":[{"id":"3871571e-bd74-4e65-8bd8-af9cd0d69024","keyword":"<span style=\"color:red\">松</span>浆油","originalKeyword":"松浆油"},{"id":"a28c4078-728b-431d-a4c4-a7c113ed9215","keyword":"桐油","originalKeyword":"桐油"},{"id":"a576ef4f-4fa8-4ed2-b4fd-0769f420646f","keyword":"造纸废液","originalKeyword":"造纸废液"},{"id":"1ff8dfca-3d77-445c-9367-16864db83a2f","keyword":"底漆","originalKeyword":"底漆"}],"language":"zh","publisherId":"bmjs200406020","title":"利用造纸废液中<span style=\"color:red\">松</span>浆油制底漆","volume":"33","year":"2004"}],"totalpage":38,"totalrecord":373}