{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"在以岐化松香皂(DRS)、十二烷基硫酸钠(SDS)和间次甲基萘磺酸盐(NF)组成三元复合乳化剂体系中,研究了SDS/DRS、NF/DRS、碳酸盐(Ca)、丁二烯(Bd)中二聚体(Di)及后处理工艺对ABS用聚丁二烯胶乳(PBL)的粒子形态等的影响.结果表明,SDS/DRS增加,PBL平均粒径(Dp)和粒子分散度(Poly d)均减小,且粒子形态趋于规整.NF/DRS增大使Rp减小,但可以较好地改善PBL的稳定性.[Ca]＞1.2%,Dp显著增大,但使粒子间粘连加重,规整性变差.[Di]增加使PBL粒子分布变宽,形态变差.在100 r/min转速下处理PBL 4 h可以使Dp增大和Poly d减少,有利单分散性大粒径的PBL合成.","authors":[{"authorName":"潘广勤","id":"c2b7a572-062e-4b80-84ef-af6f62501e0b","originalAuthorName":"潘广勤"}],"doi":"","fpage":"131","id":"de5390ee-e88d-4110-85e1-6c930d32f683","issue":"5","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"5ac18fa0-d17a-49c1-919e-1e6be210c486","keyword":"DRS/NF/SDS体系","originalKeyword":"DRS/NF/SDS体系"},{"id":"af797b54-3455-44be-8c7e-83bb351340d6","keyword":"聚丁二烯胶乳","originalKeyword":"聚丁二烯胶乳"},{"id":"3e053ad3-b0eb-440f-9833-8e62f741b6b3","keyword":"粒径和分布","originalKeyword":"粒径和分布"},{"id":"2132c924-c601-4aec-b622-fb41fe68329b","keyword":"表面形态","originalKeyword":"表面形态"},{"id":"796dbc8a-b95a-47b5-b548-4423eefd9e78","keyword":"后处理工艺","originalKeyword":"后处理工艺"}],"language":"zh","publisherId":"gfzclkxygc199905037","title":"DRS/SDS/NF体系中合成聚丁二烯胶乳的粒子形态的研究","volume":"15","year":"1999"},{"abstractinfo":"在以岐化松香皂(DRS)、十二烷基硫酸钠(SDS)和间次甲基萘磺酸盐(NF)组成三元复合乳化剂体系中,研究了丁二烯(Bd)中炔烃、二聚体(Di)、DRS中的松香酸(RA),水相中的碳酸盐(Ca)浓度及3种乳化剂复合比对ABS用聚丁二烯胶乳(PBL)的表观反应速率(Rp)的影响.结果表明,炔烃和Di存在使Rp降低,其中乙烯基乙炔(VA)影响较(Pr)大;松香酸含量达4%时,Rp降低了50%;50 ℃、60 ℃和66 ℃3段阶梯温度有利于Rp提高,且凝聚物及微观结构保持在一较好水平;水相中Ca浓度＜1.2%时,Rp增加,反之Rp呈线性降低;SDS/DRS＜0.2,Rp随SDS/DRS增大而提高,NF/DRS＞0.1,对Rp无影响,但可以较好地改善PBL稳定性.","authors":[{"authorName":"潘广勤","id":"8d2f08e1-8ba2-476c-8555-23741361c34c","originalAuthorName":"潘广勤"}],"doi":"","fpage":"41","id":"7bf3d735-e064-4045-8bd3-dd9457bfe648","issue":"2","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"f95d195a-d4bb-4762-a9aa-165ae42ad5c6","keyword":"DRS/NF/SDS体系","originalKeyword":"DRS/NF/SDS体系"},{"id":"6e782a55-5eb2-4904-8958-a154f0f9faac","keyword":"聚丁二烯胶乳","originalKeyword":"聚丁二烯胶乳"},{"id":"d0bcc593-0b46-416a-b63a-3281d3aa478c","keyword":"表观反应速率","originalKeyword":"表观反应速率"},{"id":"20dd4da2-ba8a-4b56-a682-82928454a4e1","keyword":"杂质浓度","originalKeyword":"杂质浓度"},{"id":"a909c24a-c26e-4f05-b8ce-fd0cb09b55ac","keyword":"阶梯温度","originalKeyword":"阶梯温度"},{"id":"1d1720c4-9ce0-4c3e-af73-9c3177d8b742","keyword":"碳酸盐","originalKeyword":"碳酸盐"}],"language":"zh","publisherId":"gfzclkxygc199902012","title":"DRS/SDS/NF体系中合成聚丁二烯胶乳的表观反应速率的研究","volume":"","year":"1999"},{"abstractinfo":"采用乳液接技的方法,以四乙烯五胺(TEPA)和过氧化氢叔丁醇(t-BHP)为引发剂,将聚乙烯醇(PVA)接枝到聚丁二烯胶乳(PBL)粒子上,制备出聚丁二烯接枝聚乙烯醇(PBL-g-PVA).采用称量法测定接枝率,并用红外光谱、激光粒度仪和透射电镜分析PBL-g-PVA的结构、粒子粒径和形貌.结果表明,接枝率随PVA的用量增加而增大、反应温度的升高先增加后减小、反应时间的延长先增加而后保持不变;红外光谱谱图显示出PBL-g-PVA有PVA特征吸收且相应峰面积随接枝率的增加而增大;激光粒度仪结果显示平均粒径增加且多分散系数变大;透射电镜观测到PBL-g-PVA粒子呈核壳结构.","authors":[{"authorName":"田波","id":"0a7ead71-6987-4d05-8540-2d74a8328e06","originalAuthorName":"田波"},{"authorName":"戴亚杰","id":"67ac28c6-0db5-44a5-a7be-5485a0545b0f","originalAuthorName":"戴亚杰"},{"authorName":"刘宇光","id":"b81c4cb4-8b63-4893-8f2f-98528b44d002","originalAuthorName":"刘宇光"},{"authorName":"侯静","id":"636d3bd5-5533-4146-9ffe-d4d6fb0a568a","originalAuthorName":"侯静"},{"authorName":"董伟","id":"82b7c42f-d804-4ddd-be98-a4ca710316ac","originalAuthorName":"董伟"}],"doi":"","fpage":"31","id":"7afe540d-30f3-4b17-a07d-c77408381f8a","issue":"11","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"c5b10a77-7282-46e1-b94e-803c2218c495","keyword":"聚丁二烯胶乳","originalKeyword":"聚丁二烯胶乳"},{"id":"2cbf322a-2cc2-43a5-a609-e599fcfc2b34","keyword":"接枝反应","originalKeyword":"接枝反应"},{"id":"32411e54-2acf-45fb-b743-bf2ba767c3c3","keyword":"聚乙烯醇","originalKeyword":"聚乙烯醇"}],"language":"zh","publisherId":"gfzclkxygc201411007","title":"聚丁二烯胶乳接枝聚乙烯醇的制备与表征","volume":"30","year":"2014"},{"abstractinfo":"在聚丁二烯(PB)胶乳中进行乳液自由基反应,将乙烯基三乙氧基硅烷(VTES)接枝到聚丁二烯分子链上,制备了聚丁二烯/SiO2杂化材料.运用硅含量、交联率、傅立叶变换红外光谱(FT-IR)、热失重分析(TGA)对产物结构进行了表征,考察了产物多种性能的变化情况,并探讨了杂化材料的形成机理.结果表明,VTES通过共价键合在PB链上,并与水解缩合形成的硅核连接,利用率达88.6%;接枝后产物凝胶率提高,分解速率降低,力学性能如门尼黏度、拉伸强度和断裂伸长率均显著改变.","authors":[{"authorName":"尹德忠","id":"6070acb7-92f8-4ade-992b-cca5043879d7","originalAuthorName":"尹德忠"},{"authorName":"张秋禹","id":"bf0fb7cd-ce5c-41fc-bb97-fc287e76266f","originalAuthorName":"张秋禹"},{"authorName":"张和鹏","id":"3d833fdb-a461-43f0-a7e7-29a480d12ea9","originalAuthorName":"张和鹏"},{"authorName":"尹常杰","id":"6fee256e-4610-4908-8cbb-64525f1df256","originalAuthorName":"尹常杰"}],"doi":"","fpage":"28","id":"3c05cdc8-e4a6-45fc-869e-7e9d37ac6f67","issue":"9","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"61e4fa3e-1429-4e61-889f-77f84fbb4ba6","keyword":"原位乳液接枝","originalKeyword":"原位乳液接枝"},{"id":"4a58408e-6cfe-480a-a6e4-d49c916d6562","keyword":"杂化材料","originalKeyword":"杂化材料"},{"id":"3dfc4dcd-b670-4b5e-92df-241fe4772727","keyword":"聚丁二烯","originalKeyword":"聚丁二烯"},{"id":"6c6cd2f7-b1c0-42d5-a0c0-165b695dedc3","keyword":"乙烯基三乙氧基硅烷","originalKeyword":"乙烯基三乙氧基硅烷"}],"language":"zh","publisherId":"gfzclkxygc200909008","title":"原位乳液接枝法制备聚丁二烯/SiO2杂化材料","volume":"25","year":"2009"},{"abstractinfo":"以液体(低分子)聚1,2.丁二烯为原料,通过环氧化、胺化和质子化得到阳离子树脂,然后经乳化、加入助剂和色浆得到阴极电泳漆.在9～20 V电压下成功实现电泳涂装,一次涂装干膜厚度达到20～30 um;在较大的极板间距范围内,一次涂装厚度达到30 μm以上.漆膜性能优异,附着力达到0级,硬度5～6 H,耐盐雾性能达到800 h以上.该电泳漆具有节能和环保的双重优点,具有广阔的应用前景.","authors":[{"authorName":"秦树超","id":"f3e25895-6f7d-403c-b299-7a1cff7ebcb3","originalAuthorName":"秦树超"},{"authorName":"王金伟","id":"d7c2e30b-5fec-4b92-91d7-44988b9ec40a","originalAuthorName":"王金伟"},{"authorName":"何业东","id":"e3480075-0537-4c98-8cc0-2cb15d4d0a56","originalAuthorName":"何业东"},{"authorName":"李晓刚","id":"34a6cc2c-eba6-4d71-b0ab-87ccf841462f","originalAuthorName":"李晓刚"},{"authorName":"李丙霞","id":"abde170a-e652-4353-8a58-8b4ec91ce748","originalAuthorName":"李丙霞"}],"doi":"","fpage":"43","id":"ae87e917-6d9b-42a5-9e8a-cd85ad0deeb2","issue":"3","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰 "},"keywords":[{"id":"e321c7b6-ea99-431a-adfd-603b656ece64","keyword":"液体聚丁二烯","originalKeyword":"液体聚丁二烯"},{"id":"26cbf2d4-566a-4635-a243-0ac3d3fe5b30","keyword":"阴极电泳漆","originalKeyword":"阴极电泳漆"}],"language":"zh","publisherId":"ddyts200803015","title":"液体聚丁二烯阴极电泳涂料的研究","volume":"27","year":"2008"},{"abstractinfo":"以乙二醇和L-乳酸熔融直接缩聚制备双端羟基聚L-乳酸预聚物(PLLA),并用1H、13C-NMR、DSC、XRD对PLLA结构和性能分析表征.以液化二苯基甲烷二异氰酸酯(MDI)为偶联剂,端羟基聚L-乳酸和端羟基聚丁二烯(HTPB)偶联反应制备橡胶改性聚乳酸基聚氨酯弹性体,并用FT-IR,1H、13C-NMR对聚合产物进行结构表征确认.DSC测试结果表明聚氨酯有聚丁二烯段和聚乳酸段两个玻璃化转变温度,熔融温度基本在130℃.随着聚丁二烯含量的增加,结晶衍射峰逐渐消失,聚氨酯的拉伸强度降低,断裂伸长率增加.断面扫描电镜结果显示聚氨酯呈微相分离结构和弹性断裂.","authors":[{"authorName":"刘炼","id":"03113d80-f033-484b-b7dd-52865cd26871","originalAuthorName":"刘炼"},{"authorName":"魏志勇","id":"f744e3b2-5902-4621-ab06-5404f713c83e","originalAuthorName":"魏志勇"},{"authorName":"高军","id":"a47bdc0a-b59a-40ff-b795-e0b8d86ccfec","originalAuthorName":"高军"},{"authorName":"齐民","id":"ceea9c3a-64e3-4fdf-b928-5b8f4defb139","originalAuthorName":"齐民"}],"doi":"","fpage":"423","id":"c43f0746-5431-43fc-a528-fa4ef98dbcb1","issue":"3","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"080ca30a-b91f-4976-9597-a87947e4fffb","keyword":"聚L-乳酸","originalKeyword":"聚L-乳酸"},{"id":"ea33392c-e5f5-4f93-bc74-da270d0d0969","keyword":"聚丁二烯","originalKeyword":"聚丁二烯"},{"id":"66970298-d819-4b19-b31d-bcbce10de00f","keyword":"聚氨酯","originalKeyword":"聚氨酯"},{"id":"4a84ead3-dc5d-466f-b719-9eff456bb0ad","keyword":"热塑性弹性体","originalKeyword":"热塑性弹性体"}],"language":"zh","publisherId":"gncl200703025","title":"聚L-乳酸/聚丁二烯基聚氨酯的合成与表征","volume":"38","year":"2007"},{"abstractinfo":"过量的甲苯二异氰酸酯(TDI)加入氨乙基氨丙基聚二甲基硅氧烷(AEAPS)、端羟基聚丁二烯(HTPB)中制成预聚体,以3,3′-二氯-4,4′二苯基甲烷二胺(MOCA)为固化剂,合成了一系列不同含量的硅氧烷改性聚丁二烯聚氨酯脲.通过接触角、表面光电子能谱(ESCA)测试,应力应变、动态力学热分析,结果表明,氨基硅油在聚氨酯脲表面明显富集,聚丁二烯聚氨酯脲的力学性能改变不大.","authors":[{"authorName":"全一武","id":"1891ee8a-a9a2-4f63-8bc5-7365249c4226","originalAuthorName":"全一武"},{"authorName":"倪寒立","id":"0e3157e8-2855-4c08-853f-54229b950606","originalAuthorName":"倪寒立"},{"authorName":"张俊生","id":"0e66360b-393b-447f-ac2b-76147ba1836a","originalAuthorName":"张俊生"},{"authorName":"陈庆民","id":"e0a2d8f2-2bd9-4c80-9f00-772c27156579","originalAuthorName":"陈庆民"}],"doi":"","fpage":"34","id":"5c228d03-9bb3-4ddf-8e3a-842d39feedd2","issue":"5","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"bb1ebd75-1000-424b-a63b-5a9c890e2dea","keyword":"表面改性","originalKeyword":"表面改性"},{"id":"39d4c881-db22-40dc-85d0-fbcaff9fa03f","keyword":"氨基硅油","originalKeyword":"氨基硅油"},{"id":"c18c5006-fcae-4ba3-b629-e98278809ae0","keyword":"聚丁二烯聚氨酯脲","originalKeyword":"聚丁二烯聚氨酯脲"}],"language":"zh","publisherId":"gfzclkxygc200105008","title":"氨基硅油改性聚丁二烯聚氨酯脲的合成与性能","volume":"17","year":"2001"},{"abstractinfo":"对国内某合成橡胶厂生产的聚丁二烯橡胶( BR)9000产品的力学性能进行检验,绘制X-R(或S)控制图,聚丁二烯橡胶产品的力学性能检验有较高的系统控制能力和随机控制能力,结果准确可靠。根据X-R(或S)控制图,测定聚丁二烯橡胶的25min 300%定伸应力时,系统误差控制在±1MPa的范围,随机误差应小于0．28MPa,标准偏差应小于1．5MPa；测定聚丁二烯橡胶的拉伸强度时,系统误差控制在±1．7MPa的范围,随机误差应小于4．4MPa,标准偏差应小于2．3MPa；测定聚丁二烯橡胶的扯断伸长率时,系统误差控制在±39%的范围,随机误差应小于97%,标准偏差应小于51%。","authors":[{"authorName":"汤妍雯","id":"796db9fc-61ef-436b-9713-da286e28536c","originalAuthorName":"汤妍雯"},{"authorName":"刘晓旭","id":"68aa3db2-f14f-4439-a484-f053d44d3ac8","originalAuthorName":"刘晓旭"},{"authorName":"曹帅英","id":"c99f71fd-471b-4e9e-b084-c6d43de6cece","originalAuthorName":"曹帅英"},{"authorName":"刘俊保","id":"888c4c7f-d532-475e-aec8-b76cd056e2d7","originalAuthorName":"刘俊保"}],"doi":"","fpage":"39","id":"4cf2a3e7-ed3d-43e9-9ae7-53e216bb496c","issue":"2","journal":{"abbrevTitle":"HCCLLHYYY","coverImgSrc":"journal/img/cover/HCCLLHYYY.jpg","id":"42","issnPpub":"1671-5381","publisherId":"HCCLLHYYY","title":"合成材料老化与应用"},"keywords":[{"id":"c11340f3-9acb-4990-8eee-2cc9f44c2e6f","keyword":"控制图","originalKeyword":"控制图"},{"id":"1aa1f7c4-adf1-4a73-9e14-53dac5f44576","keyword":"监控","originalKeyword":"监控"},{"id":"62339df9-af01-4728-a866-d398574bf00d","keyword":"聚丁二烯橡胶","originalKeyword":"聚丁二烯橡胶"},{"id":"ae8f1804-4b00-437d-b7b2-d5ad2d05d42c","keyword":"力学性能","originalKeyword":"力学性能"}],"language":"zh","publisherId":"hccllhyyy201602009","title":"利用控制图监控聚丁二烯橡胶的力学性能","volume":"45","year":"2016"},{"abstractinfo":"对国内某合成橡胶厂生产的聚丁二烯橡胶( BR)9000产品进行生胶性能检验,分别绘制挥发分、灰分、生胶门尼粘度等技术指标的X-R(或S)控制图,根据控制图可以看出聚丁二烯橡胶的挥发分、灰分、生胶门尼粘度的检验结果处于良好的受控状态,实验室有较高的系统控制能力和随机控制能力,检验结果准确可靠。应用X-R(或S)控制图,测定聚丁二烯橡胶挥发分时,系统误差控制在±0．11%范围,随机误差应小于0．28%,标准偏差应小于0．15%；测定聚丁二烯橡胶灰分时,系统误差控制在±0．02%范围,随机误差应小于0．05%,标准偏差应小于0．03%；测定聚丁二烯橡胶门尼粘度时,系统误差控制在±2范围,随机误差应小于5．1,标准偏差应小于2．6。","authors":[{"authorName":"曹帅英","id":"7ecd1569-3148-4c5c-bfae-22a7f471eab3","originalAuthorName":"曹帅英"},{"authorName":"汤妍雯","id":"d685947e-9da4-4899-875c-088e5a76198c","originalAuthorName":"汤妍雯"},{"authorName":"李淑萍","id":"2b0bf459-fbf9-4435-a235-fe2ad98f628e","originalAuthorName":"李淑萍"},{"authorName":"刘俊保","id":"ed71ed82-fecb-40e8-9ec9-4de52224106b","originalAuthorName":"刘俊保"}],"doi":"","fpage":"48","id":"c41819f4-c78c-448d-a332-86b1734cc907","issue":"2","journal":{"abbrevTitle":"HCCLLHYYY","coverImgSrc":"journal/img/cover/HCCLLHYYY.jpg","id":"42","issnPpub":"1671-5381","publisherId":"HCCLLHYYY","title":"合成材料老化与应用"},"keywords":[{"id":"379a940e-27c6-47ad-beeb-db5127ea89be","keyword":"控制图","originalKeyword":"控制图"},{"id":"54f7d6f4-527d-4dcf-bfc2-39f25af8d6d3","keyword":"监控","originalKeyword":"监控"},{"id":"08c675b6-37cc-4c06-88d5-4fadc561e7f5","keyword":"聚丁二烯橡胶","originalKeyword":"聚丁二烯橡胶"},{"id":"d7b9578b-0e11-4357-aee2-4de12b55a5d4","keyword":"生胶性能","originalKeyword":"生胶性能"}],"language":"zh","publisherId":"hccllhyyy201602011","title":"利用控制图监控聚丁二烯橡胶生胶性能的检验质量","volume":"45","year":"2016"},{"abstractinfo":"采用反相气相色谱技术测定了聚丁二烯橡胶的表面性质.以正己烷、正庚烷、正辛烷、正壬烷作为非极性探针测定其表面色散自由能,以二氯甲烷、三氯甲烷、丙酮、乙酸乙酯、乙醚和四氢呋喃作为极性探针测定其路易斯酸碱常数.经计算得出聚丁二烯橡胶在303、313、323、333和343 K的表面色散自由能分别为47.07、46.46、45.85、45.60和45.09 mJ/m<'2>.结果表明,聚丁二烯橡胶表面色散自由能随着温度的升高呈线性降低,路易斯酸常数K,为0.34,碱常数K<,b>为1.77,总酸碱作用能力2.11,该聚合物为弱碱性Lewis两性聚合物材料.此外还计算出聚丁二烯橡胶的酸碱作用吸附自由能(-△G<'a,a>)和吸附焓(-△H<'a,a>).","authors":[{"authorName":"王强","id":"38bf5160-cc9b-4f89-82dc-1aaca8cf95a2","originalAuthorName":"王强"},{"authorName":"马凤云","id":"aaaaae6e-df2e-452d-a395-794ec92f1457","originalAuthorName":"马凤云"},{"authorName":"田华","id":"160549f3-9d28-4837-9f77-60b00c4af4fa","originalAuthorName":"田华"},{"authorName":"宋玉萍","id":"998c2996-4f3c-484e-8545-34b86dac7e85","originalAuthorName":"宋玉萍"},{"authorName":"徐文清","id":"671f3392-3ecb-40d4-892d-4eb1062aeb27","originalAuthorName":"徐文清"},{"authorName":"唐军","id":"22ac701f-1e43-4c18-b173-3272adae983d","originalAuthorName":"唐军"}],"doi":"10.3724/SP.J.1123.2011.00462","fpage":"462","id":"5055e0b7-c06f-417a-afb6-9e785957d669","issue":"5","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"1afc2889-2237-4af6-b099-21f490eead1f","keyword":"反相气相色谱","originalKeyword":"反相气相色谱"},{"id":"f685fc47-3a53-4561-9aa5-459ae5c9cba9","keyword":"酸碱常数","originalKeyword":"酸碱常数"},{"id":"66e48606-9a59-4213-aee4-c3f1ab5e9e71","keyword":"表面自由能","originalKeyword":"表面自由能"},{"id":"42fe4881-9a68-4c91-ba61-ee33aac416c8","keyword":"聚丁二烯橡胶","originalKeyword":"聚丁二烯橡胶"}],"language":"zh","publisherId":"sp201105019","title":"反相气相色谱法表征聚丁二烯橡胶的表面性质","volume":"29","year":"2011"}],"totalpage":3537,"totalrecord":35366}