{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用3种表面处理剂对含30%玻璃纤维的尼龙6(PA6)进行表面处理,研究不同表面处理剂对PA6电性能的影响,筛选出最佳的表面处理剂,并进行热老化实验.结果表明:PA6制品表面经聚酯树脂处理后,其相比电痕化指数(CTI)由350 V提高到600 V,表面电阻率和绝缘电阻提高了约10倍;热老化后,经表面处理后的PA6制品电绝缘性能下降程度较小,扩大了PA6改性材料在电气领域的应用范围.","authors":[{"authorName":"戴永正","id":"0d954e42-b39c-4a0a-98fd-9bda8ccb343e","originalAuthorName":"戴永正"},{"authorName":"卢有清","id":"1e112161-b7fb-40fd-96a1-6f128476c456","originalAuthorName":"卢有清"},{"authorName":"李卫","id":"de8c3a87-44c2-4a7c-b2bd-0398787c2236","originalAuthorName":"李卫"},{"authorName":"顾陆铭","id":"87ae21bb-3c87-4ea1-baa6-f24897c46b04","originalAuthorName":"顾陆铭"},{"authorName":"顾宇峰","id":"043e0b57-d135-405b-98b1-f0f87dfd24ee","originalAuthorName":"顾宇峰"},{"authorName":"张明祖","id":"4f90a73d-dc4a-4b29-8a39-98219c288b6d","originalAuthorName":"张明祖"}],"doi":"10.16790/j.cnki.1009-9239.im.2017.04.002","fpage":"6","id":"72982558-08f2-4dc8-ad91-b72f8c2a8ee0","issue":"4","journal":{"abbrevTitle":"JYCL","coverImgSrc":"journal/img/cover/JYCL.jpg","id":"50","issnPpub":"1009-9239","publisherId":"JYCL","title":"绝缘材料"},"keywords":[{"id":"24df2cbc-d6b7-48e5-89a1-c1d945d1ab28","keyword":"PA6","originalKeyword":"PA6"},{"id":"3dfab239-0aa5-4999-b0a8-46349e5c3d10","keyword":"表面处理剂","originalKeyword":"表面处理剂"},{"id":"555aa71e-525e-4a0c-9d02-cda386fa042e","keyword":"绝缘性能","originalKeyword":"绝缘性能"},{"id":"073a38c4-a62c-417f-a679-80f2ef48d043","keyword":"相比电痕化指数","originalKeyword":"相比电痕化指数"},{"id":"8c619463-ba63-4681-8028-596e1b15f745","keyword":"耐老化","originalKeyword":"耐老化"}],"language":"zh","publisherId":"jycltx201704002","title":"表面处理剂对尼龙6电性能影响的研究","volume":"","year":"2017"},{"abstractinfo":"采用十八胺对永固红F5R进行化学修饰,以Span-80为稳定剂,四氯乙烯为分散介质,制备了分散性和稳定性良好的电泳液.以此电泳液为囊芯,脲甲醛树脂为壁材,制备了一种红色电子墨水微胶囊,研究了投料比、合成温度、酸化时间和搅拌速度等对合成微胶囊的影响.结果表明,合成的微胶囊形貌呈规则球形,表面光滑,囊壁结构致密,强度较好,包覆率达到82%,囊芯含量达到76%.永固红F5R电泳液微胶囊具有明显的电场响应行为,可以作为柔板显示器的功能材料.","authors":[{"authorName":"倪卓","id":"e029822e-b1ed-424a-b43f-a3d2d95f646c","originalAuthorName":"倪卓"},{"authorName":"李丹","id":"f887ef04-3dc6-455f-86fc-9eaf77647b61","originalAuthorName":"李丹"},{"authorName":"钟玉莲","id":"6e3369c1-b82c-4882-b5ad-f92b613051e0","originalAuthorName":"钟玉莲"},{"authorName":"刘丽双","id":"d3c287ad-6acf-4232-8eae-a680e7e1a76f","originalAuthorName":"刘丽双"},{"authorName":"陈展明","id":"baa30c08-d528-444e-a1d0-a9e6d19f0be8","originalAuthorName":"陈展明"}],"doi":"","fpage":"101","id":"d12b9eff-6442-431e-95ec-d7cd2e3641e6","issue":"20","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"6e0a5c0b-b00d-482d-8087-7395d7978cd1","keyword":"电子墨水","originalKeyword":"电子墨水"},{"id":"992b930c-12f3-4576-8e3c-b39ae1c29e47","keyword":"微胶囊","originalKeyword":"微胶囊"},{"id":"e7f3811b-05f8-4d67-9e95-425b0fecdb1c","keyword":"永固红F5R","originalKeyword":"永固红F5R"},{"id":"aa0d839f-6344-4e50-88fd-9805b4855b0d","keyword":"电场响应","originalKeyword":"电场响应"}],"language":"zh","publisherId":"cldb200920030","title":"永固红F5R电泳液微胶囊的制备和表征","volume":"23","year":"2009"},{"abstractinfo":"本试验主要研究目的是SBS改性剂、相容剂、稳定剂、剪切速率、剪切时间、发育时间对永古高速公路SBS改性沥青性能的影响.查阅该地区沥青路面资料,初步确定在相容剂掺量1.5%,稳定剂掺量1.5‰的前提下,通过对沥青软化点、25℃的针入度、5℃的延度、离析软化点差进行试验,对试验结果进行分析,最终确定SBS改性沥青的SBS改性剂掺量3.8%、相容剂掺量1.5%、稳定剂掺量2‰.在此SBS改性沥青的前提下,研究剪切速率、剪切时间、发育时间对SBS改性沥青的影响,在剪切时间30 min,发育时间90 min的前提下,继续对沥青软化点、25℃的针入度、5℃的延度进行试验,整理分析数据,得到最终的制备工艺为:剪切速率5500 r·min-1、剪切时间35 min、发育时间为120 min.得到结论为永古高速SBS改性沥青为:SBS改性剂掺量3.8%、相容剂掺量1.5%、稳定剂掺量2‰、剪切速率5500 r·min-1、剪切时间35 min、发育时间120 min.","authors":[{"authorName":"杨成","id":"49e1bb34-385e-450e-b15a-d087702dd672","originalAuthorName":"杨成"},{"authorName":"刘德仁","id":"5e1cc12a-3310-4b99-987e-685849267cce","originalAuthorName":"刘德仁"},{"authorName":"王旭","id":"3f7ebb88-9706-4ed1-a295-874f3dd09b5e","originalAuthorName":"王旭"},{"authorName":"刘国太","id":"b788fc37-667e-45b2-84cf-868fbfcd442e","originalAuthorName":"刘国太"}],"doi":"","fpage":"1956","id":"f7099de0-276a-4990-90b1-bf620a4ab25c","issue":"8","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"e07d0294-fda5-4a30-ae4d-66ec36aeb26e","keyword":"改性沥青","originalKeyword":"改性沥青"},{"id":"54db9649-1e0d-4ed1-81e9-84b273668a97","keyword":"SBS改性剂","originalKeyword":"SBS改性剂"},{"id":"45690fb2-dbab-4f89-ab83-bed0ff385565","keyword":"相容剂","originalKeyword":"相容剂"},{"id":"13cee48f-5a15-4e51-a5a2-3315010837ac","keyword":"稳定剂","originalKeyword":"稳定剂"},{"id":"4084d161-2ce7-4acd-9e1d-3c8c5bdc64d4","keyword":"生产工艺","originalKeyword":"生产工艺"}],"language":"zh","publisherId":"gsytb201408018","title":"永古高速公路SBS改性沥青试验研究","volume":"33","year":"2014"},{"abstractinfo":"正渗透技术是一种新兴的利用渗透原理的膜分离技术,能自发进行,无需外加压力即可实现,为水资源和环境问题提供了低能耗、高效率的解决途径.近年来正渗透技术在国际上得到了广泛的重视,相关的研究正快速发展.文章详细总结了正渗透机理方面的研究进展,深入分析了正渗透的整个动力学过程,为正渗透膜的设计和制备与驱动溶质的选择和开发提供了理论基础.","authors":[{"authorName":"方彦彦","id":"417d69f7-49c9-421d-baf2-ba2e7e8e5bba","originalAuthorName":"方彦彦"},{"authorName":"田野","id":"b43f2be2-1c6d-4647-9a03-af3cbdf66e67","originalAuthorName":"田野"},{"authorName":"王晓琳","id":"eeef4e75-0c54-449f-beba-304f25c673eb","originalAuthorName":"王晓琳"}],"doi":"10.3969/j.issn.1007-8924.2011.06.020","fpage":"95","id":"b2f4f9d1-a5f6-4277-b3c5-9cc67e24d7e5","issue":"6","journal":{"abbrevTitle":"MKXYJS","coverImgSrc":"journal/img/cover/MKXYJS.jpg","id":"54","issnPpub":"1007-8924","publisherId":"MKXYJS","title":"膜科学与技术 "},"keywords":[{"id":"b8145eed-f9af-4296-a2a8-78081c2f117c","keyword":"正渗透","originalKeyword":"正渗透"},{"id":"a982e8b5-f58c-497f-8c8f-9a398d806a16","keyword":"渗透压","originalKeyword":"渗透压"},{"id":"f2ba5e64-b892-4b89-8447-5ff07677a854","keyword":"机理","originalKeyword":"机理"},{"id":"83082b58-1ff1-46c9-9d55-1e28d48de719","keyword":"膜","originalKeyword":"膜"}],"language":"zh","publisherId":"mkxyjs201106020","title":"正渗透的机理","volume":"31","year":"2011"},{"abstractinfo":"采用浓硫酸对5种不同来源的四氯苯醌和\"永固紫\"染料样品进行溶解分散,用甲苯提取和多层色谱柱纯化,利用同位素稀释法及高分辨气相色谱/质谱 (HRGC/HRMS)联用技术,测定了其中的多氯代二苯并二(口恶)(口英)/呋喃(PCDD/F)的质量比.结果表明\"永固紫\"染料及其原料中P CDD/F的质量比异常高,八氯代二苯并二(口恶)(口英)/呋喃(OCDD/F)已达到μg/g级甚至100 μg/g级,七氯代二苯并二(口恶)(口英)/呋喃(HpCDD/F)和六氯代二苯并二(口恶)(口英)/呋喃(HxCDD/F)质量比也达到 ng/g级.所有样品的毒性当量浓度(TEQ)均已超过10 pg/g的危险水平,是纺织品中PCDD/F的一类重要污染源.并进一步探讨了PCDD/F的来源.","authors":[{"authorName":"张庆华","id":"a0508650-85a5-4b40-bcd5-1fe36cc47da7","originalAuthorName":"张庆华"},{"authorName":"吴文忠","id":"277bbfc9-4c17-4304-bfe5-426d2212c8de","originalAuthorName":"吴文忠"},{"authorName":"占伟","id":"b14424b5-e4e7-49e5-8ede-37f906299bcf","originalAuthorName":"占伟"},{"authorName":"徐盈","id":"f7eddda3-96df-42eb-b756-b1d814f5ebb2","originalAuthorName":"徐盈"}],"doi":"10.3321/j.issn:1000-8713.2000.01.006","fpage":"21","id":"565f4845-690c-401a-aeb5-ef021b0ab222","issue":"1","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"9f06a77c-e98d-4780-a193-2c5f7014a9c7","keyword":"多氯代二苯并二(口恶)(口英)/呋喃","originalKeyword":"多氯代二苯并二(口恶)(口英)/呋喃"},{"id":"07b72d36-322a-4610-b4c6-a97b6d4e7c12","keyword":"染料","originalKeyword":"染料"},{"id":"853ea362-d40f-4c73-9f82-2cf868fd063c","keyword":"四氯苯醌","originalKeyword":"四氯苯醌"}],"language":"zh","publisherId":"sp200001006","title":"\"永固紫\"染料和四氯苯醌中多氯代二苯并二(口恶)(口英)/呋喃的分析","volume":"18","year":"2000"},{"abstractinfo":"本文综述了作者所在研究集体所进行的正逆耦合循环研究.通过对串联型、并联型正逆耦合循环的相关研究和(火用)平衡比较分析,归纳提出了正逆耦合循环系统集成原则,即:正、逆循环采用同种工质;物流、能流耦合并重;优化配置热源加热过程;调控氨水工质浓度;回收利用系统内能.遵循该原则提出的变浓度氨水工质正逆耦合循环体现了优良的性能.","authors":[{"authorName":"刘猛","id":"343bc3a7-10a4-4fbb-a238-b52f64a9815e","originalAuthorName":"刘猛"},{"authorName":"张娜","id":"ecfc96ab-e8fa-4a2c-a55e-d6ecc77b31c2","originalAuthorName":"张娜"},{"authorName":"罗尘丁","id":"dce2be01-b18f-4577-a465-2d23aea270d7","originalAuthorName":"罗尘丁"}],"doi":"","fpage":"1981","id":"98b16b43-a750-4666-8688-695c6cf11385","issue":"12","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"bf2c7449-1574-4e78-b1cf-53ea5bf5f5b7","keyword":"正逆耦合循环","originalKeyword":"正逆耦合循环"},{"id":"c75d5df9-170f-412f-b306-d1cdbc49b9d5","keyword":"研究进展","originalKeyword":"研究进展"},{"id":"516d5302-314a-4549-a985-aec3d848dfa4","keyword":"系统集成原则","originalKeyword":"系统集成原则"},{"id":"e1a3d7b9-a5c5-4f66-ac79-fe3511e95214","keyword":"氨水工质","originalKeyword":"氨水工质"}],"language":"zh","publisherId":"gcrwlxb200912001","title":"正逆耦合循环研究进展","volume":"30","year":"2009"},{"abstractinfo":"对Dirac粒子引进了正-反粒子自由度和相应的内部τ空间的算子, 把γ矩阵分解成自旋σ算子和正-反粒子τ算子; Dirac方程的解出现了正-反粒子量子数; 正-反粒子变换是Dirac粒子的哈密顿量的反对称变换, Dirac粒子负能态能量的负值来自正-反粒子量子数的负值; γ矩阵这种分解是处理物理相互作用的需要.","authors":[{"authorName":"王顺金","id":"b047f010-780f-4c4c-8ad4-804be0f4c1a6","originalAuthorName":"王顺金"},{"authorName":"周善贵","id":"34a867fd-b1ca-4a79-9cb3-40c301a0e99b","originalAuthorName":"周善贵"},{"authorName":"H.C.Pauli","id":"3db29fe8-7400-4e3b-86d1-7f09179b551a","originalAuthorName":"H.C.Pauli"}],"doi":"10.3969/j.issn.1007-4627.2004.04.008","fpage":"294","id":"80b30226-9b34-455a-b2a9-38a83706ef28","issue":"4","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"c9c5c6f3-8b69-403f-a4c0-1c74938a8e79","keyword":"正-反粒子自由度","originalKeyword":"正-反粒子自由度"},{"id":"04749ca3-db63-4707-93e0-7c8e1a1d5b6c","keyword":"正-反粒子量子数","originalKeyword":"正-反粒子量子数"},{"id":"45c05037-0b16-4b46-b65f-ecc4fdcc9e47","keyword":"正-反粒子内部空间","originalKeyword":"正-反粒子内部空间"}],"language":"zh","publisherId":"yzhwlpl200404008","title":"Dirac粒子的正-反粒子自由度和正-反粒子量子数","volume":"21","year":"2004"},{"abstractinfo":"正渗透技术因其能耗低、水回收率高、截留能力强等优势,成为极具发展潜力的膜分离技术.然而,膜污染引起水通量持续下降,膜寿命缩短等问题严重制约了正渗透技术的发展和应用.如何有效控制膜污染已经成为正渗透技术亟需解决的问题.本综述从正渗透膜污染的角度出发,详细总结了正渗透膜的污染特征,全面介绍了抗污染正渗透膜的研究成果.通过对比众多的研究结果发现,正渗透膜的性质、膜朝向、原料液性质以及膜过程操作条件是影响正渗透膜污染形成与清除的重要因素.通过优化操作条件虽然可部分减轻膜污染,但不能彻底解决膜污染问题.开发抗污染正渗透膜仍是根治膜污染的重要解决方案.最后详细介绍了目前抗污染正渗透膜的制备方法,包括双皮层结构正渗透膜的制备及结构调控、膜表面抗污染改性、开发抗污染亲水膜材料制备正渗透膜等.其中,新型两亲性共聚物作为支撑层材料展现出良好的发展潜力,是未来抗污染正渗透膜的发展方向.","authors":[{"authorName":"王涛","id":"0423aea9-778a-4f6d-aca0-0f79894efed1","originalAuthorName":"王涛"},{"authorName":"王宁","id":"79520885-1491-476b-9d7d-d585ae615abe","originalAuthorName":"王宁"},{"authorName":"陆金仁","id":"fc983b8c-d2b6-4da8-af93-719bc5254654","originalAuthorName":"陆金仁"},{"authorName":"王志宁","id":"83fb128a-a087-44ba-a6b0-eba5bce5189e","originalAuthorName":"王志宁"},{"authorName":"胡云霞","id":"e5cf5b0b-050b-4ad1-afb7-a628f16f6a83","originalAuthorName":"胡云霞"}],"doi":"10.16159/j.cnki.issn1007-8924.2017.01.020","fpage":"125","id":"3a5d8f9f-89a8-4e66-9475-35a4995adbdd","issue":"1","journal":{"abbrevTitle":"MKXYJS","coverImgSrc":"journal/img/cover/MKXYJS.jpg","id":"54","issnPpub":"1007-8924","publisherId":"MKXYJS","title":"膜科学与技术 "},"keywords":[{"id":"29d51a66-2ee9-4155-ad1b-71e50da1bf2d","keyword":"正渗透","originalKeyword":"正渗透"},{"id":"a682d8ef-fe5b-4865-9877-4c13d4700e90","keyword":"膜污染","originalKeyword":"膜污染"},{"id":"40740997-4d32-480b-af23-136cbc64db78","keyword":"抗污染","originalKeyword":"抗污染"},{"id":"93350fef-cfd3-4a17-95cd-acbbfbc20da2","keyword":"表面改性","originalKeyword":"表面改性"},{"id":"94188c80-3086-4378-a77b-e3fc7714f97e","keyword":"共聚物","originalKeyword":"共聚物"}],"language":"zh","publisherId":"mkxyjs201701020","title":"正渗透膜污染特征及抗污染正渗透膜研究进展","volume":"37","year":"2017"},{"abstractinfo":"论文研究乙醇对正庚烷氧化过程的影响.采用同步辐射方法测量当量比为1.0时正庚烷/氧气/氩气,以及正庚烷/乙醇/氧气/氩气低压层流预混火焰中主要成分的浓度.研究结果表明,添加乙醇改变了正庚烷向己烷裂解的路线,促进了庚烷直接裂解成丁烯基的趋向,但丁烷、戊烷都仍是正庚烷的主要裂解产物.添加乙醇,火焰中环已二烯、环戊二烯浓度增加,而且出现了乙烯醇、丁醇.研究结果可作为乙醇燃烧特性进一步研究的参考依据.","authors":[{"authorName":"宋金瓯","id":"47da6e35-c42c-4525-95fb-ae8d91e7fdfd","originalAuthorName":"宋金瓯"},{"authorName":"姚春德","id":"ad64dec3-ba66-464b-9946-5cbdc5e7ab5f","originalAuthorName":"姚春德"},{"authorName":"许汉君","id":"aaffde82-365f-4278-b41b-b83c14d31ce5","originalAuthorName":"许汉君"},{"authorName":"刘士钰","id":"2a5a1f53-0151-4b68-98fc-f50427fcec44","originalAuthorName":"刘士钰"}],"doi":"","fpage":"1434","id":"e3b664a6-30ca-4fdb-9ae0-f1b101e01922","issue":"8","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"71cd7d29-af93-4b3b-8a3f-37a241387b57","keyword":"预混火焰","originalKeyword":"预混火焰"},{"id":"31247ade-e7cc-42af-801b-bdd99a219278","keyword":"乙醇","originalKeyword":"乙醇"},{"id":"f881e7e6-72f8-4018-88a3-60779d53af65","keyword":"正庚烷","originalKeyword":"正庚烷"},{"id":"8dacc4fb-1294-4645-88de-b583158f3bb0","keyword":"同步辐射","originalKeyword":"同步辐射"}],"language":"zh","publisherId":"gcrwlxb200908050","title":"正庚烷裂解及乙醇的影响","volume":"30","year":"2009"},{"abstractinfo":"正渗透技术作为一种新兴的膜技术以其低能耗、耐污染的特点在国际上受到越来越多的关注,并且在海水淡化、绿色能源、航空航天、食品浓缩等多个行业得到了迅速发展.综述了正渗透技术在脱盐、浓缩和能源3个不同方面的应用进展,以及国内近几年在正渗透领域所取得的一些研究进展,并展望了该领域未来的发展前景.","authors":[{"authorName":"王铎","id":"caf797d1-f909-440c-8721-00640fd7b6b1","originalAuthorName":"王铎"},{"authorName":"许春玲","id":"f363c10e-cb72-4279-b880-0fd68b26193b","originalAuthorName":"许春玲"},{"authorName":"黄燕","id":"93b6395b-ad6a-47a4-acd1-62ab82a0c33e","originalAuthorName":"黄燕"}],"doi":"","fpage":"1","id":"fab027a4-4665-4b20-8bdf-7a76c10649e6","issue":"5","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"77555e2e-5c7e-4a09-abf1-600b291a0437","keyword":"正渗透","originalKeyword":"正渗透"},{"id":"b671c705-b353-4369-9789-74da8c1c543c","keyword":"脱盐","originalKeyword":"脱盐"},{"id":"9cd425c9-d92c-49a2-83bb-8264a56da95f","keyword":"浓缩","originalKeyword":"浓缩"}],"language":"zh","publisherId":"cldb201305001","title":"正渗透技术的应用进展","volume":"27","year":"2013"}],"totalpage":275,"totalrecord":2750}