{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"利用电子束蒸发镀技术在铜表面沉积铬层,并对制备的工艺,涂层的性能行了初步研究.结果显示,采用低电压(6kV)和低束流(50mA、60mA))蒸镀时,沉积速度适中,所得的膜层呈银白色且光亮,内应力较小,无开裂现象,镀层厚度均匀,硬度较高,且与基体结合良好.适当控制电子枪的工艺参数和烘烤时间可以增加薄膜与基体的结合力.","authors":[{"authorName":"<span style=\"color:red\">张</span>跃飞","id":"78f5b763-99c7-462e-a421-d60750868417","originalAuthorName":"张跃飞"},{"authorName":"<span style=\"color:red\">张</span><span style=\"color:red\">广</span><span style=\"color:red\">秋</span>","id":"644908c0-d425-40fc-89a0-7e3edb3d4d5f","originalAuthorName":"张广秋"},{"authorName":"王正铎","id":"86a604e6-109c-4f68-8eae-7624a7787cd1","originalAuthorName":"王正铎"},{"authorName":"葛袁静","id":"a0c50a0a-245a-44b8-bad9-9f65e2e8fbd5","originalAuthorName":"葛袁静"},{"authorName":"陈强","id":"5397f6b5-3d05-4cdf-b59b-67f28389a299","originalAuthorName":"陈强"}],"doi":"10.3969/j.issn.1001-3660.2005.02.010","fpage":"27","id":"7db76ee6-6df3-4151-b67c-ea536ea3bb7e","issue":"2","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术   "},"keywords":[{"id":"8d607198-e685-45d0-9d6c-4115b099ad9e","keyword":"电子束蒸发镀","originalKeyword":"电子束蒸发镀"},{"id":"c23b3634-b5cf-44f1-93c6-1c6fb6c1d8f4","keyword":"凹印","originalKeyword":"凹印"},{"id":"2a536eb9-5b2e-4e96-bfe7-69d80bcc776b","keyword":"粗糙度","originalKeyword":"粗糙度"},{"id":"effd3f1a-e75a-40f0-b98f-6421df2f1bcd","keyword":"结合力","originalKeyword":"结合力"}],"language":"zh","publisherId":"bmjs200502010","title":"电子束蒸发镀铬制备凹印版材耐磨层的研究","volume":"34","year":"2005"},{"abstractinfo":"用电镀法制备凹印版材存在环境污染严重、成本高等缺点,为此研究用等离子体表面镀膜层替代电镀法制备凹印版材的新工艺.利用等离子体磁控溅射、多弧离子镀和离子束辅助沉积技术在镍基表面制备了硬质铬薄膜.研究表明,本法制备的薄膜表面致密均匀,中间有过渡层的离子束辅助沉积层表面显微硬度为800～1100 HV,磁控溅射的为300～400 HV,多弧离子镀的为600～800 HV,多弧离子镀和离子束辅助沉积层表面显微硬度接近于电镀法(700～1 100 HV).划痕试验表明,制备的薄膜与基体结合力均在5 N左右,凹版电子束辅助沉积铬后表面光滑,网点线条清晰,粗细均匀,可替代电镀法凹印版材.","authors":[{"authorName":"<span style=\"color:red\">张</span>跃飞","id":"d33c20fb-228f-461c-bdfa-bcf8c0ee36c8","originalAuthorName":"张跃飞"},{"authorName":"<span style=\"color:red\">张</span><span style=\"color:red\">广</span><span style=\"color:red\">秋</span>","id":"a96560e2-f050-4d68-a809-04b2520424ab","originalAuthorName":"张广秋"},{"authorName":"王正铎","id":"756f0cc4-5345-4ace-97e3-a56cdabdcbba","originalAuthorName":"王正铎"},{"authorName":"葛袁静","id":"ac22ee6f-07c3-4bf9-b258-859df6b2e6dd","originalAuthorName":"葛袁静"},{"authorName":"陈强","id":"7c47a6aa-11c1-4bbe-a4f2-e8d9aa91649f","originalAuthorName":"陈强"}],"doi":"10.3969/j.issn.1001-1560.2005.04.017","fpage":"54","id":"ae474114-cf89-4255-b7f0-3387a2d61a4f","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":"4a8a0af6-4af5-4c50-b5b2-42a8f0b3e7ca","keyword":"凹印版材","originalKeyword":"凹印版材"},{"id":"eac5106c-b588-4bfc-92a8-eeb4ef90555f","keyword":"制备","originalKeyword":"制备"},{"id":"1c55fb41-b12d-47b3-87d3-53fe725e1fce","keyword":"等离子体","originalKeyword":"等离子体"},{"id":"77d9c644-6fdf-44ba-b7d4-ae89675b3dbb","keyword":"磁控溅射","originalKeyword":"磁控溅射"},{"id":"33af27fa-8cc6-46e6-8e0c-a41bc4224fd2","keyword":"多弧离子镀","originalKeyword":"多弧离子镀"},{"id":"30d35df2-4f26-469f-bcd7-a7ab8b32cca7","keyword":"离子束辅助沉积","originalKeyword":"离子束辅助沉积"},{"id":"76abe9b4-2911-444d-ac6e-041c320f9f6b","keyword":"耐磨层","originalKeyword":"耐磨层"}],"language":"zh","publisherId":"clbh200504017","title":"用等离子体技术制备凹印版材耐磨层","volume":"38","year":"2005"},{"abstractinfo":"介绍了液晶电视的视角问题产生的原因, 对于同一种液晶分子的排列状态,在不同视角下有效光程差Δnd不同, 而液晶盒的最佳光程差是按垂直入射光线设计的,这样视角增大时,最小透过率增加,对比度下降.讨论了增加液晶电视视角的补偿膜模式、IPS模式和MVA模式的具体特点以及目前<span style=\"color:red\">广</span>视角技术及其在实际生产中的应用情况.","authors":[{"authorName":"牟强","id":"a418dfb2-202b-41a8-a22f-7e24afb6c3bb","originalAuthorName":"牟强"}],"doi":"10.3969/j.issn.1007-2780.2005.01.013","fpage":"67","id":"754db1bb-0893-41f8-b4ee-1d7ea282f8f8","issue":"1","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示   "},"keywords":[{"id":"84383693-c1c4-4daf-b982-dc06ae998221","keyword":"液晶显示器","originalKeyword":"液晶显示器"},{"id":"3e61892f-415e-4ec5-a9c0-3ee310dbf6cc","keyword":"共面切换模式","originalKeyword":"共面切换模式"},{"id":"4d99da03-2ac3-4050-8b54-ee85b5983533","keyword":"垂直取向模式","originalKeyword":"垂直取向模式"}],"language":"zh","publisherId":"yjyxs200501013","title":"液晶电视的<span style=\"color:red\">广</span>视角技术","volume":"20","year":"2005"},{"abstractinfo":"在对轧制时钢管的温降原因进行分析的基础上,给出一种定<span style=\"color:red\">张</span>减温降计算模型,该模型考虑了辐射、接触传导、内部传导对温度的影响.通过对轧制实验测定得到钢管的温降数据与此模型实例计算的结果进行对比分析,表明该模型比较准确,能够满足生产实际的要求,可用于自动控制系统中定<span style=\"color:red\">张</span>减温降的计算,从而为控制系统比较准确地对轧机进行设定及调整提供依据.","authors":[{"authorName":"付国忠","id":"2df6a851-8f47-4b56-8f72-ddb7bbbcfe8c","originalAuthorName":"付国忠"},{"authorName":"刘建平","id":"7bbce9ac-9a32-45eb-96fd-189eee9a7fcf","originalAuthorName":"刘建平"},{"authorName":"赵晓峰","id":"447ac541-0f77-4dc8-b74d-90d05019a5dc","originalAuthorName":"赵晓峰"},{"authorName":"刘建明","id":"dab886da-88c3-485b-acd8-36bdef7ca181","originalAuthorName":"刘建明"},{"authorName":"吕庆功","id":"ca75c975-aa2d-40d9-a1bc-e6c2a6290dd3","originalAuthorName":"吕庆功"},{"authorName":"彭龙洲","id":"191fb78f-9fa7-4ff8-bd3d-f5d577b2254b","originalAuthorName":"彭龙洲"}],"doi":"","fpage":"51","id":"f9f1b624-57cd-4daa-8c3b-87273c5da7af","issue":"12","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"86dbadc0-1405-4493-8908-e33b69ac127a","keyword":"定<span style=\"color:red\">张</span>减","originalKeyword":"定张减"},{"id":"9e7152eb-09a1-44ea-a2de-6bbe76d243e5","keyword":"温降","originalKeyword":"温降"},{"id":"5b41b920-ede8-4551-8e68-3e12ea48cca0","keyword":"模型","originalKeyword":"模型"}],"language":"zh","publisherId":"gt200412013","title":"定<span style=\"color:red\">张</span>减温降计算模型","volume":"39","year":"2004"},{"abstractinfo":"开发了液晶分子在双重电场作用下,扭曲排列稳定性增强的<span style=\"color:red\">广</span>视角技术,这种架构搭配负性液晶的开启响应速度略大于正性液晶,关闭响应速度与正性液晶一致,穿透率约提高了10％.分析了三电极作用下穿透率分别与响应时间和电压的关系,有效地解决了FFS和IPS对<span style=\"color:red\">广</span>视角技术的垄断.","authors":[{"authorName":"李雪红","id":"976b8e77-6240-4b1f-9791-dff521c3af8b","originalAuthorName":"李雪红"},{"authorName":"邹忠飞","id":"8fb7b83a-4ed9-4c65-91a9-89c205165e00","originalAuthorName":"邹忠飞"},{"authorName":"钟德镇","id":"7472d5ef-bad2-45e5-aae5-7a0c1418f0a5","originalAuthorName":"钟德镇"},{"authorName":"李永谦","id":"fe9b878d-f43a-4725-8eab-af5d1d29e78b","originalAuthorName":"李永谦"},{"authorName":"刘春凤","id":"60b71abb-ad0d-48d3-b6d4-93ade20c4bbf","originalAuthorName":"刘春凤"},{"authorName":"洪崇益","id":"20dbe126-e4ce-4101-9f2f-2d2eb8e90993","originalAuthorName":"洪崇益"},{"authorName":"简廷宪","id":"9eb7a9c6-64c6-4f26-9a90-88d94a5902b2","originalAuthorName":"简廷宪"}],"doi":"10.3788/YJYXS20132803.0354","fpage":"354","id":"19d43bf6-f623-472c-bf27-b67b77db5d62","issue":"3","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示   "},"keywords":[{"id":"1fdd77be-e56a-4a86-96a5-43d39524a796","keyword":"<span style=\"color:red\">广</span>视角","originalKeyword":"广视角"},{"id":"f63dfba1-3e07-48d8-b95c-3530ce58d500","keyword":"负性液晶","originalKeyword":"负性液晶"},{"id":"419f7fe0-415b-46bf-b1e6-38532543f5c1","keyword":"响应时间","originalKeyword":"响应时间"},{"id":"de31ee56-9fbd-4a3b-b9fc-5f62cd851865","keyword":"穿透率","originalKeyword":"穿透率"}],"language":"zh","publisherId":"yjyxs201303010","title":"扭曲排列增强的<span style=\"color:red\">广</span>视角技术","volume":"28","year":"2013"},{"abstractinfo":"以未添加助剂的聚丙烯(PP)粉料为原料,三羟甲基丙烷三丙烯酸酯(TMPTA)为接枝单体,采用热引发熔融接枝的方法制备长链支化聚丙烯(LCBPP).当支链分子量大于PP的临界分子量(Me=5600)的2倍时,对流变性能有很大的影响,称为流变学长支链.研究了二硫化四甲基<span style=\"color:red\">秋</span>兰姆( TMTD)在熔融接枝体系中的调控作用.研究结果表明,加入TMTD后,单体的接枝量降低,但是支化效率提高.理论计算表明,在同样条件下加入TMTD后,改性样品的长支链频率由0.03升至0.34.","authors":[{"authorName":"<span style=\"color:red\">张</span>振江","id":"9e1c4362-bd70-4bea-8f5b-214da189a2e6","originalAuthorName":"张振江"},{"authorName":"万东","id":"32884bb4-21ef-4a99-975c-838e7e730ec7","originalAuthorName":"万东"},{"authorName":"邢海平","id":"ac2abe91-e439-4f49-b213-8b2d05ef574f","originalAuthorName":"邢海平"},{"authorName":"唐涛","id":"d5f0280a-ce5a-4039-b304-553a568b736d","originalAuthorName":"唐涛"}],"doi":"10.3724/SP.J.1095.2011.00648","fpage":"1130","id":"f8894c4c-252a-43a0-b2ca-ce5db6fa1844","issue":"10","journal":{"abbrevTitle":"YYHX","coverImgSrc":"journal/img/cover/YYHX.jpg","id":"73","issnPpub":"1000-0518","publisherId":"YYHX","title":"应用化学"},"keywords":[{"id":"12e8d2fb-560f-4951-b663-12cad712db48","keyword":"聚丙烯","originalKeyword":"聚丙烯"},{"id":"fd041855-2df8-48bd-a22b-c1217dc5b3ed","keyword":"熔融接枝","originalKeyword":"熔融接枝"},{"id":"0279c854-7396-40e9-82e5-22fe3855b8b8","keyword":"长链支化","originalKeyword":"长链支化"}],"language":"zh","publisherId":"yyhx201110005","title":"二硫化四甲基<span style=\"color:red\">秋</span>兰姆在热引发熔融接枝聚丙烯体系中的调控作用","volume":"28","year":"2011"},{"abstractinfo":"为了实现液晶显示器的<span style=\"color:red\">广</span>视角显示,论文详细阐述了一款54.6 cm(21.5 in)液晶显示器的<span style=\"color:red\">广</span>对比度视角液晶面板及<span style=\"color:red\">广</span>亮度视角背光源的设计原理和方法.介绍了边缘场开关模式液晶面板的设计方法及结构,从原理上阐释了此液晶面板具有<span style=\"color:red\">广</span>对比度视角的原因;介绍了背光源亮度视角的设计方法,通过对背光源中多组光学膜层架构的测试和数据对比,得到了具有最广亮度视角的膜层架构.根据上述原理进行实际模组样品的制作并进行实测,数据结果显示此款液晶显示器的对比度视角可达90°/90°/90°/90°,且在水平方向的1/2亮度视角可达60°,相应的亮度视角均一性为1.20.通过对比其他同类产品的实测数据,表明此款液晶显示器无论在对比度视角还是亮度视角方面都远优于同类产品.","authors":[{"authorName":"王欢","id":"2518ea2e-34f2-4558-ab63-2a94abd36096","originalAuthorName":"王欢"},{"authorName":"徐向阳","id":"1a71630c-f265-4525-9ceb-2a2a7f0146a0","originalAuthorName":"徐向阳"},{"authorName":"辛武根","id":"3a2f1c62-0418-43a7-8a11-c42e31c4b545","originalAuthorName":"辛武根"},{"authorName":"王伟","id":"07cff634-256b-48b2-a4bc-5b6ec8c43fcc","originalAuthorName":"王伟"},{"authorName":"涂志中","id":"08ddc61a-672c-4a8e-af90-9c28d4435323","originalAuthorName":"涂志中"},{"authorName":"尹傛俊","id":"53039500-b936-4a00-a927-52b26239995c","originalAuthorName":"尹傛俊"},{"authorName":"徐宇博","id":"59d8a3c2-860a-45fc-882a-76c338e1ad2f","originalAuthorName":"徐宇博"},{"authorName":"李乘揆","id":"9fed4ad9-6fab-43ec-b309-b55631d0245f","originalAuthorName":"李乘揆"}],"doi":"10.3788/YJYXS20142904.0559","fpage":"559","id":"190082c6-2979-4f05-b35f-09943b310c67","issue":"4","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示   "},"keywords":[{"id":"1d1a1edd-42d5-4865-94ae-c758e7cfa502","keyword":"<span style=\"color:red\">广</span>视角","originalKeyword":"广视角"},{"id":"74167150-f841-40c6-99af-968606437425","keyword":"边缘场开关","originalKeyword":"边缘场开关"},{"id":"68361002-db61-4c65-96b1-8a5c7b3d23c8","keyword":"光学膜层","originalKeyword":"光学膜层"},{"id":"5ac09918-f323-4fbf-8496-3decb071bd01","keyword":"背光源","originalKeyword":"背光源"}],"language":"zh","publisherId":"yjyxs201404015","title":"<span style=\"color:red\">广</span>视角液晶显示器设计","volume":"29","year":"2014"},{"abstractinfo":"<span style=\"color:red\">广</span>钢现有高炉两座,其容积分别是300 m3(3号高炉)和350 m3(4号高炉).高炉喷煤工程在1998年4月投产,先后进行了弥补设计缺陷的技术改造和喷吹烟煤、提高制粉量的适应性技术整改,有效地提高了制粉能力(提高近60 %).同时进行了高炉工艺的技术调整,为高炉提高喷吹量创造了条件,喷吹量提高40 %,并取得了煤比逐年提高和181 kg/t的历史最高月煤比的实绩.实现了不同煤种的混合制粉和混合喷吹(其中烟煤比例占66.7 %),提高了置换比.<span style=\"color:red\">广</span>钢高炉喷煤技术取得了较大的进步.","authors":[{"authorName":"郭勇文","id":"fea7cb77-60c7-4ee2-8bd0-a703bd88c278","originalAuthorName":"郭勇文"},{"authorName":"胡中意","id":"43756879-d043-4f56-aeea-f4cb817c4995","originalAuthorName":"胡中意"}],"doi":"","fpage":"15","id":"48bbca22-0d20-410c-ab13-992792653a29","issue":"5","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"ad3d8074-4f68-441a-92d2-51d70bdffde6","keyword":"高炉","originalKeyword":"高炉"},{"id":"1e227cd7-f687-4b22-b019-4ec7786dd3c9","keyword":"喷煤","originalKeyword":"喷煤"},{"id":"22983ff3-a178-4221-9da8-085812669220","keyword":"技术","originalKeyword":"技术"},{"id":"2d071b66-4196-4658-a9b7-ff5e410ab9af","keyword":"进步","originalKeyword":"进步"}],"language":"zh","publisherId":"gt200305003","title":"<span style=\"color:red\">广</span>钢高炉喷煤技术进步","volume":"38","year":"2003"},{"abstractinfo":"","authors":[],"doi":"","fpage":"45","id":"378e24b8-d620-4df9-ae90-615dd1006902","issue":"10","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业   "},"keywords":[{"id":"71281a8d-4262-4acc-8a67-0f4d940e7bb6","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"tlgy200910019","title":"<span style=\"color:red\">秋</span>实果满园","volume":"39","year":"2009"},{"abstractinfo":"通过对高压输电用耐<span style=\"color:red\">张</span>线夹及夹持导线的宏观形貌、化学成分、腐蚀产物进行分析,探讨了该线夹腐蚀失效的原因.结果表明:该线夹在压接时即存在铝线断股现象,服役过程中使酸性雨水更易进入到压接管内部,对线夹与钢芯铝绞线结合面进行腐蚀生成腐蚀产物,导致耐<span style=\"color:red\">张</span>线夹电阻增大;随着腐蚀的进行,线夹电阻不断增大,其温度也随之升高;当温度超过临界温度时,热平衡状态被打破,最终线夹过热,导致高温烧损失效;应加强线夹压接管位置的红外测温监控,及时更换温度明显异常的压接管.","authors":[{"authorName":"王若民","id":"67613948-e11f-48e5-825a-945647e34637","originalAuthorName":"王若民"},{"authorName":"詹马骥","id":"c5bfcec7-5a00-4e3d-b8c3-cc8ae36b1c5e","originalAuthorName":"詹马骥"},{"authorName":"季坤","id":"fad04bbc-1535-4f0d-b2d0-e0a6c3cd18b9","originalAuthorName":"季坤"},{"authorName":"严波","id":"5762aad4-1316-4f1b-a398-6bef540edc39","originalAuthorName":"严波"},{"authorName":"王夫成","id":"293d7a45-367c-4e72-b1e8-54671748e326","originalAuthorName":"王夫成"},{"authorName":"杜晓东","id":"34fa50d8-c180-4b94-bef4-334bb0b32a93","originalAuthorName":"杜晓东"}],"doi":"10.11973/jxgccl201703023","fpage":"112","id":"70c96a82-1183-4792-9903-a2d3f429c779","issue":"3","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"ba9620cc-12e4-4c4a-8ed2-dabf99baee9b","keyword":"耐<span style=\"color:red\">张</span>线夹","originalKeyword":"耐张线夹"},{"id":"e9262adb-ad1f-42ae-a53f-f8cf601c190c","keyword":"腐蚀","originalKeyword":"腐蚀"},{"id":"b1c65b70-8df7-4c01-b691-fbe881df0505","keyword":"热击穿","originalKeyword":"热击穿"},{"id":"08076d01-a062-4829-9d0a-13eb956fbedd","keyword":"钢芯铝绞线","originalKeyword":"钢芯铝绞线"}],"language":"zh","publisherId":"jxgccl201703024","title":"高压输电用耐<span style=\"color:red\">张</span>线夹失效的原因","volume":"41","year":"2017"}],"totalpage":54,"totalrecord":533}