{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"对粘弹性流体,非均匀的径向温度所造成的不均匀的径向应力,使熔体在挤出过程中产生非均匀结晶和纤维微观结构的改变.采用PTT模型,通过POLYFLOW软件模拟PA6熔体从圆形喷丝微孔中挤出的流动行为,分析熔体在不同的卷绕速度下沿纺程的拉伸速率分布、温度分布及结晶度的变化情况.结果表明,沿纺程纤维中心和纤维表面的速度几乎重合,在纤维横向断面上拉伸速率是均匀的,而且卷绕速度越低,拉伸速率越容易达到稳定;沿纺程纤维中心温度要高于纤维表面温度,且卷绕速度对纺程上的温度影响不大.研究结论对实际纤维产品和纺丝生产工艺有较好的参考作用.","authors":[{"authorName":"王磊","id":"28c528b8-18b9-4951-bf93-c4dee4dede62","originalAuthorName":"王磊"},{"authorName":"陈淮","id":"1644b253-f037-4476-837e-ff775aa74330","originalAuthorName":"陈淮"},{"authorName":"马晓建","id":"5efc92de-6da9-4cdf-9d9b-48b512d7a90e","originalAuthorName":"马晓建"},{"authorName":"杨崇倡","id":"bb548e5c-986b-469a-9837-a82093b2a52a","originalAuthorName":"杨崇倡"},{"authorName":"甘学辉","id":"c451c40f-93c6-4640-9a3d-d8ef71ebda2d","originalAuthorName":"甘学辉"}],"doi":"","fpage":"44","id":"978088a9-cfe1-45dd-b5c0-2cc1a830051c","issue":"1","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":"7de98216-ca2e-48aa-b6a9-6b931cf711f8","keyword":"卷绕速度","originalKeyword":"卷绕速度"},{"id":"28793e79-6822-48e1-ba12-c7d363ccff61","keyword":"结晶度","originalKeyword":"结晶度"},{"id":"e33ff772-ee3f-4f5a-9ef8-7ea3b3d71847","keyword":"圆形微孔","originalKeyword":"圆形微孔"},{"id":"37126e3f-075a-4ff4-9b18-e2a13493e28f","keyword":"模拟","originalKeyword":"模拟"}],"language":"zh","publisherId":"gfzclkxygc201401010","title":"非等温粘弹性熔体挤出成型过程的形态及性能","volume":"30","year":"2014"},{"abstractinfo":"以切割相对分子质量为20 000的聚砜中空纤维超滤膜为基膜,哌嗪为水相单体,均苯三甲酰氯为有机相单体,通过界面聚合反应在基膜表面形成超薄功能层,运用涂敷机连续地制备性能优良的聚哌嗪酰胺纳滤复合膜,并与间歇涂覆工艺制备的中空纤维纳滤复合膜进行性能比较测试.","authors":[{"authorName":"杨盛","id":"6d55d55d-3271-41ad-a13d-6890e5e09adc","originalAuthorName":"杨盛"},{"authorName":"吴云","id":"9a299182-b22e-4dde-bddf-6be737f45c8b","originalAuthorName":"吴云"},{"authorName":"张宇峰","id":"d974ba03-521d-45b7-8d03-b973540f3a70","originalAuthorName":"张宇峰"},{"authorName":"杜启云","id":"02840e4d-c85c-46f0-a080-e8290dee578c","originalAuthorName":"杜启云"}],"doi":"10.16159/j.cnki.issn1007-8924.2016.01.014","fpage":"88","id":"e51bfe48-794f-48f8-a4a1-7e4e89a9796a","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":"9f4b60a0-05dc-4a72-8ced-1cb74effdf9e","keyword":"中空纤维","originalKeyword":"中空纤维"},{"id":"74d077fd-fa5f-4cdf-8cd0-25456670a5cd","keyword":"纳滤膜","originalKeyword":"纳滤膜"},{"id":"2e491edc-f39f-463f-bae4-2dc1b3b50fbd","keyword":"涂敷","originalKeyword":"涂敷"},{"id":"33ebb38f-bcd3-4422-bff6-0a6bff33cb80","keyword":"界面聚合","originalKeyword":"界面聚合"},{"id":"01653cf8-9f2a-4d57-a78b-cf4f5a4bba9a","keyword":"卷绕速度","originalKeyword":"卷绕速度"}],"language":"zh","publisherId":"mkxyjs201601014","title":"中空纤维纳滤复合膜及其涂敷机的研究","volume":"36","year":"2016"},{"abstractinfo":"以自动铺丝机所需的预浸窄带作为研究背景,结合自行研制的16丝束预浸带分切卷绕机对卷绕张力开展研究,简要分析讨论了卷绕张力对预浸窄带分切质量、卷绕质量的影响.为了保证预浸窄带的分切质量与卷绕质量,区别于传统的PID控制算法,重点探讨分析了模糊PID算法在闭环控制系统中的应用,将其运用到卷绕张力的精确控制策略中,实现了小张力的精确控制.控制精度可达0.1N,满足预浸窄带的分切要求,保证了分切与卷绕质量,提高了铺丝质量.","authors":[{"authorName":"朱腾飞","id":"6d8895fc-4ccc-48a2-8617-d45ef53cb43d","originalAuthorName":"朱腾飞"},{"authorName":"文立伟","id":"05363b8e-b32f-476b-a94b-2b58c936c1d3","originalAuthorName":"文立伟"},{"authorName":"肖军","id":"1d74119f-1cc1-45d0-8078-8959e87bbc13","originalAuthorName":"肖军"},{"authorName":"蔡志强","id":"480e1fad-8735-468c-a754-10c4b3c8bf21","originalAuthorName":"蔡志强"}],"doi":"","fpage":"17","id":"fc5e407f-1070-4cc3-9085-b6716d429afe","issue":"5","journal":{"abbrevTitle":"BLGFHCL","coverImgSrc":"journal/img/cover/BLGFHCL.jpg","id":"6","issnPpub":"1003-0999","publisherId":"BLGFHCL","title":"玻璃钢/复合材料"},"keywords":[{"id":"d08fbb83-5a7b-42e8-959b-848648f91784","keyword":"自动铺丝","originalKeyword":"自动铺丝"},{"id":"a0fc2227-42ca-4c80-a40a-afd2cceba47c","keyword":"预浸带","originalKeyword":"预浸带"},{"id":"1b5b5b68-fe30-489a-9a1e-a8917039944d","keyword":"分切卷绕","originalKeyword":"分切卷绕"},{"id":"917b0f50-8814-4e8a-8bf9-fdf4b418a365","keyword":"模糊PID","originalKeyword":"模糊PID"},{"id":"18359142-cac0-4e87-ae61-30421de9d7ee","keyword":"张力控制","originalKeyword":"张力控制"}],"language":"zh","publisherId":"blgfhcl201605003","title":"预浸带分切卷绕机张力控制研究","volume":"","year":"2016"},{"abstractinfo":"以活性炭纤维布(activated carbon fibre cloth, ACFC)为电极材料,以1mol/L的Et4NBF4/PC为电解液,制备卷绕式ACFC超级电容器.利用BET测试ACFC的孔隙性,利用恒流充放电测试和漏电流测试对ACFC超级电容器的性能进行表征.结果表明,基于ACFC的超级电容器达到80F/g的比容,能量密度达到20.2Wh/kg,功率特性好、漏电流小,具有很好的产业化前景.","authors":[{"authorName":"邓梅根","id":"519e5747-e8cd-4e84-91a9-57fbb97f7ca7","originalAuthorName":"邓梅根"},{"authorName":"杨邦朝","id":"3c4d9a3b-9dfa-4ccc-b5d4-3ced7d508105","originalAuthorName":"杨邦朝"},{"authorName":"胡永达","id":"b7b276ae-cbe1-43d0-adf3-bf1ee04f0158","originalAuthorName":"胡永达"}],"doi":"","fpage":"1182","id":"5e9ffeb7-518d-4709-a515-2c1493468b82","issue":"8","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"4417ed58-da3b-4fea-ae0c-4e5053670cd4","keyword":"超级电容器","originalKeyword":"超级电容器"},{"id":"c3ce1a13-6a10-4942-8986-1aa40b444a4a","keyword":"活性炭纤维布","originalKeyword":"活性炭纤维布"},{"id":"c255c702-aa69-4caf-a9f1-6600586c3b07","keyword":"卷绕式","originalKeyword":"卷绕式"},{"id":"30087249-3619-4ef8-9392-4cfdfa243607","keyword":"比容","originalKeyword":"比容"}],"language":"zh","publisherId":"gncl200508013","title":"卷绕式活性炭纤维布超级电容器的研究","volume":"36","year":"2005"},{"abstractinfo":"以泡沫铅作为负极集流体制备了卷绕VRLA电池.采用计时电流法、循环伏安曲线、电化学阻抗谱和充放电实验研究了泡沫铅负极的电化学行为,结果表明:泡沫铅负极的真实表面积比铅箔负极的大,因此泡沫铅负极具有较低的过电势,并且不论是在怎样的放电状态下,泡沫铅负极的电化学反应电阻较小;与铅箔负极相比,在10、5和2小时率放电状态下,泡沫铅负极的质量比容量分别增加25.9%,30.0%和48.2%.此外,SEM观察显示,泡沫铅负极表面活性物质为更加细小的晶体颗粒和具有更高的孔率.","authors":[{"authorName":"戴长松","id":"b35ccbcb-2646-46b2-bf38-2f706c045f72","originalAuthorName":"戴长松"},{"authorName":"张生","id":"5c3bd847-149c-446b-9e54-5c97887bd1a7","originalAuthorName":"张生"},{"authorName":"王殿龙","id":"4e08cfe0-ed34-457b-a802-8eb5fb30b62e","originalAuthorName":"王殿龙"},{"authorName":"高丽霞","id":"fec0674a-4d45-4326-b5e3-a73c859f876f","originalAuthorName":"高丽霞"},{"authorName":"胡信国","id":"da3d1f0d-b2b8-4e18-8be2-318272122bee","originalAuthorName":"胡信国"}],"doi":"","fpage":"503","id":"0456648f-252b-47e8-8452-f700b5ac670c","issue":"z3","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"a8d81d6c-85b4-400b-b93d-50b8f823402f","keyword":"卷绕铅酸电池","originalKeyword":"卷绕铅酸电池"},{"id":"1d4a27b3-aca4-46f2-8eb8-e7bb89b1f862","keyword":"泡沫铅负极","originalKeyword":"泡沫铅负极"},{"id":"65c5d4f7-bcbb-4c5b-bc09-55390e5bf3bc","keyword":"铅箔负极","originalKeyword":"铅箔负极"},{"id":"515b745d-8988-4472-a904-ba719e9e793c","keyword":"电化学行为","originalKeyword":"电化学行为"}],"language":"zh","publisherId":"xyjsclygc2007z3121","title":"卷绕铅酸电池泡沫铅负极电化学行为的研究","volume":"36","year":"2007"},{"abstractinfo":"综述了冷喷涂过程中粒子速度和临界速度的模拟计算及实际测定的方法,分析了冷喷涂中影响临界速度的因素,指出合理利用数值计算方法并结合粒子和基体本身的物理性质来设计喷管几何结构、优化涂层制备工艺参数以提高涂层性能将是冷喷涂发展的主要方向之一.","authors":[{"authorName":"卜恒勇","id":"72f6f286-2eff-40e2-9034-2ceb5a2dbdfc","originalAuthorName":"卜恒勇"},{"authorName":"卢晨","id":"da37c91c-8077-4218-9672-0d407204dbc9","originalAuthorName":"卢晨"}],"doi":"","fpage":"46","id":"c4fde31b-c2b6-46d7-8263-58b8a522a5dd","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":"3b522da2-0ae0-4f47-9e52-492b60e040ab","keyword":"冷喷涂","originalKeyword":"冷喷涂"},{"id":"89df5a6b-281a-404a-ad99-fd4122170f0e","keyword":"临界速度","originalKeyword":"临界速度"},{"id":"c87e291e-d775-40ae-b343-b86f8b92aa6b","keyword":"粒子速度","originalKeyword":"粒子速度"},{"id":"7a2bbb37-1da9-4051-8c36-0bc93722281c","keyword":"影响因素","originalKeyword":"影响因素"}],"language":"zh","publisherId":"clbh201104015","title":"冷喷涂临界速度及其影响因素","volume":"44","year":"2011"},{"abstractinfo":"对金属在压力下凝固的特点进行了分析,提出了液态模锻时测定金属凝固速度的一种新方法,该方法简便易行,对普通铸造时金属凝固速度的测定亦有一定的参考价值.","authors":[{"authorName":"任学平","id":"73e96b99-bdba-4b03-a643-c7c585317e4a","originalAuthorName":"任学平"},{"authorName":"康永林","id":"fa932e19-3128-4f8f-ac8b-12931e1d3e2e","originalAuthorName":"康永林"},{"authorName":"侯红亮","id":"1fe8371f-4042-415c-85fb-889a06829364","originalAuthorName":"侯红亮"}],"doi":"","fpage":"60","id":"305eacbd-04c0-4582-945e-5e1cac9b8421","issue":"5","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"67cec04b-6cf0-406b-a031-35abf01502c2","keyword":"液态模锻","originalKeyword":"液态模锻"},{"id":"56316494-089e-404f-8cc3-e60908c54d50","keyword":"凝固速度","originalKeyword":"凝固速度"},{"id":"ee977779-7f5a-4538-a52d-cc1173a014f1","keyword":"压下速度","originalKeyword":"压下速度"}],"language":"zh","publisherId":"gtyjxb199905014","title":"液态模锻凝固速度的测定方法","volume":"11","year":"1999"},{"abstractinfo":"在电子辅助热丝CVD中,研究刀具预处理对金刚石薄膜生长速度的影响.在保持生长条件不变的前提下,经酸腐蚀处理的刀具的侧、背面镀铜能使金刚石薄膜的生长速度从没有镀铜时的4μm/h增加到镀铜后的10.6μm/h.镀铜处理提高了刀具的电导率,使得热丝发射的电子在偏压电场的作用下,在刀具表面附近聚集,加速氢气和丙酮的裂解,从而提高金刚石薄膜生长速度.SEM和Raman测试结果表明,高速生长的金刚石薄膜仍然具有很高质量.","authors":[{"authorName":"王传新","id":"10344d92-a737-4c20-adb1-d615425f8d23","originalAuthorName":"王传新"},{"authorName":"汪建华","id":"9392eea7-763c-4305-b841-84c089ef5c73","orig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"},"keywords":[{"id":"f0601221-e7c1-4a9a-b313-1d6b117b446d","keyword":"金刚石薄膜","originalKeyword":"金刚石薄膜"},{"id":"5a06db41-3bf9-4597-b3b4-a5b653411d82","keyword":"生长速度","originalKeyword":"生长速度"},{"id":"8235f88c-9144-48a5-b7fe-bd13fbe6b457","keyword":"镀铜","originalKeyword":"镀铜"},{"id":"01315121-e0a0-4912-8048-c0a87fa4db05","keyword":"硬质合金","originalKeyword":"硬质合金"}],"language":"zh","publisherId":"gnclyqjxb200504007","title":"金刚石薄膜生长速度研究","volume":"11","year":"2005"},{"abstractinfo":"针对93W长杆弹垂直侵彻半无限4340钢靶的准稳定阶段进行研究,根据弹尾和弹体平均速度时程曲线分析准稳定阶段的速度特性和时间分布,并对不同长径比不同入射速度条件下冲击速度与侵彻速度之间的关系进行研究.研究表明,不同条件下侵彻速度与冲击速度发生较大的变化,但两者之间的关系不变且满足线性关系.这种关系与利用流体动力学模型所推导出的线性关系明显不同.","authors":[{"authorName":"高光发","id":"30f48855-8a06-4faa-851c-97820478c671","originalAuthorName":"高光发"},{"authorName":"李永池","id":"6bb7c144-64fd-4a79-ac27-a45a8629c0fb","originalAuthorName":"李永池"},{"authorName":"段士伟","id":"2f20fcc5-8a80-4821-b80c-6abbfd85eb21","originalAuthorName":"段士伟"},{"authorName":"魏磊","id":"f7ca38c8-c239-46f1-8560-9d9aa1dbf452","originalAuthorName":"魏磊"}],"doi":"10.3969/j.issn.1004-244X.2011.01.004","fpage":"13","id":"ecd905f7-f146-421e-9969-56f4b7580c2e","issue":"1","journal":{"abbrevTitle":"BQCLKXYGC","coverImgSrc":"journal/img/cover/BQCLKXYGC.jpg","id":"4","issnPpub":"1004-244X","publisherId":"BQCLKXYGC","title":"兵器材料科学与工程 "},"keywords":[{"id":"7b7bbafd-0942-4d62-bb13-e2d19f8311a2","keyword":"侵彻力学","originalKeyword":"侵彻力学"},{"id":"72aafe6d-1676-49da-ac06-a83150258f26","keyword":"准稳定状态","originalKeyword":"准稳定状态"},{"id":"d5607d97-0142-45e9-9a9e-195c4bd34e89","keyword":"冲击速度","originalKeyword":"冲击速度"},{"id":"7c8f32d7-63a2-4924-8d82-68b55df3b0d7","keyword":"侵彻速度","originalKeyword":"侵彻速度"}],"language":"zh","publisherId":"bqclkxygc201101004","title":"侵彻准稳定过程中冲击速度与侵彻速度的关系","volume":"34","year":"2011"},{"abstractinfo":"本文研究了T91钢冷却过程中,不同冷却速度(10 k/min(200 k/min)对相变速度和产物的影响.研究表明不同的冷却速度生成的组织差别较大,在较低速冷却下(10 k/min和30 k/min)的组织为较多的先共析铁素体和板条马氏体,中速冷却(30 k/min和50 k/min)基本都为板条马氏体,在较高速冷却过程中(100 k/min和200 k/min)组织中除了板条马氏体还出现了片状马氏体,另外冷却速度还影响了相变开始点和相变速度.","authors":[{"authorName":"殷红旗","id":"32ff4419-5b5f-437c-a5e6-3eda85b26371","originalAuthorName":"殷红旗"},{"authorName":"刘永长","id":"2ddd9f17-0150-4562-9e2f-9c3ba800e89a","originalAuthorName":"刘永长"},{"authorName":"宁保群","id":"51cbf6f5-2908-4e47-b793-412467f1607d","originalAuthorName":"宁保群"},{"authorName":"徐荣雷","id":"a9c1afd7-b835-4c80-8874-4425cdf49514","originalAuthorName":"徐荣雷"},{"authorName":"张尧卿","id":"378d90a6-be83-4b97-bb88-d4d2b1c16328","originalAuthorName":"张尧卿"},{"authorName":"韩雅静","id":"36fac506-f71a-4712-aa83-70b141524a61","originalAuthorName":"韩雅静"}],"doi":"10.3969/j.issn.1673-2812.2007.01.030","fpage":"118","id":"bef2334d-1a06-4446-bdc6-d9ee4055e605","issue":"1","journal":{"abbrevTitle":"CLKXYGCXB","coverImgSrc":"journal/img/cover/CLKXYGCXB.jpg","id":"13","issnPpub":"1673-2812","publisherId":"CLKXYGCXB","title":"材料科学与工程学报"},"keywords":[{"id":"87b42b60-5c8a-49ab-a025-d06ecb8d63c4","keyword":"T91","originalKeyword":"T91"},{"id":"d53f8788-bea4-4d23-9c75-18babf3bc73f","keyword":"冷却速度","originalKeyword":"冷却速度"},{"id":"44610258-19c1-47bd-b2e5-44c175e83ce7","keyword":"相变","originalKeyword":"相变"}],"language":"zh","publisherId":"clkxygc200701030","title":"冷却速度对T91相变速度和产物的影响","volume":"25","year":"2007"}],"totalpage":1037,"totalrecord":10368}