{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>毛细管整体色谱柱由于保留机理多样，具有很好的应用前景。本文以[2-（甲基丙烯酰基氧基）乙基]二甲基-（3-磺酸丙基）氢氧化铵（ SPE ）为单体，乙二醇二甲基丙烯酸酯（ EDMA ）为交联剂，偶氮二异丁腈（ AIBN）为引发剂，正丙醇/1，4-丁二醇/水三元体系为致孔剂，制备了聚合物基质 SPE-co-EDMA 毛细管液相色谱整体柱。通过系统优化致孔剂和反应物种类和配比、引发剂的用量、反应时间和反应温度等因素，提高了整体柱的柱效、机械强度、渗透性和重复性。结果表明该毛细管整体柱在10 MPa 内具有良好的机械强度，渗透性为2.17×10-14 m2，而且批次内和批次间峰面积的重现性（RSD）分别为1.0％和4.6％。以极性和非极性的多种化合物评价了该毛细管整体柱的色谱性能，结果表明该柱在高有机相中具有亲水相互作用机理，在低有机相中具有反相作用机理，显示出<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>分离特性。","authors":[{"authorName":"窦阿波","id":"6ffe8bfa-5bb9-4917-9ee5-d56e01c03a4c","originalAuthorName":"窦阿波"},{"authorName":"邹存杰","id":"dc89a99c-0ea7-4be6-98ff-95bce0aab87d","originalAuthorName":"邹存杰"},{"authorName":"单圆鸿","id":"50d1dae5-c7f2-4e42-931e-a4ced2426aa1","originalAuthorName":"单圆鸿"},{"authorName":"石先哲","id":"7eadef74-91bf-4083-ad02-fb4961385f2e","originalAuthorName":"石先哲"},{"authorName":"许国旺","id":"f6681ba5-a778-4063-b584-382e9bc6fd68","originalAuthorName":"许国旺"}],"doi":"10.3724/SP.J.1123.2013.12040","fpage":"447","id":"7b241df1-661f-424f-851e-902aa779bc2e","issue":"5","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"15fdbfcd-9796-46ea-b950-43b8dfa4c35c","keyword":"毛细管高效液相色谱","originalKeyword":"毛细管高效液相色谱"},{"id":"6d37b071-4345-4c35-9a0b-60a9c075af3a","keyword":"毛细管整体柱","originalKeyword":"毛细管整体柱"},{"id":"2eae017d-651d-4329-9925-4d1b4fb1ae2c","keyword":"制备","originalKeyword":"制备"},{"id":"56b58080-426b-455b-8ffd-f722d2f24e28","keyword":"<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>","originalKeyword":"混合模式"}],"language":"zh","publisherId":"sp201405002","title":"<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>毛细管聚合物整体柱的制备及应用","volume":"","year":"2014"},{"abstractinfo":"建立了Ⅰ型与Ⅱ型失效<span style=\"color:red\">模式</span>耦合的粘聚单元本构模型,并通过模拟双悬臂梁实验进行了验证.将粘聚单元插入填充区任何2个实体单元之间,预测填充区的随机裂纹,模拟了接头在拉伸载荷下的失效.计算了复合材料基体、界面胶膜、填充物3者不同强度、填充区半径、填充物刚度等多种情况下接头的拉伸失效.计算结果表明:复合材料基体、界面胶膜、填充物3者的强度显著影响接头的承载能力与失效<span style=\"color:red\">模式</span>;随着填充区半径增大,结构承载能力也随之提高.试验结果验证了模拟结果.","authors":[{"authorName":"崔浩","id":"ba2b8874-2b49-4ccd-9f48-f334e0ac8bad","originalAuthorName":"崔浩"},{"authorName":"李玉龙","id":"21ebc0cb-1434-4a31-b322-4bb87188bcee","originalAuthorName":"李玉龙"},{"authorName":"刘元镛","id":"c5d40e03-7945-43f9-972d-5367438db79b","originalAuthorName":"刘元镛"},{"authorName":"郭嘉平","id":"aad818b2-d5b2-4af7-9228-23d2c012747c","originalAuthorName":"郭嘉平"},{"authorName":"许秋莲","id":"65093b0b-555c-46fa-ac6c-988e4c9d316d","originalAuthorName":"许秋莲"}],"doi":"","fpage":"161","id":"07efe867-ab5a-46c7-b202-5e7bf65b9151","issue":"2","journal":{"abbrevTitle":"FHCLXB","coverImgSrc":"journal/img/cover/FHCLXB.jpg","id":"26","issnPpub":"1000-3851","publisherId":"FHCLXB","title":"复合材料学报"},"keywords":[{"id":"2033ef14-9472-49c4-ac5f-84192cb9b4da","keyword":"层合板","originalKeyword":"层合板"},{"id":"f383d528-43d9-4fd9-8618-bcade9249717","keyword":"分层","originalKeyword":"分层"},{"id":"b08a12dd-288a-4830-b896-c0418f7ae4b1","keyword":"粘聚区模型","originalKeyword":"粘聚区模型"},{"id":"d68996cc-beeb-40ab-aef3-a1dbc9f91fe3","keyword":"<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>","originalKeyword":"混合模式"},{"id":"1bf78013-87d3-4e7d-a804-3ac51527e7b6","keyword":"随机裂纹","originalKeyword":"随机裂纹"}],"language":"zh","publisherId":"fhclxb201002027","title":"基于粘聚区模型的含填充区复合材料接头失效数值模拟","volume":"27","year":"2010"},{"abstractinfo":"近年来<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱以其独特的分离特性受到人们越来越多的关注.<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱的种类主要集中在反相/离子交换<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱(reversed-phase/ion-exchange mixed-mode chromatography,RPLC/IEX),亲水作用/离子交换<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱(hydrophilic interaction/ion-exchange mixed-mode chromatography,HILIC/IEX),反相/亲水作用<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱(reversed-phase/hydrophilic interaction mixed-mode chromatography,RPLC/HILIC)等<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>.两种或多种机理<span style=\"color:red\">混合</span>使用,往往在分离选择性和色谱峰形等方面能得到不同于单一<span style=\"color:red\">模式</span>操作所得到的效果,分离选择性以及色谱峰形等都能得到极大的改善与提高,这使得<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱渐渐进入研究者们的视野.<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱的研究多数集中在色谱填料的设计.<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱填料的应用主要针对生物样品的分离分析.该文综述了近年来<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱的研究及其应用进展,并展望了<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱的发展.","authors":[{"authorName":"董雪芳","id":"524458dd-41b6-4d76-ae76-c503d7dd164d","originalAuthorName":"董雪芳"},{"authorName":"蔡晓明","id":"54c7a60d-da1b-4b03-b5d2-06b44d56709c","originalAuthorName":"蔡晓明"},{"authorName":"沈爱金","id":"cbbe8a80-5064-45cb-bd5f-e895a901d3a7","originalAuthorName":"沈爱金"},{"authorName":"魏杰","id":"5548a78b-57f6-49c8-963c-1ccf1e3ec999","originalAuthorName":"魏杰"},{"authorName":"郭志谋","id":"bccb7151-8982-4ff3-b2d5-66618a6c1f1d","originalAuthorName":"郭志谋"},{"authorName":"梁鑫淼","id":"75c9488a-8894-469c-ba3e-a2cec6722359","originalAuthorName":"梁鑫淼"}],"doi":"10.3724/SP.J.1123.2012.12009","fpage":"297","id":"92b77324-f884-43d7-9f29-a3c8bb53ab31","issue":"4","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"bb1bbc63-2fe3-4d1f-a58e-8e2d9b7f8764","keyword":"高效液相色谱","originalKeyword":"高效液相色谱"},{"id":"39fdba35-5530-41b5-bcd9-415da62a4175","keyword":"<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱","originalKeyword":"混合模式色谱"},{"id":"ea9cb486-b61c-45dd-a4cd-1d11047eb453","keyword":"色谱填料","originalKeyword":"色谱填料"},{"id":"5f270958-e4ad-4697-90e9-098368d52dd8","keyword":"亲水作用/离子交换<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱","originalKeyword":"亲水作用/离子交换混合模式色谱"},{"id":"8f79bf81-5571-4f61-b62a-4f35e5a7eb9f","keyword":"反相/亲水作用<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱","originalKeyword":"反相/亲水作用混合模式色谱"},{"id":"908c3de5-796f-4a2c-a770-a4fe2b32aab3","keyword":"反相/离子交换<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱","originalKeyword":"反相/离子交换混合模式色谱"}],"language":"zh","publisherId":"sp201304003","title":"<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱分离材料的研究及其应用进展","volume":"31","year":"2013"},{"abstractinfo":"主要研究了压印接头的<span style=\"color:red\">混合</span>失效<span style=\"color:red\">模式</span>,给出<span style=\"color:red\">混合</span>失效相关概念,分析<span style=\"color:red\">混合</span>失效<span style=\"color:red\">模式</span>出现的情况和接头参数,得出其常出现在板材力学性能、流动性和所形成的接头参数较好的情况下,并以1420铝锂合金和TAl钛合金为倒比较得知,<span style=\"color:red\">混合</span>失效<span style=\"color:red\">模式</span>的承载能力和能量吸收值均为最大,在接头失效过程中兼具了颈部断裂和拉脱失效的特点并在承载能力和承载位移上更优.","authors":[{"authorName":"余童欣","id":"5ddca6d8-f496-40cc-b844-e56bd6f35415","originalAuthorName":"余童欣"},{"authorName":"何晓聪","id":"5ae297c0-3db4-4b8d-8c92-2e16495cb958","originalAuthorName":"何晓聪"},{"authorName":"高爱凤","id":"647b3dda-7128-4e9e-8656-4fc24715893c","originalAuthorName":"高爱凤"},{"authorName":"张越","id":"5548541c-4425-446b-bfcf-64e2a184f9eb","originalAuthorName":"张越"}],"doi":"10.3969/j.issn.1007-2330.2016.03.019","fpage":"82","id":"2d7c0a46-23b5-4660-9ea5-ce918849fd35","issue":"3","journal":{"abbrevTitle":"YHCLGY","coverImgSrc":"journal/img/cover/YHCLGY.jpg","id":"77","issnPpub":"1007-2330","publisherId":"YHCLGY","title":"宇航材料工艺   "},"keywords":[{"id":"9f442ecf-d670-49bd-b954-aa9e726993c6","keyword":"压印接头","originalKeyword":"压印接头"},{"id":"472f1576-610c-45e6-aafa-c27665030102","keyword":"<span style=\"color:red\">混合</span>失效<span style=\"color:red\">模式</span>","originalKeyword":"混合失效模式"},{"id":"01567fe4-fb52-4418-9860-29fd0ce8898b","keyword":"载荷-位移曲线","originalKeyword":"载荷-位移曲线"},{"id":"84147bcc-2872-427b-8ad9-e7120a1f24cb","keyword":"能量吸收","originalKeyword":"能量吸收"}],"language":"zh","publisherId":"yhclgy201603019","title":"压印接头<span style=\"color:red\">混合</span>失效<span style=\"color:red\">模式</span>静力学分析","volume":"46","year":"2016"},{"abstractinfo":"本文从模拟计算和实验分析的角度,对应用于投影显示的反射式<span style=\"color:red\">混合</span>排列向列液晶显示<span style=\"color:red\">模式</span>进行了研究,研究结果表明,这一显示<span style=\"color:red\">模式</span>可以实现常白显示,实验结果证明了理论模拟计算的正确性.此外,本文还从理论模拟计算的角度讨论了液晶盒厚误差对显示性能的影响.","authors":[{"authorName":"朱新羽","id":"28361532-90eb-492d-971c-b8f19ff90bed","originalAuthorName":"朱新羽"},{"authorName":"荆海","id":"1adf5e32-53ad-41ac-9829-f3417536e4fd","originalAuthorName":"荆海"},{"authorName":"凌志华","id":"87b0d4ec-6fb5-49a6-97c8-c6bb597d2c6c","originalAuthorName":"凌志华"},{"authorName":"黄锡珉","id":"c3c001b2-dc5c-4606-877b-822e274b3f8a","originalAuthorName":"黄锡珉"}],"doi":"10.3969/j.issn.1007-5461.2001.z1.002","fpage":"6","id":"d095f2bb-167a-4a31-9f54-382eab4916f0","issue":"z1","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报   "},"keywords":[{"id":"c9c229b8-e42a-41b0-86f8-d2af5a0a540e","keyword":"反射式","originalKeyword":"反射式"},{"id":"6d9dcef9-3f58-408a-a5b4-eec80aadafae","keyword":"<span style=\"color:red\">混合</span>排列向列<span style=\"color:red\">模式</span>","originalKeyword":"混合排列向列模式"},{"id":"24ddc1c9-9fb9-432d-a0f0-c092b6f7b585","keyword":"投影显示","originalKeyword":"投影显示"}],"language":"zh","publisherId":"lzdzxb2001z1002","title":"反射式<span style=\"color:red\">混合</span>排列向列液晶<span style=\"color:red\">模式</span>在投影显示中的应用","volume":"18","year":"2001"},{"abstractinfo":"对燃料一空气非预混、完全预混与部分预混三种<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>下的无焰燃烧状态进行了实验和数值模拟研究。采用了详细化学反应机理和已被实验验证的算法进行数值模拟。研究发现三种<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>下无焰燃烧状态的区别是由初始反应物的射流总动量的不同决定的。当炉内大尺度流场结构类似时，初始反应物射流总动量越大，炉内烟气循环越剧烈，温度分布越均匀，峰值温度越低，NOx越低。数值模拟发现OH自由基峰值位置与温度峰值位置基本重合；而H2CO峰值位置主要分布在主反应区中的低温区域。实验测量了当量比对无焰燃烧炉内温度和NOx排放值的影响，并发现部分实验还发现，部分预混、非预混和完全预混无焰燃烧时，NO占NOx总量的百分比分别为94．3％、91．9％和76，9％。","authors":[{"authorName":"李鹏飞","id":"cdf5e2dc-0499-4ad6-8a69-e5831f1fa7a3","originalAuthorName":"李鹏飞"},{"authorName":"王飞飞","id":"7d6aa72a-fff6-436c-85e6-ead1e9de36d0","originalAuthorName":"王飞飞"},{"authorName":"米建春","id":"8b277c0b-8962-4194-957e-228dd11fa384","originalAuthorName":"米建春"},{"authorName":"梅振锋","id":"3b85d383-2674-4408-a480-1e198c0f90e8","originalAuthorName":"梅振锋"}],"doi":"","fpage":"1592","id":"3bf797a3-2b79-4733-8e0f-2796bacf947f","issue":"9","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":"afb2d2be-7165-4715-80c0-63ae7232b959","keyword":"无焰燃烧","originalKeyword":"无焰燃烧"},{"id":"3d9a19ac-2fcf-486b-8914-bf1bf1323a09","keyword":"高温空气燃烧","originalKeyword":"高温空气燃烧"},{"id":"6e78e46b-be43-46cd-984f-4a8a55a290b6","keyword":"预混","originalKeyword":"预混"},{"id":"9b935fce-8c0a-45da-b5a0-cc46c186fe97","keyword":"NOx","originalKeyword":"NOx"},{"id":"689c3e6d-7087-4b87-8d3d-8df0df164c23","keyword":"当量比","originalKeyword":"当量比"}],"language":"zh","publisherId":"gcrwlxb201109041","title":"当量比和初始<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>对无焰燃烧的影响","volume":"32","year":"2011"},{"abstractinfo":"采用“点击化学”的合成方法制备了一种<span style=\"color:red\">混合</span>配体的辛基-羧基共同键合硅胶（OCS）材料，经元素分析和红外光谱表征，证明了辛基和羧基官能团均已成功键合到硅胶表面。将其作为<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>反相弱阳离子交换（ RP / WCX）的固定相填料，以3种同系物阳离子表面活性剂作为探针分子，定量研究了该固定相的<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>保留机理，考察了溶质保留因子与盐浓度和溶质亚甲基数目的关系，验证了<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>固定相的单点和两点保留机理的数学模型，并进一步将其应用于一系列标准碱性<span style=\"color:red\">混合</span>物的分离。结果表明：两点保留机理更加符合实验的结果；根据<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>两点保留机理的数学方程，可以得到单一的疏水或离子交换作用力对总保留的影响，对<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱的实际分离应用提供了有价值的参考。本文建立了反相弱阳离子交换<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span> OCS 固定相的保留机理的定量模型，并证明了该固定相在碱性化合物的分离中具有很大的应用前景。","authors":[{"authorName":"彭西甜","id":"48b79417-7576-4885-a0c6-3c5024f36a60","originalAuthorName":"彭西甜"},{"authorName":"冯钰锜","id":"a4e2b56e-5cfb-4941-bd63-9c0cad4efda3","originalAuthorName":"冯钰锜"}],"doi":"10.3724/SP.J.1123.2013.10038","fpage":"381","id":"3f434b1a-653c-4d55-9fb0-d0f073beb87f","issue":"4","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"71d5a0e6-51f3-4c31-8312-0aa1fcd368d5","keyword":"反相弱阳离子交换色谱固定相","originalKeyword":"反相弱阳离子交换色谱固定相"},{"id":"4e15b4db-7650-4613-bd26-6903e56871c0","keyword":"<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>色谱","originalKeyword":"混合模式色谱"},{"id":"66f0d906-bd37-49fa-b6e8-1b6c8de5d3b7","keyword":"保留机理","originalKeyword":"保留机理"},{"id":"549d9c84-ff68-4ad5-9b16-a7305bf0eabb","keyword":"数学模型","originalKeyword":"数学模型"},{"id":"45f6c9fd-3af8-41f1-a178-4c17ffbeb04a","keyword":"色谱分离","originalKeyword":"色谱分离"}],"language":"zh","publisherId":"sp201404010","title":"一种<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>反相弱阳离子交换色谱填料的制备及其保留机理","volume":"","year":"2014"},{"abstractinfo":"提出了一种采用垂直排列<span style=\"color:red\">模式</span>与<span style=\"color:red\">混合</span>排列<span style=\"color:red\">模式</span>相搭配的单倍盒间距的半透半反式液晶显示<span style=\"color:red\">模式</span>,液晶材料为负性.基于液晶分子的初始取向,反射区为<span style=\"color:red\">混合</span>排列<span style=\"color:red\">模式</span>,其关态和开态有效相位延迟在x/2和,x之间变化;透射区为平行排列<span style=\"color:red\">模式</span>,其关态和开态有效相位延迟在0和π之间变化.采用半波延迟膜补偿的方法可以使器件工作于常黑<span style=\"color:red\">模式</span>.对于透射区下层偏振片吸收轴和上层偏振片吸收轴分别平行和垂直放置时,下层的半波延迟膜光轴的方位角不同,导致光谱响应曲线和视角锥对比度分布不同.用扩展琼斯矩阵方法模拟分析了这两种器件结构的电光响应及光谱响应特性以及视角锥对比度分布特性.","authors":[{"authorName":"崔宏青","id":"dd29b35a-f223-4b72-8a92-8c0e07b8c68c","originalAuthorName":"崔宏青"},{"authorName":"冯亚云","id":"03ba3625-df4e-4a15-9a54-ca9b08125fdf","originalAuthorName":"冯亚云"},{"authorName":"陈冬静","id":"7f8ee655-eb25-44b4-9a8f-c62f2dfe2296","originalAuthorName":"陈冬静"},{"authorName":"任娇燕","id":"51084119-3e49-4be8-bc0d-f6c86484df1e","originalAuthorName":"任娇燕"},{"authorName":"凌志华","id":"4aa0971f-3466-4b7e-908d-aa506931c484","originalAuthorName":"凌志华"}],"doi":"10.3969/j.issn.1007-2780.2008.03.005","fpage":"281","id":"0b189273-3fc7-499a-95be-f3d1f3b010a1","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":"d0966ccd-429b-49e1-b2b7-79bc58911248","keyword":"半透半反式液晶显示","originalKeyword":"半透半反式液晶显示"},{"id":"e29c59a8-037e-4b5b-b8fa-0feaa0325571","keyword":"<span style=\"color:red\">混合</span>排列","originalKeyword":"混合排列"},{"id":"b6095f86-58d9-4a1a-888c-fae121a599a0","keyword":"垂直排列","originalKeyword":"垂直排列"}],"language":"zh","publisherId":"yjyxs200803005","title":"单倍盒厚间距垂直排列和<span style=\"color:red\">混合</span>排列半透半反式液晶显示<span style=\"color:red\">模式</span>","volume":"23","year":"2008"},{"abstractinfo":"90°<span style=\"color:red\">混合</span>扭曲向列相液晶(MTN)<span style=\"color:red\">模式</span>因其良好的关态色散特性、低驱动电压而被应用于小型或者微型硅基液晶显示器(LCOS).针对MTN<span style=\"color:red\">模式</span>,模拟研究了液晶弹性常数、介电各向异性、预倾角以及盒厚变化对显示效果的影响,研究结果为硅基液晶显示器的开发提供了一定的理论依据.","authors":[{"authorName":"姜丽","id":"099db3c9-95aa-4574-a23a-5be393dbe419","originalAuthorName":"姜丽"},{"authorName":"范伟","id":"010077bb-f89b-4d39-9f22-e049a591b547","originalAuthorName":"范伟"},{"authorName":"代永平","id":"1c0a0862-6fcc-4aee-ade6-30aff0da84e0","originalAuthorName":"代永平"},{"authorName":"张志东","id":"2e6ff494-34a2-4693-b8bc-91bffd0a4138","originalAuthorName":"张志东"}],"doi":"10.3788/YJYXS20112603.0311","fpage":"311","id":"8b3749db-0246-4da6-be88-bcd0756b5ed0","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":"fba37391-2a7f-4448-8171-eebe67d77114","keyword":"硅基液晶显示","originalKeyword":"硅基液晶显示"},{"id":"6077590b-965a-4d33-aebe-51c3935e6a88","keyword":"<span style=\"color:red\">混合</span>扭曲向列相","originalKeyword":"混合扭曲向列相"},{"id":"e541ded3-6e63-4dd0-becc-ecda72f7ae58","keyword":"模拟","originalKeyword":"模拟"}],"language":"zh","publisherId":"yjyxs201103008","title":"<span style=\"color:red\">混合</span>扭曲向列相<span style=\"color:red\">模式</span>的液晶盒参数对硅基液晶显示器的影响","volume":"26","year":"2011"},{"abstractinfo":"随着信息技术的飞速发展,基于信息技术的高效的生产信息管理系统,将实现黄金矿山生产业务管理计算机化,同时,为辅助决策提供基础数据.文中在对黄金矿山生产信息管理系统进行需求分析的基础上,开发了基于C/S和B/S<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>的黄金矿山生产信息管理系统.该系统以山东黄金集团青岛有限公司鑫汇金矿为实例,进行了具体的实现与应用.","authors":[{"authorName":"徐波","id":"f27b6458-1e85-4af0-88f6-82e66aebbcc0","originalAuthorName":"徐波"},{"authorName":"胡乃联","id":"6c8d2665-d889-425c-9231-1df0d2458db4","originalAuthorName":"胡乃联"},{"authorName":"张培科","id":"e36238dd-e377-460d-adc9-0e669ea2d57f","originalAuthorName":"张培科"}],"doi":"10.3969/j.issn.1001-1277.2008.06.008","fpage":"36","id":"46648f8f-1c16-4d4b-a059-22db1a7184c4","issue":"6","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"6300b02a-8040-485f-80a3-45894a5abb29","keyword":"黄金矿山","originalKeyword":"黄金矿山"},{"id":"ea19de57-63e1-4cb6-8720-dee0cc7766d7","keyword":"C/S和B/S<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>","originalKeyword":"C/S和B/S混合模式"},{"id":"1d40378f-0bf5-4e1c-9f6a-c10c6fe9eed6","keyword":"生产信息管理","originalKeyword":"生产信息管理"}],"language":"zh","publisherId":"huangj200806008","title":"基于C/S和B/S<span style=\"color:red\">混合</span><span style=\"color:red\">模式</span>的黄金矿山生产信息管理系统","volume":"29","year":"2008"}],"totalpage":1319,"totalrecord":13187}