{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用抗拉强度作为键合质量评价的指标,对硅-玻璃阳极键合的键合温度、冷却速度、退火温度和时间等四个参数的三个位级下的键合效果进行了分析.通过采用正交试验分析法,将81组试验减少为9组并进行了试验.采用自制的抗拉强度测试机对强度进行了测试,结果发现,阳极键合后的冷却速度对强度的影响最为显著,冷却速度越低,强度越高.最后对断裂面进行了SEM分析并对试验结果进行了讨论.","authors":[{"authorName":"陈明祥","id":"faefd2af-1833-4e85-962a-b052108104d3","originalAuthorName":"陈明祥"},{"authorName":"易新建","id":"123c6d9b-76e3-4c74-9658-886b41c6d379","originalAuthorName":"易新建"},{"authorName":"","id":"c50e7e5b-7999-40d8-a054-6dfa796f21d3","originalAuthorName":"甘志银"},{"authorName":"刘胜","id":"97fe9abb-d42f-4ce3-970a-a6e86bb59a4a","originalAuthorName":"刘胜"}],"doi":"10.3969/j.issn.1007-4252.2005.03.026","fpage":"381","id":"79e88b49-e7d1-4a47-a1c7-3069484e4b60","issue":"3","journal":{"abbrevTitle":"GNCLYQJXB","coverImgSrc":"journal/img/cover/GNCLYQJXB.jpg","id":"34","issnPpub":"1007-4252","publisherId":"GNCLYQJXB","title":"功能材料与器件学报 "},"keywords":[{"id":"cbf96f2a-9df7-49f8-9491-57abd84b86f0","keyword":"阳极键合","originalKeyword":"阳极键合"},{"id":"3e13f4fc-fba1-440c-ae92-378b1aa0c83a","keyword":"圆片键合","originalKeyword":"圆片键合"},{"id":"03e631a9-35c7-42ac-96b6-43db463c7d17","keyword":"微机电系统(MEMS)","originalKeyword":"微机电系统(MEMS)"},{"id":"dbd1a5df-cffd-4b87-a53b-ea5f9185a189","keyword":"强度","originalKeyword":"强度"},{"id":"446ea2fc-87c1-4d78-9ccf-dfcd6e65bab4","keyword":"正交试验法","originalKeyword":"正交试验法"}],"language":"zh","publisherId":"gnclyqjxb200503026","title":"基于正交试验分析的阳极键合强度研究","volume":"11","year":"2005"},{"abstractinfo":"对一种高功率LED散热用封闭微喷射流系统开展了初步的实验测试,测试结果和简单的数学分析表明实验用微喷系统有较大的改进空间.为了改进该系统,利用数值模拟开展微喷结构优化.首先将模拟结果与实验结果进行比较,证明了该模拟模型的可行性.然后通过该数值模型对包括实验用微喷结构在内的二种结构形式的微喷系统开展了模拟分析,寻找到一种较为合理的散热系统结构形式.结果表明:采用流体单进双出的结构形式可使得射流更均匀,与现有方式相比,该冷却系统作用下的芯片最高温度可降低23 K之多.","authors":[{"authorName":"罗小兵","id":"7187bf7b-2620-4b0c-8e48-8e3f7ea53131","originalAuthorName":"罗小兵"},{"authorName":"杨江辉","id":"91143a62-e6e0-4039-a8cd-91e7115ca5b6","originalAuthorName":"杨江辉"},{"authorName":"","id":"51d8e024-a515-43cd-affb-d250d83d319a","originalAuthorName":"甘志银"},{"authorName":"刘胜","id":"ac1a044e-afcc-484c-8a34-46f29cfbc0ca","originalAuthorName":"刘胜"}],"doi":"","fpage":"1909","id":"e88dd96e-61a0-4039-98e0-71c8b1f42c26","issue":"11","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":"2d667995-68fd-434a-ba54-99bd29a6baab","keyword":"高功率LED","originalKeyword":"高功率LED"},{"id":"c3cc9a83-08d2-4c01-8c8f-d950c0727d56","keyword":"微喷射流","originalKeyword":"微喷射流"},{"id":"00316962-a6c9-4f0c-8cee-2594d6793010","keyword":"热分析","originalKeyword":"热分析"},{"id":"6b98b705-643e-49b6-b6e6-eb0acfc58e9d","keyword":"结构优化","originalKeyword":"结构优化"}],"language":"zh","publisherId":"gcrwlxb200811027","title":"高功率LED用微喷冷却系统的分析和优化","volume":"29","year":"2008"},{"abstractinfo":"应用有限元方法对领结型和椭圆型保偏光纤的热应力双折射特性和模式双折射进行了分析,给出了这两种保偏光纤的应力和双折射分布规律.对领结型保偏光纤,研究了纤芯的双折射和模式双折射随着应力区离纤芯距离的变化规律;对椭圆型保偏光纤,研究了纤芯的应力双折射和模式双折射随包层椭圆度的变化规律;分析了光纤应力区结构对纤芯双折射大小和均匀性的影响,并将应力诱导双折射与模式理论计算结果进行了比较.","authors":[{"authorName":"关荣锋","id":"452f291d-61a2-4971-b247-5098450241a1","originalAuthorName":"关荣锋"},{"authorName":"李占涛","id":"c33417dc-9ebb-472d-8e47-121dfe8d6cd4","originalAuthorName":"李占涛"},{"authorName":"","id":"0cca0082-cc33-4dc2-ab97-103ad1261a51","originalAuthorName":"甘志银"},{"authorName":"黄德修","id":"3a4ccd2b-6091-4f61-971a-373eb123f693","originalAuthorName":"黄德修"},{"authorName":"刘胜","id":"0772357d-b23f-4d1b-a015-f7d10343c20f","originalAuthorName":"刘胜"}],"doi":"10.3969/j.issn.1007-5461.2005.02.029","fpage":"277","id":"6ffe8656-ce37-4b7d-890b-7b6ed83f9801","issue":"2","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":"c5b19b46-4038-4ed7-8f58-14e91770d571","keyword":"光纤光学","originalKeyword":"光纤光学"},{"id":"ece01989-0164-46d6-a423-b5ae18695e62","keyword":"保偏光纤","originalKeyword":"保偏光纤"},{"id":"75f8742b-e677-491a-8bb0-64ef147e758d","keyword":"有限元方法","originalKeyword":"有限元方法"},{"id":"8c6064b9-c1ec-4514-958e-d1581366f094","keyword":"应力诱导双折射","originalKeyword":"应力诱导双折射"},{"id":"d39c0357-17a8-4040-bb94-4a84eaae43b3","keyword":"模式分析","originalKeyword":"模式分析"}],"language":"zh","publisherId":"lzdzxb200502029","title":"领结型和椭圆型保偏光纤的应力和模式分析","volume":"22","year":"2005"},{"abstractinfo":"选用垂直于其表面的射频磁场对镀金膜的硅片进行了感应加热,由于磁场对材料加热具有选择性,感应热量首先作用于硅片上的金膜内,硅片先被传导加热到一定温度,然后被感应加热.理论上分析了该方法的可行性,初步试验结果表明,虽然金膜厚度低于感应趋肤深度,但在没有应用感应加热基座的情况下,几秒钟内就形成了金硅共晶相.另外,升温速度快,有效减少了加热过程中金对硅的扩散影响,该方法可广泛用于微系统封装中的圆片键合.","authors":[{"authorName":"陈明祥","id":"c0aa4bdf-b6db-4d30-8b41-254c7a2dbec1","originalAuthorName":"陈明祥"},{"authorName":"","id":"2094c0d9-0758-4807-920b-58a03805fb01","originalAuthorName":"甘志银"},{"authorName":"刘胜","id":"42ccf734-a02b-4023-9d59-00b365c2b7ab","originalAuthorName":"刘胜"}],"doi":"10.3969/j.issn.1007-4252.2006.06.003","fpage":"479","id":"c172ce1c-d1be-4659-a582-9115128e652e","issue":"6","journal":{"abbrevTitle":"GNCLYQJXB","coverImgSrc":"journal/img/cover/GNCLYQJXB.jpg","id":"34","issnPpub":"1007-4252","publisherId":"GNCLYQJXB","title":"功能材料与器件学报 "},"keywords":[{"id":"24f45ec9-f366-48aa-bf09-53a5d7c7d1df","keyword":"圆片键合","originalKeyword":"圆片键合"},{"id":"5d349218-dd23-4b44-a271-ff34a99400d0","keyword":"感应加热","originalKeyword":"感应加热"},{"id":"f8db3e22-97a4-4f79-8023-08800c99714b","keyword":"金-硅共晶","originalKeyword":"金-硅共晶"},{"id":"611084cb-3060-45a3-8975-e79916f3ce0a","keyword":"微机电系统(MEMS)封装","originalKeyword":"微机电系统(MEMS)封装"}],"language":"zh","publisherId":"gnclyqjxb200606003","title":"感应加热硅衬底上的金膜用于圆片键合","volume":"12","year":"2006"},{"abstractinfo":"介绍了魔芋葡聚糖的结构及理化性质,综述了魔芋葡聚糖化学改性的概况及新进展,重点评述了魔芋葡聚糖及其衍生物在生物医用材料方面的应用,最后展望了其发展前景.","authors":[{"authorName":"许东颖","id":"7bf749ee-684a-4dfc-86d6-5c8b6522edcc","originalAuthorName":"许东颖"},{"authorName":"盛家荣","id":"00e4a35d-095f-4bd5-a1f9-436c2cb16be0","originalAuthorName":"盛家荣"},{"authorName":"李光吉","id":"6c8c8f0b-7165-441a-b729-e15aacab0789","originalAuthorName":"李光吉"}],"doi":"","fpage":"47","id":"4a4f2f1e-c2ec-47e5-b08f-da49ab14a941","issue":"11","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"eede8617-24b0-4ff1-b480-3a7e46f5a7f1","keyword":"魔芋葡聚糖","originalKeyword":"魔芋葡甘聚糖"},{"id":"01f84e84-abed-448f-914f-7f7617ec2098","keyword":"改性","originalKeyword":"改性"},{"id":"16c9665b-0860-4251-bbd3-23c72be70217","keyword":"生物材料","originalKeyword":"生物材料"},{"id":"e60f27ea-4b96-429f-8124-ec141a014bfe","keyword":"应用","originalKeyword":"应用"}],"language":"zh","publisherId":"cldb200811011","title":"魔芋葡聚糖的改性及其在生物材料领域的应用概况","volume":"22","year":"2008"},{"abstractinfo":"采用机械振动干法研磨在碱性条件下对魔芋葡聚糖进行了机械力化学脱乙酰基的改性研究,并对经过改性的魔芋葡聚糖进行了红外光谱、颗粒学、流变学、吸水性以及热力学性质等方面的表征和分析.结果说明,通过机械力化学改性处理可以有效脱去魔芋葡聚糖中的乙酰基,乙酰基的脱除率随着处理时间的延长而提高;机械力化学改性可以降低魔芋葡聚糖水溶胶的触变性,提高魔芋葡聚糖的吸水性;脱乙酰基的魔芋葡聚糖具有较好的热稳定性.","authors":[{"authorName":"贺珂","id":"772d4c97-f0fc-4130-bcea-b8552d2eb807","originalAuthorName":"贺珂"},{"authorName":"潘东","id":"3efea320-8d06-4974-b448-88587ed9cce2","originalAuthorName":"潘志东"},{"authorName":"王燕民","id":"164a1292-5a53-4ffc-9229-c070c39cf498","originalAuthorName":"王燕民"}],"doi":"","fpage":"134","id":"6c99d0a1-44dc-4d6c-b2e1-f2bf8b0a89ee","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":"21e78922-ed1e-45c3-9db7-3c9e3e23cb62","keyword":"魔芋葡聚糖","originalKeyword":"魔芋葡甘聚糖"},{"id":"84d06326-c655-40d6-8dfa-ddbdbe7b80d8","keyword":"脱乙酰基","originalKeyword":"脱乙酰基"},{"id":"4a324467-c1dc-4cc8-a0c5-e4699b307f61","keyword":"机械力化学改性","originalKeyword":"机械力化学改性"}],"language":"zh","publisherId":"gfzclkxygc200902038","title":"魔芋葡聚糖脱除乙酰基的机械力化学效应","volume":"25","year":"2009"},{"abstractinfo":"给水厂残泥(WTR)已被证实为安全废弃物,掺杂WTR能显著增强土壤对有机磷农药草膦的吸附容量与稳定性,与此同时,WTR的掺杂可能会进一步影响土壤中草膦的降解行为.本研究通过单次与重复施加草膦实验,从土壤中草膦及其代谢产物的残留特征、土壤酶活性和总菌丰度等3个方面,对比分析了WTR掺杂对土壤中草膦降解的影响.实验结果表明,单次施加草膦条件下,掺杂WTR不会影响草膦的降解,反而能降低草膦在降解过程中的迁移能力,缓解高浓度草膦对土壤磷酸酶和脱氢酶的抑制作用,提高土壤微生物丰度;短时间(21 d)内重复施加草膦会导致土壤中草膦与AMPA的积累,同时,掺杂WTR,特别是当掺杂量≥5%时,将造成草膦积累量进一步增加,但其在WTR土壤具有较高稳定性,二次释放风险小.总体而言,与短时间内频繁使用大量草膦的农业区相比,在施用草膦时间间隔较长的农业区,掺杂WTR能大大降低草膦在降解过程中由土壤向水体迁移的风险.","authors":[{"authorName":"赵媛媛","id":"a640f234-6b99-4bae-aedc-055118089b4a","originalAuthorName":"赵媛媛"},{"authorName":"裴元生","id":"12dd882f-faab-4113-94a8-033b5523dc16","originalAuthorName":"裴元生"},{"authorName":"向仁军","id":"d55d6ef2-d8de-47f8-8355-67dfc63ac08f","originalAuthorName":"向仁军"},{"authorName":"成应向","id":"090c7813-2040-4417-983c-e335b21896fa","originalAuthorName":"成应向"}],"doi":"10.7524/j.issn.0254-6108.2016.10.2016021602","fpage":"2079","id":"ef87a245-76fa-4414-af2c-e9b133443713","issue":"10","journal":{"abbrevTitle":"HJHX","coverImgSrc":"journal/img/cover/HJHX.jpg","id":"43","issnPpub":"0254-6108","publisherId":"HJHX","title":"环境化学 "},"keywords":[{"id":"c7b436f6-828c-4a6f-80e9-19f49ae5b9f0","keyword":"给水厂残泥","originalKeyword":"给水厂残泥"},{"id":"f43d007a-81c6-4ad4-be41-fd6f3b6cb517","keyword":"草膦","originalKeyword":"草甘膦"},{"id":"7d5eeaaf-9618-44e5-963e-f3ab84572927","keyword":"降解","originalKeyword":"降解"},{"id":"d838b2b3-5b45-4b7f-b224-20001186bb3e","keyword":"土壤酶活性","originalKeyword":"土壤酶活性"},{"id":"e9428c86-0153-4b2b-bbe3-2f6ed51f25e1","keyword":"微生物丰度","originalKeyword":"微生物丰度"}],"language":"zh","publisherId":"hjhx201610012","title":"施用给水厂残泥对土壤中草膦降解的影响","volume":"35","year":"2016"},{"abstractinfo":"采用乙醇研磨法和水溶醇沉法制备魔芋葡聚糖,研究了两种方法对魔芋葡聚糖纯度、表现黏度、黏均分子量及溶解性能的影响,结果表明,水溶醇沉法制备的魔芋葡聚糖,其纯度、表现黏度、黏均分子量与乙醇研磨法基本相同,但溶解速率差异显著,从26.4 mg/mL·h下降到10 mg/mL·h.用红外光谱,X射线衍射,扫描电镜等方法表征了魔芋葡聚糖的结构,结果表明,乙醇研磨法对葡聚糖形态及微观结构几乎没有影响,能保留魔芋葡聚糖固有的性能,而水溶乙醇沉淀法由于使其分子链发生伸展、重排、卷曲、相互缠绕交织等,其表面形态和聚集态结构发生了变化,从而魔芋葡聚糖的溶解速率明显降低.","authors":[{"authorName":"马建龙","id":"650f1dcd-8cd3-4edf-8128-e2cbdb6f46cb","originalAuthorName":"马建龙"},{"authorName":"戴荣继","id":"7ec4ec41-333e-4607-95d3-17ac6fdcf49e","originalAuthorName":"戴荣继"},{"authorName":"潘琳","id":"d924e86f-44af-492e-a518-74d2a981bd02","originalAuthorName":"潘琳"},{"authorName":"禹玉洪","id":"17706e8f-953a-440c-9ba5-cc26087f2700","originalAuthorName":"禹玉洪"},{"authorName":"孟薇薇","id":"6df381c3-c44d-400a-808b-5264c74deb9d","originalAuthorName":"孟薇薇"},{"authorName":"纪媛媛","id":"18430849-0dec-4bbd-b5a6-4e9e88c4e566","originalAuthorName":"纪媛媛"},{"authorName":"邓玉林","id":"6513f172-99d2-45df-bd7b-faf7d038749d","originalAuthorName":"邓玉林"}],"doi":"","fpage":"52","id":"8e17fd4e-a655-4a6d-bd24-32701e7f8295","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":"cac8d517-ab0f-4ebb-8b91-1fabb80e9aae","keyword":"魔芋","originalKeyword":"魔芋"},{"id":"d84873c8-9c27-40d8-ac3a-52fd8c0eaeef","keyword":"魔芋葡聚糖","originalKeyword":"魔芋葡甘聚糖"},{"id":"675f7e19-1178-489b-9f06-4e0dacdae3bd","keyword":"高分子杂多糖","originalKeyword":"高分子杂多糖"}],"language":"zh","publisherId":"gfzclkxygc201011014","title":"制备方法对魔芋葡聚糖溶解速率的影响","volume":"26","year":"2010"},{"abstractinfo":"目的:合成增膦,研究增膦及其复配液缓蚀性能。方法以亚磷酸、甲醛、甘氨酸为原料,在酸性条件下,合成增膦。通过塔菲尔曲线法和电化学阻抗谱,测试酸性条件下LY12硬铝在增膦溶液中的缓蚀性能,并与同类有机膦系缓蚀剂氨基三甲叉膦酸( ATMP)进行比较。同时,在碱性条件下,测试LY12硬铝在增膦复配液中的缓蚀性能。结果当pH=1,增膦缓蚀液质量分数为0.5%时,缓蚀率可达90%。在相同酸性条件及缓蚀剂含量下,增膦缓蚀效果较ATMP好。在碱性条件下,增膦单独使用缓蚀效果不佳,与三乙醇胺复配后缓蚀效果较好。当增膦与三乙醇胺复配含量为0.5%(质量分数)三乙醇胺+0.4%(质量分数)增膦时,LY12硬铝在pH=8.7体系中的缓蚀率为65.5%。结论增膦单独使用,在酸性条件下有很好的缓蚀效果;与三乙醇胺复配后,在碱性条件下也有较好的缓蚀效果。","authors":[{"authorName":"陈小非","id":"9b44af44-24a1-4be5-bb33-1c3d9fba494d","originalAuthorName":"陈小非"},{"authorName":"毛礼娜","id":"f99da64b-57ab-463f-90b1-72b13ea46c91","originalAuthorName":"毛礼娜"},{"authorName":"郭康","id":"bd6fd6b9-76d6-4b22-9689-7201e3bd67b5","originalAuthorName":"郭康"},{"authorName":"殷超凡","id":"0f4b4a72-9fba-40c1-982e-d0296248c01e","originalAuthorName":"殷超凡"},{"authorName":"陈启明","id":"2514c37f-affb-42e3-8af1-7552a9a520db","originalAuthorName":"陈启明"}],"doi":"10.16490/j.cnki.issn.1001-3660.2015.06.016","fpage":"82","id":"4b867696-3e5a-4e48-9869-dc67c018428e","issue":"6","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 "},"keywords":[{"id":"9815da3c-178e-4065-8d67-01f27cd19fb8","keyword":"增膦","originalKeyword":"增甘膦"},{"id":"67dc588e-b2d2-43e7-ab4e-693e61fc25a5","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"},{"id":"5178d2c3-8da4-4975-a3a1-cf682658fa66","keyword":"极化曲线","originalKeyword":"极化曲线"},{"id":"7da96562-e3b9-4caf-a82f-1f9c408a63cd","keyword":"电化学阻抗谱","originalKeyword":"电化学阻抗谱"},{"id":"213331ef-0d5b-4744-ac90-841552d2d8b7","keyword":"复配","originalKeyword":"复配"}],"language":"zh","publisherId":"bmjs201506016","title":"增膦及复配液缓蚀性能研究","volume":"","year":"2015"},{"abstractinfo":"为进一步探索和研制高性能生物材料,以生物大分子葡聚糖为原材料,利用物理共混法制成复合高分子生物材料,探讨了温度、时间、电解质各因素对材料稳定性的影响.并通过DSC等分析手段从材料的动态粘弹性、相容性研究了复合材料的稳定机理.结果表明,生物大分子经共混后产生交联反应形成强度、韧弹性、稳定性等方面性能优良的复合生物材料,并初步提出生物大分子复合后形成了互穿型与内包型网络结构模式.","authors":[{"authorName":"庞杰","id":"1ab3f403-d3c2-4eec-860b-f5ad65b09556","originalAuthorName":"庞杰"},{"authorName":"张甫生","id":"12f8a1c0-3a25-492e-8b9c-6591bd149c14","originalAuthorName":"张甫生"},{"authorName":"康彬彬","id":"a74f8db0-4bd5-45c9-8a96-bada7f888196","originalAuthorName":"康彬彬"},{"authorName":"田世平","id":"f73263e2-94d8-40b8-9971-a0e38cb77d9f","originalAuthorName":"田世平"}],"doi":"","fpage":"216","id":"155f0b29-a5a1-461e-9db4-f319dc5e81c2","issue":"6","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":"6ddff9db-63e6-471b-9c30-d0dc39ed7a23","keyword":"葡聚糖","originalKeyword":"葡甘聚糖"},{"id":"ec4c3f1a-c9f3-40a9-b623-3c1637d9ab82","keyword":"复合生物材料","originalKeyword":"复合生物材料"},{"id":"8229f008-963a-45f2-8afd-64a0d9d89e9b","keyword":"物理共混","originalKeyword":"物理共混"}],"language":"zh","publisherId":"gfzclkxygc200306056","title":"葡聚糖复合生物材料的研究","volume":"19","year":"2003"}],"totalpage":230,"totalrecord":2293}