{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"本文对国内外粘弹性材料动态力学性能表征研究进行了综述,就如何获得声频范围(特别是在静压力条件下)粘弹性材料的动态力学性能参数进行了总结,并对粘弹性材料动态力学性能表征的发展进行了展望.","authors":[{"authorName":"王兵","id":"f1235e90-5a55-4822-97a1-1dac266a4422","originalAuthorName":"王兵"},{"authorName":"用兵","id":"19fbd37a-a043-4187-91bb-50e24219125a","originalAuthorName":"张用兵"},{"authorName":"林新志","id":"94eac71a-3987-4155-b3ec-65e456142017","originalAuthorName":"林新志"},{"authorName":"陈磊","id":"031cef52-53c2-4a12-a937-b37baefaae4d","originalAuthorName":"陈磊"}],"doi":"10.3969/j.issn.1003-1545.2009.03.019","fpage":"77","id":"1026d9bd-7b40-4336-93b7-0a4e8e8ccf69","issue":"3","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"590c3ea0-5960-4e7f-b530-9b46c4e9a0ed","keyword":"动态力学性能","originalKeyword":"动态力学性能"},{"id":"6925bce0-b265-4e58-a100-30359ae7c1ca","keyword":"高频","originalKeyword":"高频"},{"id":"8dc587c9-ed92-4601-9e57-cdb88f608afb","keyword":"粘弹性","originalKeyword":"粘弹性"},{"id":"a5559429-04d0-4fdd-aeed-262702ea225f","keyword":"激光多普勒振动测试仪","originalKeyword":"激光多普勒振动测试仪"}],"language":"zh","publisherId":"clkfyyy200903019","title":"粘弹性材料的动态力学测试分析技术研究进展","volume":"24","year":"2009"},{"abstractinfo":"采用Matlab编程,利用经典梁理论和夹层板理论构建了弹性模量、压缩强度等材料参数与泡沫夹芯复合材料弯曲刚度和压缩强度的关系,利用传递矩阵法构建了纵波声速、衰减系数、损耗因子等材料参数与泡沫夹芯复合材料水中插入损失的关系.在此基础上,利用NSGA-Ⅱ多目标优化算法开展了力学与水声综合设计,初步获得了实用的泡沫夹芯复合材料力学与水声性能综合设计方法.","authors":[{"authorName":"马志超","id":"eaac9bc1-38b4-400b-bae6-8878a40b1c9b","originalAuthorName":"马志超"},{"authorName":"用兵","id":"4be8d857-8c8e-4138-a64c-3e6916224225","originalAuthorName":"张用兵"},{"authorName":"郭万涛","id":"0a1f5026-d7b4-420f-aedd-0e95b5e0920b","originalAuthorName":"郭万涛"},{"authorName":"鲁先孝","id":"8f6f5289-d55a-4b7f-8529-4e7893362f84","originalAuthorName":"鲁先孝"}],"doi":"","fpage":"55","id":"40807216-7d73-42bd-8253-0ed96e093f30","issue":"3","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"d8c36f25-4e0f-47f1-ac5b-f809875fc813","keyword":"泡沫夹芯复合材料","originalKeyword":"泡沫夹芯复合材料"},{"id":"cb84e647-b666-4bd4-b708-bd831a7ee99e","keyword":"弯曲刚度","originalKeyword":"弯曲刚度"},{"id":"70f0c2d0-bcab-4cee-9b76-222f983b8ec2","keyword":"压缩强度","originalKeyword":"压缩强度"},{"id":"8a8be793-7d06-42fa-a69a-bff3538302ce","keyword":"插入损失","originalKeyword":"插入损失"},{"id":"01c287d2-df34-43e0-b605-c2a7adeda661","keyword":"NSGA-Ⅱ","originalKeyword":"NSGA-Ⅱ"},{"id":"5e65159f-5eba-474e-a8bd-6f9f306da1b1","keyword":"综合设计","originalKeyword":"综合设计"}],"language":"zh","publisherId":"clkfyyy201303012","title":"泡沫夹芯复合材料力学性能与水声性能综合设计初探","volume":"28","year":"2013"},{"abstractinfo":"介绍了硅烷偶联剂对填充橡胶性能的影响.硅烷偶联剂与填料发生反应,使其由亲水性变为疏水性,改善填料的分散性,从而增大与橡胶的相互作用,提高填充硫化胶的物理性能和动态力学性能.","authors":[{"authorName":"兴刚","id":"a03ca0a0-920a-4a3c-a842-df923b7ac450","originalAuthorName":"张兴刚"},{"authorName":"用兵","id":"ca28a428-8180-4c39-ac78-e94bde7056fa","originalAuthorName":"张用兵"}],"doi":"10.3969/j.issn.1003-1545.2006.06.012","fpage":"41","id":"7fb7a884-f271-4ee5-ba73-e3bab08f7662","issue":"6","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"e9142ebb-0283-49e8-b730-d72fe67c76e0","keyword":"硅烷偶联剂","originalKeyword":"硅烷偶联剂"},{"id":"e7247ce6-c85a-4582-8b32-26954ec77e64","keyword":"填充橡胶","originalKeyword":"填充橡胶"},{"id":"e0a41c29-45dc-48af-a3e1-f8021c2c0104","keyword":"力学性能","originalKeyword":"力学性能"}],"language":"zh","publisherId":"clkfyyy200606012","title":"硅烷偶联剂在填充橡胶中的应用","volume":"21","year":"2006"},{"abstractinfo":"针对泡沫夹芯复合材料声学测试的实际情况,建立了耦合声学有限元法的计算模型,针对计算模型进行了算例验证.结果表明,模型的预测值与试验值趋势吻合较好,计算方法是有效且可行的,可以用于预测泡沫夹芯复合材料的声学性能.同时,研究了与面板和芯材有关的四个参数对夹芯复合材料声学性能的影响规律.","authors":[{"authorName":"马志超","id":"372caadf-4be4-48a5-8467-3c4d41031992","originalAuthorName":"马志超"},{"authorName":"郭万涛","id":"3d15c7e3-ba3e-40ae-8dc7-3191be7fe8e1","originalAuthorName":"郭万涛"},{"authorName":"用兵","id":"dfdf7d07-680b-4d69-9825-c0b8ea864d93","originalAuthorName":"张用兵"},{"authorName":"鲁先孝","id":"2a35cff3-b638-4c48-8e2b-c546524bc46f","originalAuthorName":"鲁先孝"}],"doi":"","fpage":"74","id":"91ea57da-509e-40ec-9129-c0d65bd48b17","issue":"4","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"52bdec3d-f581-4813-b0f8-df26d641d4f0","keyword":"有限元","originalKeyword":"有限元"},{"id":"89302943-db5b-4058-95b8-090a7c450ed7","keyword":"声学","originalKeyword":"声学"},{"id":"36402255-f907-41df-b5af-4bea41128d18","keyword":"泡沫夹芯复合材料","originalKeyword":"泡沫夹芯复合材料"}],"language":"zh","publisherId":"clkfyyy201504014","title":"泡沫夹芯复合材料水声性能预测研究","volume":"30","year":"2015"},{"abstractinfo":"本文研究了空心玻璃微珠、粉煤灰(煤胞)、发泡聚合物等填料对阻尼隔声橡胶材料水中插入损失的影响,发现橡胶中加入隔声填料可以明显提高水中插入损失.其中玻璃微珠插入损失最大,其次是粉煤灰,再次为发泡聚合物,而前三者等量混合物略差.玻璃微珠用量以30份为宜,水中插入损失随用量增加而降低,在3kHz、10kHz、20kHz三个频段,用量30份至50份时,插入损失降低幅度较大,50份以后降低幅度变缓,其他频率也有类似情况.","authors":[{"authorName":"陈灵鸽","id":"ed2a6146-59c8-4d10-ab75-b499a56b1a0e","originalAuthorName":"陈灵鸽"},{"authorName":"用兵","id":"c3902b85-4a2d-4e0e-9df7-b970d0f95ce6","originalAuthorName":"张用兵"},{"authorName":"徐继宏","id":"ff288573-c11e-4f4f-84ec-a3372288696f","originalAuthorName":"徐继宏"},{"authorName":"秦霞","id":"eb22468d-fd66-4f70-8ec0-fc6ac9bbdbd1","originalAuthorName":"秦霞"},{"authorName":"常冠军","id":"9733bfe4-62f6-4112-b89a-f7526b1ed05d","originalAuthorName":"常冠军"}],"doi":"10.3969/j.issn.1003-1545.2002.05.004","fpage":"10","id":"af655ac5-246d-4539-bb4c-13530d6d38dc","issue":"5","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"4f23bd2b-0e53-44e2-b308-2f391b1f02d3","keyword":"隔声材料","originalKeyword":"隔声材料"},{"id":"63a41ea0-4ef2-4f73-a7f0-b8d3995efa0f","keyword":"插入损失","originalKeyword":"插入损失"},{"id":"fe1b7c46-f9e8-44f6-bad2-659f321ff287","keyword":"填料","originalKeyword":"填料"},{"id":"40c303db-cc2c-4d17-bbb6-50e32f4a0388","keyword":"隔声","originalKeyword":"隔声"}],"language":"zh","publisherId":"clkfyyy200205004","title":"填料对阻尼隔声材料的水中插入损失的影响","volume":"17","year":"2002"},{"abstractinfo":"研究了硅烷偶联剂KH550对NR硫化胶老化过程中的交联密度和力学性能的影响.结果表明,加入KH550可以减缓交联密度和损耗因子tanδ的变化,有效抑制NR硫化胶的热氧老化,同等老化条件下物理力学性能要好于无KH550填充的NR硫化胶.随着KH550用量的增大,上述硫化胶性能变化的趋势增强.","authors":[{"authorName":"兴刚","id":"ded2f267-4185-443f-b042-77c7a680ace2","originalAuthorName":"张兴刚"},{"authorName":"用兵","id":"518a1f96-a673-460d-9c59-3be056386b42","originalAuthorName":"张用兵"},{"authorName":"郭万涛","id":"c37a28de-0e83-4abe-9343-396fbe5b2b63","originalAuthorName":"郭万涛"},{"authorName":"马玉璞","id":"8bc602bb-1aea-4641-930f-818357d1511c","originalAuthorName":"马玉璞"}],"doi":"10.3969/j.issn.1003-1545.2007.04.006","fpage":"18","id":"e88c6e66-1286-4789-a429-ba74452f6868","issue":"4","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"972cdf23-e8b8-4b86-a431-10dc55d30791","keyword":"硅烷偶联剂KH550","originalKeyword":"硅烷偶联剂KH550"},{"id":"1e0c8699-03fe-413b-bf8a-ad6c17cf9230","keyword":"热氧老化","originalKeyword":"热氧老化"},{"id":"aed7fac1-0f27-4bdd-88bb-3bc167a30889","keyword":"交联密度","originalKeyword":"交联密度"},{"id":"4f8ca368-a945-49f8-aafe-85549a80a363","keyword":"力学性能","originalKeyword":"力学性能"},{"id":"f45ef897-cf1f-4cdb-8f4a-7ca954e0a0cc","keyword":"动态力学性能","originalKeyword":"动态力学性能"}],"language":"zh","publisherId":"clkfyyy200704006","title":"硅烷偶联剂KH550对NR硫化胶热氧老化性能的影响","volume":"22","year":"2007"},{"abstractinfo":"研究了填充系数、异氰酸酯指数和模具温度对恒定密度为350 kg/m3全水发泡硬质聚氨酯泡沫力学性能的影响.结果表明,压缩强度随各变量数值的增加均呈现上升的趋势,而弯曲强度表现出了不同的变化趋势.填充系数由2.0增大到3.0时,平均泡孔直径由188 μm减小为151 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