{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"为研究复合材料胶接面对接头强度的影响,以单搭接接头为研究对象,通过设计使接头的被粘物具有相同的拉伸模量和弯曲模量,但胶接面的角度不同,使用有限元法对不同的接头进行建模,分析接头胶接面和胶的应力,引入Tsai-Wu失效因子对胶接面进行评估.结果表明:胶接面角度对应力分布有一定影响,0°胶接面会造成较大的胶应力,但胶接面的应力和失效因子较小;90°下胶应力最小,但胶接面的应力和失效因子水平较高;45°下胶接面的失效因子和胶应力水平介于两者之间.通过与实验结果对比,得出了胶接面角度影响接头强度及破坏模式的一般性规律.","authors":[{"authorName":"彭海俊","id":"fed0666a-15a8-449a-8182-d5150dfb6e3e","originalAuthorName":"彭海俊"},{"authorName":"秦志文","id":"7f854ae1-9a26-4eee-9932-366af6f4ed3e","originalAuthorName":"秦志文"},{"authorName":"王继辉","id":"590427a6-b7b6-4619-ad89-0e13fe019e3e","originalAuthorName":"王继辉"},{"authorName":"杨科","id":"49254eb2-0266-496f-ade9-591e2647ed56","originalAuthorName":"杨科"}],"doi":"","fpage":"29","id":"2edf0de4-558f-4267-94d3-18f56bbe2124","issue":"4","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":"7b5f4267-36a2-47ab-a958-b0c6816eb4c1","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"8788dae7-6532-49a2-8f11-d799a4c8e113","keyword":"应力分析","originalKeyword":"应力分析"},{"id":"8b243c6e-97d5-43f5-afc5-fb35c3abe38f","keyword":"","originalKeyword":"铺层"},{"id":"b9d91826-e61e-486d-8279-4e8e05b4f9d2","keyword":"胶接","originalKeyword":"胶接"},{"id":"93ae5353-e534-4aaf-a1e7-5d4519c6efc9","keyword":"接头设计","originalKeyword":"接头设计"},{"id":"f17aef55-2ca4-4fdd-a52a-80fd237b2291","keyword":"有限元法","originalKeyword":"有限元法"}],"language":"zh","publisherId":"blgfhcl201704005","title":"胶接面纤维角度对复合材料胶接应力和强度影响分析","volume":"","year":"2017"},{"abstractinfo":"本文通过对一40 m商业风力机叶片进行三维建模和详细的结构,在叶根挥舞极限载荷条件下研究了叶片结构强度。模型重量及模态频率与试验值吻合很好;主梁帽承受较大的载荷;在主梁帽内段及叶根过渡区域纤维失效因子较大,吸力面与压力面纤维失效因子大小与受力规律不一致;主梁帽在叶根过渡处纤维()间失效因子较大,主梁帽靠近叶根段表现为C型失效模式,中段表现为B型失效模式,其余大部分位置表现为A型失效模式。","authors":[{"authorName":"秦志文","id":"343d2ef5-4e7f-4fb9-bcd0-7f038b2dfcf6","originalAuthorName":"秦志文"},{"authorName":"徐宇","id":"1e594f6a-6f88-4a2e-a801-aff5ca89c098","originalAuthorName":"徐宇"},{"authorName":"杨科","id":"5c89506e-c588-46ab-9faf-c7f1ba1c30b9","originalAuthorName":"杨科"},{"authorName":"徐建中","id":"eb549116-eefc-4140-9fba-bd9648f9c004","originalAuthorName":"徐建中"}],"doi":"","fpage":"591","id":"9e20f549-d143-42e5-aaa2-e3396180112e","issue":"4","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":"39add0e8-b7e4-44e9-80a6-7088b3490cd1","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"75466275-5dfd-48b0-970f-8a446a6fff63","keyword":"","originalKeyword":"铺层"},{"id":"1e460e88-b16b-4b79-8d67-cbd191426c60","keyword":"强度","originalKeyword":"强度"},{"id":"6c94f449-b110-4111-bcb6-97bbcf005a66","keyword":"有限元","originalKeyword":"有限元"},{"id":"1b9f9d92-ecf6-420e-b772-463884057d67","keyword":"失效","originalKeyword":"失效"}],"language":"zh","publisherId":"gcrwlxb201204012","title":"风力机叶片FRP结构强度与失效预测","volume":"33","year":"2012"},{"abstractinfo":"针对T型翼片的技术指标,依据应力分析结果,介绍了缠绕和两种成型工艺,静力试验的结果表明:两种成型工艺均满足规定的均布载荷下、挠度小于200 mm的主要技术指标,通过对比两种工艺的优缺点,认为工艺更适合该翼片的生产.","authors":[{"authorName":"张崇耿","id":"f6e3af38-436c-44d1-8a79-28f123fb70b5","originalAuthorName":"张崇耿"},{"authorName":"王红丽","id":"b2f271a0-dbdd-4a8e-b78e-53b44cf3e39d","originalAuthorName":"王红丽"},{"authorName":"李聪","id":"8e866392-3f55-4995-8638-473414b1a3e1","originalAuthorName":"李聪"},{"authorName":"张新航","id":"a16c0e6f-51fd-4b87-b31d-c4523a18ca59","originalAuthorName":"张新航"},{"authorName":"孙海成","id":"3ed75bae-e070-492f-823c-553e486a8a28","originalAuthorName":"孙海成"}],"doi":"10.3969/j.issn.1007-2330.2009.01.020","fpage":"70","id":"30095920-6d51-4aa0-8d07-e7683a6e125a","issue":"1","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":"344f618d-1265-48f7-b37e-3f46b0d1d11c","keyword":"缠绕","originalKeyword":"缠绕"},{"id":"b895cc40-fea9-4986-af77-4f4acf17d8d5","keyword":"","originalKeyword":"铺层"},{"id":"9f8c179f-88a5-48d8-b53f-b375258bfbc3","keyword":"工艺","originalKeyword":"工艺"},{"id":"c56f0926-dd6c-4837-8105-88aac22c12ac","keyword":"静力试验","originalKeyword":"静力试验"},{"id":"c696b0b2-fd30-4948-bb39-925790746929","keyword":"翼片","originalKeyword":"翼片"}],"language":"zh","publisherId":"yhclgy200901020","title":"T型翼片的两种成型工艺","volume":"39","year":"2009"},{"abstractinfo":"面内剪切性能是复合材料结构设计的重要性能参数之一.目前常用的复合材料层压板面内剪切性能测试方法有±45°拉伸剪切试验和V型缺口剪切试验两类,相应的试验标准有GB/T 3355、ASTM D 3518、HB 7237和ASTMD5379,本文系统对比了上述标准在适用范围、试验原理、试样形式、加载速率、剪切强度定义等方面的差异,分析了不同形式和层数量、不同加载速率,对试验结果的影响,对比了不同试验标准的差异,对今后的面内剪切试验有一定的指导意义.","authors":[{"authorName":"王海鹏","id":"784f7dcf-3938-4270-add5-efd23370acb7","originalAuthorName":"王海鹏"},{"authorName":"陈新文","id":"f902fb77-1ec4-41c0-9235-7f74610f98c4","originalAuthorName":"陈新文"},{"authorName":"蒋诗才","id":"039f146b-4fc2-4605-9942-0dab16d35ca8","originalAuthorName":"蒋诗才"},{"authorName":"邓立伟","id":"77dc3b8d-2d72-4831-84e0-a3895ad0f6a5","originalAuthorName":"邓立伟"},{"authorName":"王翔","id":"7eba077c-834c-4a5a-b3cf-ed6175317f4b","originalAuthorName":"王翔"}],"doi":"10.3969/j.issn.1005-5053.2011.z1.051","fpage":"232","id":"cdb6001a-a8eb-4ad9-9ba0-a9906e7155dc","issue":"z1","journal":{"abbrevTitle":"HKCLXB","coverImgSrc":"journal/img/cover/HKCLXB.jpg","id":"41","issnPpub":"1005-5053","publisherId":"HKCLXB","title":"航空材料学报"},"keywords":[{"id":"62e58f23-221b-41db-bd25-a96aa1a63cd7","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"6a23e1e8-9772-4f69-b23c-058dc17fe863","keyword":"面内剪切","originalKeyword":"面内剪切"},{"id":"49cff2f1-ba19-449a-a34d-5114e67c3b45","keyword":"试验方法","originalKeyword":"试验方法"},{"id":"45d47260-16da-45f5-88d4-c8794d771272","keyword":"","originalKeyword":"铺层"},{"id":"59950b89-ce47-4e5b-a4b2-a7f03e51c33b","keyword":"加载速率","originalKeyword":"加载速率"}],"language":"zh","publisherId":"hkclxb2011z1051","title":"树脂基复合材料面内剪切性能试验方法对比分析","volume":"31","year":"2011"},{"abstractinfo":"风力发电技术作为新兴技术,欧美一些国家已发展到相当高的水平,我国风力发电近些年也发展迅猛.风力发电的关键技术之一是风力机复合材料叶片的设计与研制,涉及到空气动力学、结构力学、复合材料力学及成型工艺等.本文着重探讨复合材料叶片的结构设计中几个关键的问题,在广泛分析和研究国内外复合材料结构设计现有技术基础上,并结合实际的研究经验,对复合材料叶片结构设计中的材料选择、载荷工况、结构选型、设计以及力学分析等关键环节进行探讨和分析,并给出可行的意见.","authors":[{"authorName":"王耀东","id":"16e65de0-09f7-45aa-afd7-8f8870e1a55f","originalAuthorName":"王耀东"},{"authorName":"何景武","id":"6128fa33-0626-4717-8ece-a234145eeb7d","originalAuthorName":"何景武"},{"authorName":"夏盛来","id":"98f925d0-4d04-44d0-927f-428e56c0cbea","originalAuthorName":"夏盛来"}],"doi":"10.3969/j.issn.1003-0999.2012.01.007","fpage":"34","id":"21f423c7-b9e7-4acb-85aa-9565dea11e9c","issue":"1","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":"d944e43b-a9b3-426c-b303-424ee5bc5aa5","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"d134f8d9-c3ec-4127-82e4-e27f5e1fb9a6","keyword":"","originalKeyword":"铺层"},{"id":"827d4072-293d-4013-858a-e2190256f838","keyword":"强度","originalKeyword":"强度"},{"id":"f6802a0c-11d8-4cf4-8a6b-83a0c3284691","keyword":"刚度","originalKeyword":"刚度"},{"id":"def6ef4a-0dd7-4f33-9d3c-fd79db5bfae2","keyword":"振动","originalKeyword":"振动"}],"language":"zh","publisherId":"blgfhcl201201007","title":"复合材料叶片结构设计中的几个关键问题探讨","volume":"","year":"2012"},{"abstractinfo":"探讨了自动带工艺过程中相邻界面间的贴合形成机制,将界面间贴合过程建模为树脂补片在平行板之间挤压流动从而浸润界面的过程.指出在树脂流体黏度一定的情况下,树脂对界面浸润效果越好,则界面贴合能力越强.利用流体力学理论推导出树脂流体对界面浸润效果的计算公式,并分析了放压力、放速度等因素对浸润效果以及贴合能力的影响,提出以剥离力作为量化间贴合能力的指标.在自行研制的自动带工艺参数实验平台上进行了一系列实验,实验结果表明,间贴合能力随放速度增大而变差,随放压力、模具温度、压辊半径增大而变强,这一规律验证了所提出的树脂流体对界面浸润效果计算公式的正确性.","authors":[{"authorName":"张鹏","id":"1065a994-a52b-4bf3-a4de-a88b70c39176","originalAuthorName":"张鹏"},{"authorName":"孙容磊","id":"a733cc96-461d-4c7a-8153-8e9d2dd84bd3","originalAuthorName":"孙容磊"},{"authorName":"连海涛","id":"35a97203-ee5a-4fa6-a78f-0de486ccadff","originalAuthorName":"连海涛"},{"authorName":"黄文宗","id":"84d0d279-549f-41b2-b058-f88a0eb8fe21","originalAuthorName":"黄文宗"},{"authorName":"王庆友","id":"2918736a-664a-40cc-8a45-0696919a547a","originalAuthorName":"王庆友"},{"authorName":"宋文娟","id":"5c970e51-8c49-4770-90e5-47502ceb9161","originalAuthorName":"宋文娟"}],"doi":"","fpage":"40","id":"3181c694-c8ce-40c6-b96c-c56a10768685","issue":"1","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":"69367b74-7846-49fa-bb4c-976e9e216b67","keyword":"自动带(ATL)","originalKeyword":"自动铺带(ATL)"},{"id":"39b1df69-4fe8-4f29-a02a-227f6486d3af","keyword":"贴合","originalKeyword":"铺层贴合"},{"id":"1b8b4e3d-4210-4f00-ad75-c0d4e92713ea","keyword":"工艺参数","originalKeyword":"工艺参数"},{"id":"82250292-7e2b-42da-98ec-a39ecdd56505","keyword":"放压力","originalKeyword":"铺放压力"},{"id":"7501a1ff-2f4f-4b74-8e40-514ed79b5801","keyword":"放速度","originalKeyword":"铺放速度"}],"language":"zh","publisherId":"fhclxb201401006","title":"自动贴合形成机制","volume":"31","year":"2014"},{"abstractinfo":"针对复合材料结构设计中遇到含拼接的合板强度预测问题,本文设计了含交错拼接区的碳/双马复合材料合板试件,采用拉伸试验方法测定了该材料的力学性能,得到了不同拼接长度合板的抗拉强度.试验结果表明,拼接状态差异对复合材料合板的承载能力有显著影响,文中根据试验结果建立了抗拉强度随拼接长度变化的经验公式,为复合材料合板结构的设计和强度分析提供了理论依据.","authors":[{"authorName":"王玲","id":"e5f1b6bc-8f09-4c02-8780-75e745e214af","originalAuthorName":"王玲"},{"authorName":"贾普荣","id":"16dd9dba-11b1-4c65-8405-cf269a588843","originalAuthorName":"贾普荣"},{"authorName":"王文贵","id":"5a9112ae-7bd8-495f-8fc9-ee4e3f0b2556","originalAuthorName":"王文贵"},{"authorName":"戴棣","id":"43a18743-20ad-45d5-93cd-01617f39ecc4","originalAuthorName":"戴棣"},{"authorName":"矫桂琼","id":"268ee4ae-5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"},"keywords":[{"id":"4bcd8c99-384a-4f29-8906-0243ff155fd3","keyword":"复合材料锥壳","originalKeyword":"复合材料锥壳"},{"id":"a755f05d-8a27-447a-98fd-b44ddca5b64e","keyword":"自动带","originalKeyword":"自动铺带"},{"id":"25e75097-359b-4f3e-b82f-0dac3a752185","keyword":"预浸带","originalKeyword":"预浸带"},{"id":"57d74fdb-9397-45ee-971f-2cb3d3e0d41c","keyword":"带头","originalKeyword":"铺带头"},{"id":"5a32657e-7bab-4722-ab2e-61cd276163b2","keyword":"预切割设备","originalKeyword":"预切割设备"}],"language":"zh","publisherId":"yhclgy200805003","title":"复合材料锥壳螺旋向自动带成型方法","volume":"38","year":"2008"},{"abstractinfo":"研究了一种基于自动带技术的复合材料锥壳0°成型方法:根据锥壳构件尺寸将等宽预浸带数控分切成预定尺寸的直角梯形预浸带片,按特定方式放到锥壳表面并使每两片拼成一个等腰梯形单元,多个等腰梯单元形构成锥壳的0°;并针对这种成型方法设计了一种实现锥壳0°自动成型的装置.采用该方法及其设备可以实现锥壳0°的自动化制造,提高成型效率、降低废料率、稳定工艺质量,降低装备制造成本.","authors":[{"authorName":"张振甫","id":"27f34da8-53be-40b8-aa91-644d2b00f24d","originalAuthorName":"张振甫"},{"authorName":"肖军","id":"60a672ef-8389-4704-8417-1dfd08375618","originalAuthorName":"肖军"},{"authorName":"吴海桥","id":"bc252a2a-c765-488a-85a4-818a2f496efd","originalAuthorName":"吴海桥"},{"authorName":"李勇","id":"1889ff53-f5b0-48e5-982c-e218fef9429e","originalAuthorName":"李勇"},{"authorName":"文立伟","id":"e732f02b-9e7c-4dca-883b-6d76f2f94959","originalAuthorName":"文立伟"}],"doi":"10.3969/j.issn.1007-2330.2007.02.014","fpage":"55","id":"cf49ebd6-291a-48be-8322-d07101e69ad8","issue":"2","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":"f635b836-110d-43c7-b3a7-e21e01e1346e","keyword":"锥壳0°","originalKeyword":"锥壳0°铺层"},{"id":"78ee5eb1-e081-4491-aa99-a9051544b12e","keyword":"自动带","originalKeyword":"自动铺带"},{"id":"b15387c4-1d9e-481b-ad1b-34774fca92e9","keyword":"带头","originalKeyword":"铺带头"},{"id":"81a1300f-fa4b-463b-b515-ce1aeca8a3af","keyword":"预浸带","originalKeyword":"预浸带"}],"language":"zh","publisherId":"yhclgy200702014","title":"复合材料锥壳0°的自动放成型方法研究","volume":"37","year":"2007"},{"abstractinfo":"实验研究了在E/D =4(边距/孔径),W/D=5(宽度/孔径)的3种[90/+ 45/- 45/0]s,[ 90/0/+ 45/- 45]s,[+45/-45/90/0]a的玻璃纤维/环氧复合材料试样在不同的扭矩和垫片尺寸(外径(Dw)/内径(D))下的静态破坏强度.实验结果表明,试样破坏强度随夹持力增大而增大,但增加趋势不断减弱,在5Nm扭矩下三种的强度分别比其销钉连接增大175%,196%,141%;在销钉连接下,[90/+45/- 45/0]s强度比[90/0/+ 45/- 45]s层高12.7%,[+45/- 45/90/0]s强度比[90/+45/- 45/0]s层高10.8%;在手动拧紧下[90/+45/-45/0]a强度比[90/0/+45/-45]s层高3.5%,而[ +45/-45/90/0]s强度比[90/+45/-45/0]a层高0.37%;垫圈的外内径比在2~3范围内,试样强度伴随外内径比的增大而增大,在3~4时,强度变化很小.","authors":[{"authorName":"沈帆","id":"57d88fb0-7f9d-4330-ae38-f9433c4756b2","originalAuthorName":"沈帆"},{"authorName":"王钧","id":"322a23a8-cd46-4428-a946-b0423d90151c","originalAuthorName":"王钧"},{"authorName":"蔡浩鹏","id":"7dda9d8c-7d56-47f2-938f-292a15e0fa84","originalAuthorName":"蔡浩鹏"}],"doi":"10.3969/j.issn.1003-0999.2012.01.008","fpage":"39","id":"a960a681-6543-41f1-a250-db463dd8c943","issue":"1","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":"b93f5975-11b3-4d06-8992-c853ecdd6cff","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"ec1d1aa5-54b8-4d4d-bd59-7b603659b5e4","keyword":"螺栓连接","originalKeyword":"螺栓连接"},{"id":"69c3fb6b-dff7-46de-86e3-09d1950a06bc","keyword":"顺序","originalKeyword":"铺层顺序"}],"language":"zh","publisherId":"blgfhcl201201008","title":"不同复合材料螺栓连接的研究","volume":"","year":"2012"}],"totalpage":2300,"totalrecord":23000}