{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"<span style=\"color:red\">编织</span>是一种重要的预制件成型技术.<span style=\"color:red\">编织</span>构件具有不分层整体结构、沿<span style=\"color:red\">编织</span>方向截面可连续变化、复杂结构构件一次成型等特点,具有耐冲击、抗分层、抗蠕变等优异性能.<span style=\"color:red\">编织物</span>在工程、航空航天、汽车制造等领域广泛应用.本文系统地介绍了<span style=\"color:red\">编织</span>机、工作原理、各种<span style=\"color:red\">编织</span>结构及<span style=\"color:red\">编织</span>结构中具有代表性的单胞结构,讨论了<span style=\"color:red\">编织</span>机的应用及主要研究方向.","authors":[{"authorName":"赵展","id":"c4ac497b-4ada-4489-857f-ebb7e567cb02","originalAuthorName":"赵展"},{"authorName":"Md.Hasab Ikbal","id":"24466f1d-8aa4-47e3-9139-fd840a05649b","originalAuthorName":"Md.Hasab Ikbal"},{"authorName":"李炜","id":"721ae417-5bc4-4d3b-aa4d-9de5616114aa","originalAuthorName":"李炜"}],"doi":"","fpage":"90","id":"0d7c7c60-95bd-42f3-90a8-a67799f2311b","issue":"10","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":"55e30374-0330-48f8-b94f-67caa82b2a54","keyword":"<span style=\"color:red\">编织</span>工艺","originalKeyword":"编织工艺"},{"id":"ad4170c9-27c5-4428-a7d5-e0ef441ebc38","keyword":"<span style=\"color:red\">编织</span>设备","originalKeyword":"编织设备"},{"id":"79e20357-8656-4231-9f70-6383b1f2e83d","keyword":"<span style=\"color:red\">编织</span>结构","originalKeyword":"编织结构"},{"id":"9d4c6c16-eb04-4ca5-9065-3f70c48a463c","keyword":"<span style=\"color:red\">编织物</span><span style=\"color:red\">模型</span>","originalKeyword":"编织物模型"},{"id":"c4e3138b-31a8-4291-bd41-21b88bdc9b4c","keyword":"应用","originalKeyword":"应用"},{"id":"85ffdb38-87b9-425a-a044-2a67bc80cd0e","keyword":"发展","originalKeyword":"发展"}],"language":"zh","publisherId":"blgfhcl201410018","title":"<span style=\"color:red\">编织</span>机及<span style=\"color:red\">编织</span>工艺的发展","volume":"","year":"2014"},{"abstractinfo":"本文在对多轴向经<span style=\"color:red\">编织物</span>的生产设备、<span style=\"color:red\">编织</span>原理等深入研究的基础上,进一步探讨了多轴向经<span style=\"color:red\">编织物</span>的<span style=\"color:red\">编织</span>工艺,包括常用原料、<span style=\"color:red\">织物</span>组织、工艺规格等.多轴向经<span style=\"color:red\">编织物</span>是一种采用高性能纤维作为增强衬纱,在多轴向经编机铺纬运动和成圈运动的协调配合下,利用编链、经平或变化经平组织将多层纱线绑缚成一个整体的多层<span style=\"color:red\">织物</span>.多轴向经<span style=\"color:red\">编织物</span>平行伸直、可调节角度变化的轴向衬纱结构使<span style=\"color:red\">织物</span>具有多种优异性能,作为复合材料的骨架材料拥有广阔的应用领域和无限的商业前景.","authors":[{"authorName":"顾璐英","id":"98166732-6c81-4e62-ab5e-a2586794be21","originalAuthorName":"顾璐英"},{"authorName":"蒋高明","id":"b8a9dfb1-8a95-43e7-88a7-a8057bd25ef0","originalAuthorName":"蒋高明"}],"doi":"10.3969/j.issn.1003-0999.2010.03.020","fpage":"76","id":"06e45618-ebdb-4ac2-bbc0-8291fd65f7d4","issue":"3","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":"3287738b-83cb-46af-a984-0bc1b6593bb1","keyword":"经编","originalKeyword":"经编"},{"id":"6a6e4274-451d-48b1-b39e-6c6ac9e7f841","keyword":"多轴向","originalKeyword":"多轴向"},{"id":"b9d92785-83a2-4c21-becb-8ab3640c2e86","keyword":"经编机","originalKeyword":"经编机"},{"id":"206128c6-6928-4282-b703-3772f78410fc","keyword":"<span style=\"color:red\">编织</span>工艺","originalKeyword":"编织工艺"}],"language":"zh","publisherId":"blgfhcl201003020","title":"多轴向经<span style=\"color:red\">编织物</span><span style=\"color:red\">编织</span>工艺探讨","volume":"","year":"2010"},{"abstractinfo":"为了准确描述复合材料<span style=\"color:red\">编织物</span>的各向异性力学特性，首先，基于纤维增强复合材料连续介质力学理论提出了一种考虑纤维双拉耦合的复合材料<span style=\"color:red\">编织物</span>各向异性超弹性本构<span style=\"color:red\">模型</span>，该<span style=\"color:red\">模型</span>中单位体积的应变能被解耦为便于参数识别的纤维拉伸变形能、双拉耦合引起的挤压变形能和纤维间角度变化产生的剪切变形能；然后，给出了<span style=\"color:red\">模型</span>参数的确定方法，并通过拟合单轴拉伸、双轴拉伸和镜框剪切实验数据得到了本构<span style=\"color:red\">模型</span>参数；最后，利用该<span style=\"color:red\">模型</span>对双轴拉伸和镜框剪切实验进行了数值仿真，并将模拟结果与实验结果对比分析。结果表明：提出的本构<span style=\"color:red\">模型</span>适用于表征复合材料<span style=\"color:red\">编织物</span>在成型过程中由于大变形引起的非线性各向异性力学行为。所得结论表明提出的本构<span style=\"color:red\">模型</span>具有简单、实用的优点，且材料参数容易确定，可为复合材料<span style=\"color:red\">编织物</span>成型的数值模拟和工艺优化奠定理论基础。","authors":[{"authorName":"黄小双","id":"c20ddd34-dd22-479d-9144-6c470954c95f","originalAuthorName":"黄小双"},{"authorName":"姚远","id":"4020a0f1-5d30-4410-b30e-b91ea0b0851f","originalAuthorName":"姚远"},{"authorName":"彭雄奇","id":"ee9a0fa3-7fa2-40e0-acf7-661c8fe55bb6","originalAuthorName":"彭雄奇"},{"authorName":"龚友坤","id":"6429e1b3-9221-44ca-8e05-ad8fd4116a53","originalAuthorName":"龚友坤"},{"authorName":"张必超","id":"c0357726-83a1-413d-826b-a1a72e387bd1","originalAuthorName":"张必超"}],"doi":"10.13801/j.cnki.fhclxb.20160127.001","fpage":"2319","id":"6d63cac1-739f-4a0f-89a9-2de3f5a2bfad","issue":"10","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":"a4acef81-c2cb-497b-9811-cd005fce9763","keyword":"复合材料<span style=\"color:red\">编织物</span>","originalKeyword":"复合材料编织物"},{"id":"6fb082b1-629c-4ad9-8c51-7c8b6b45b187","keyword":"双拉耦合","originalKeyword":"双拉耦合"},{"id":"91f09cf2-0327-4a9c-b96a-a18ffe69251a","keyword":"本构<span style=\"color:red\">模型</span>","originalKeyword":"本构模型"},{"id":"76ae987d-2fc9-42ef-b3b2-c37a9e99e491","keyword":"各向异性","originalKeyword":"各向异性"},{"id":"d60b14a3-ee13-4dd1-9ebc-93342b242d1b","keyword":"数值模拟","originalKeyword":"数值模拟"}],"language":"zh","publisherId":"fhclxb201610023","title":"考虑双拉耦合的复合材料<span style=\"color:red\">编织物</span>各向异性超弹性本构<span style=\"color:red\">模型</span>","volume":"33","year":"2016"},{"abstractinfo":"以四步法矩形截面<span style=\"color:red\">编织物</span>为例,结合VRML语言和Java语言,实现了网络环境下的三维<span style=\"color:red\">编织物</span>交互式仿真设计.以Java Applet作为控制核心,VRML场景作为三维展示平台,用户只需访问网络、输入参数,即可获得不同参数的<span style=\"color:red\">编织物</span>仿真<span style=\"color:red\">模型</span>,大大提高了<span style=\"color:red\">编织物</span>设计与制造效率.","authors":[{"authorName":"张小萍","id":"83621b77-45f9-41d7-9cd3-fed917e1a517","originalAuthorName":"张小萍"},{"authorName":"王君泽","id":"be7c1cd2-25de-4ca1-9c57-04d68a80a986","originalAuthorName":"王君泽"}],"doi":"10.3969/j.issn.1007-2330.2009.05.004","fpage":"16","id":"a06b989d-b186-4e7a-8dfd-cc7ef5ac86df","issue":"5","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":"f761ebef-2637-4b05-8eb2-7b6d54c0e6a4","keyword":"三维<span style=\"color:red\">编织物</span>","originalKeyword":"三维编织物"},{"id":"5b8ad1a8-b07d-4867-9ae1-5fb92e191496","keyword":"VRML","originalKeyword":"VRML"},{"id":"c4f392e7-f87d-4784-81c8-598ab7b7d75b","keyword":"Java","originalKeyword":"Java"},{"id":"107fc7e8-b49f-4f7f-81da-3c4667f3f6b8","keyword":"网络","originalKeyword":"网络"},{"id":"8725db70-4fdd-4b70-8a2b-855827d86dce","keyword":"交互仿真","originalKeyword":"交互仿真"}],"language":"zh","publisherId":"yhclgy200905004","title":"网络环境下三维<span style=\"color:red\">编织物</span>参数化仿真探索","volume":"39","year":"2009"},{"abstractinfo":"以四步法三维管状<span style=\"color:red\">编织物</span>为例,讨论了虚拟现实技术在三维<span style=\"color:red\">编织物</span>仿真设计中应用的关键技术问题;该方法的使用,使得用户在织造前就可在虚拟环境中自由缩放、移动、旋转<span style=\"color:red\">织物</span><span style=\"color:red\">模型</span>,清楚地了解纱线的<span style=\"color:red\">编织</span>运动过程,并使<span style=\"color:red\">编织</span>工艺设计的网络化成为可能.","authors":[],"doi":"","fpage":"37","id":"2a86986e-2c16-4830-b64e-3589f437e26d","issue":"5","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":"3e0a8414-4715-4ffc-abdf-9e4bd1a4de70","keyword":"三维<span style=\"color:red\">编织物</span>","originalKeyword":"三维编织物"},{"id":"1098815f-0d0c-4695-ad25-cea4d2e5b188","keyword":"虚拟现实","originalKeyword":"虚拟现实"},{"id":"aac17f69-455c-4080-9d8a-1803d9e9960d","keyword":"仿真","originalKeyword":"仿真"},{"id":"548cf800-e61b-480d-85d9-f4777ef41365","keyword":"虚拟现实构造语言","originalKeyword":"虚拟现实构造语言"}],"language":"zh","publisherId":"yhclgy200505008","title":"虚拟现实技术在三维<span style=\"color:red\">编织物</span>设计及仿真中的应用","volume":"35","year":"2005"},{"abstractinfo":"多轴向经编技术是一种新型的多头衬纬<span style=\"color:red\">编织</span>技术,该技术生产的多轴向经<span style=\"color:red\">编织物</span>具有尺寸稳定、延伸率小等特点,在产业用领域已受到广泛的重视.本文介绍了多轴向经<span style=\"color:red\">编织物</span>的结构与性能以及纱层方向的表示方法,从风力发电机叶片结构、多轴向经<span style=\"color:red\">编织物</span>材料、叶片受力分析、制造工艺方面详细介绍了多轴向经<span style=\"color:red\">编织物</span>在风力发电机叶片中的应用,以双斜向经<span style=\"color:red\">编织物</span>为例,采用WKCAD设计仿真并分析.","authors":[{"authorName":"王雪芳","id":"9d0fece9-379a-42f8-92f9-473b1a928607","originalAuthorName":"王雪芳"},{"authorName":"丛洪莲","id":"bb94f101-9e79-47c9-bec5-e9139be589ee","originalAuthorName":"丛洪莲"},{"authorName":"张爱军","id":"49ddca0c-3a1c-47fa-839e-6dcfbf80a4b3","originalAuthorName":"张爱军"}],"doi":"","fpage":"69","id":"06eaff00-e7b0-4c9b-942c-7e971c0ee3c7","issue":"6","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":"fb160fca-77f9-489c-9b8f-c5ab0e1fa590","keyword":"多轴向经<span style=\"color:red\">编织物</span>","originalKeyword":"多轴向经编织物"},{"id":"9c699234-85ac-47f8-a2a7-0dd1dd253e90","keyword":"风力发电叶片","originalKeyword":"风力发电叶片"},{"id":"e4a8d0ea-f748-4fef-b004-8282fbde24df","keyword":"结构性能","originalKeyword":"结构性能"},{"id":"f9bc740a-d9b6-484e-b98b-1e1129579bb9","keyword":"纱层铺设","originalKeyword":"纱层铺设"}],"language":"zh","publisherId":"blgfhcl201206014","title":"风电用多轴向经<span style=\"color:red\">编织物</span>的结构设计","volume":"","year":"2012"},{"abstractinfo":"以碳纤维单轴向缝<span style=\"color:red\">编织物</span>为研究对象,开展了树脂体系及其复合工艺、<span style=\"color:red\">织物</span>结构参数和碳纤维种类对碳纤维单轴向缝<span style=\"color:red\">编织物</span>使用工艺性及其复合材料主要力学性能的影响研究.结果表明:经向碳纤维和衬纬材料的种类及其面密度等结构参数对<span style=\"color:red\">织物</span>弯曲硬挺度和<span style=\"color:red\">织物</span>单向渗透率的影响规律基本相似;无论是碳纤维缝<span style=\"color:red\">编织物</span>单向渗透率还是复合材料的主要力学强度,真空吸附工艺中,基于TDE-85环氧树脂的自制6#环氧树脂体系均明显优于市售用基于双酚A环氧树脂的环氧树脂体系;采用610A树脂预浸料工艺、或经向碳纤维的适当展纱、或干喷湿法纺丝技术制备的碳纤维,均有利于进一步提高碳纤维单轴向缝<span style=\"color:red\">编织物</span>复合材料的主要力学性能.这为碳纤维缝<span style=\"color:red\">编织物</span>结构设计、主要原材料选择、制备工艺、配套树脂体系及其复合工艺等选择优化提供一些参考,为碳纤维缝<span style=\"color:red\">编织物</span>、尤其是为国产碳纤维缝<span style=\"color:red\">编织物</span>的制备和推广应用奠定了良好基础.","authors":[{"authorName":"颜鸿斌","id":"2e50360f-ff74-4531-989c-2e81922e8efa","originalAuthorName":"颜鸿斌"},{"authorName":"季雪松","id":"2afc4ff2-30c3-4eb6-b07f-b297f0892848","originalAuthorName":"季雪松"},{"authorName":"刘胜利","id":"6ae391a0-c064-4bdb-bbd1-32a63c75fd44","originalAuthorName":"刘胜利"}],"doi":"10.12044/j.issn.1007-2330.2017.02.008","fpage":"34","id":"b0c660b2-8da0-4d34-bb8a-220cd02ad67d","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":"232960d4-7036-4bcb-8a76-4b26358ff482","keyword":"碳纤维","originalKeyword":"碳纤维"},{"id":"fd0f5f02-199a-4ace-b070-02d9f9dda6d4","keyword":"单轴向缝<span style=\"color:red\">编织物</span>","originalKeyword":"单轴向缝编织物"}],"language":"zh","publisherId":"yhclgy201702008","title":"碳纤维单轴向缝<span style=\"color:red\">编织物</span>及其复合材料性能影响研究","volume":"47","year":"2017"},{"abstractinfo":"本文介绍了两种三维管状<span style=\"color:red\">编织物</span>的制备方法,一种采用传统四步法<span style=\"color:red\">编织</span>,另一种采用针织和<span style=\"color:red\">编织</span>相结合的新型<span style=\"color:red\">编织</span>方法(多轴向<span style=\"color:red\">编织</span>)加工而成.对比分析了两种结构管状<span style=\"color:red\">编织物</span>的拉伸和弯曲力学性能.结果表明,在纤维体积含量相同的情况下,多轴向<span style=\"color:red\">编织</span>结构拉伸性能不如四步法<span style=\"color:red\">编织</span>结构,但弯曲性能接近四步法<span style=\"color:red\">编织</span>结构；轴纱的加入使多轴向管状<span style=\"color:red\">编织物</span>的拉伸性能变弱,弯曲性能增强.本文研究结果对于上述两种管状<span style=\"color:red\">编织物</span>的结构设计与性能研究具有重要的指导作用.","authors":[{"authorName":"罗冰融","id":"9e99f10c-94cc-4e70-ace7-8b7a3cc491e3","originalAuthorName":"罗冰融"},{"authorName":"曹海建","id":"e2df01e7-7f58-437d-ac20-b9bd6049353a","originalAuthorName":"曹海建"},{"authorName":"钱坤","id":"3313fd77-f2ab-40e4-bb2d-29801364114c","originalAuthorName":"钱坤"},{"authorName":"吴涛","id":"63d58cf8-f784-493e-becd-c9841033f55e","originalAuthorName":"吴涛"},{"authorName":"陈红霞","id":"5ce464ec-8598-4e81-a869-ba4f2ae927e2","originalAuthorName":"陈红霞"},{"authorName":"骆冬冬","id":"b81c9e56-e032-40f3-8df6-29b12bd6322e","originalAuthorName":"骆冬冬"}],"doi":"10.3969/j.issn.1003-0999.2012.03.008","fpage":"38","id":"0a24ae3d-6463-418c-b061-f5200590661b","issue":"3","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":"8c03c829-fc4b-4e12-80b5-4c97316c530b","keyword":"管状<span style=\"color:red\">编织物</span>","originalKeyword":"管状编织物"},{"id":"9c953a54-747f-4716-8f8e-c5f58d6b5e0e","keyword":"四步法","originalKeyword":"四步法"},{"id":"0d38e6d4-75d7-4a59-9fd9-d838035005b1","keyword":"多轴向","originalKeyword":"多轴向"},{"id":"8d52a3dd-edb1-4a4f-900c-6603511f1532","keyword":"拉伸性能","originalKeyword":"拉伸性能"},{"id":"9db59067-a539-41b4-bee6-3aba3a44f8a1","keyword":"弯曲性能","originalKeyword":"弯曲性能"}],"language":"zh","publisherId":"blgfhcl201203008","title":"三维管状<span style=\"color:red\">编织物</span>的制备及力学性能实验研究","volume":"","year":"2012"},{"abstractinfo":"本文针对风电叶片常用的多轴向经<span style=\"color:red\">编织物</span>的建模方式进行研究,主要通过计算纤维失效进行分析验证.因此本文首先探讨了复合材料的多个纤维失效准则,并对其优缺点作出对比,选取Puck准则进行下一步分析.接着对Puck准则进行了详细描述.最后研究了多轴向经<span style=\"color:red\">编织物</span>采用多层单轴向经<span style=\"color:red\">编织物</span>分层建模和通过合理等效简化成一层单轴<span style=\"color:red\">织物</span>建模,两者建模方式及纤维失效结果的差异,证明两种建模方式均是可行的,采用简化建模更能减少工作量.","authors":[{"authorName":"唐金钱","id":"1bd4728e-e68f-4ee5-b0d7-780cdd95af06","originalAuthorName":"唐金钱"},{"authorName":"朱小芹","id":"bbaa4cc6-66df-4ffb-a348-982121c20cc1","originalAuthorName":"朱小芹"},{"authorName":"鲁晓锋","id":"629b1282-8681-4152-8b57-6fa57302031d","originalAuthorName":"鲁晓锋"},{"authorName":"张登刚","id":"5f8340e0-25ab-485b-b3dd-efcf22fc50eb","originalAuthorName":"张登刚"}],"doi":"","fpage":"48","id":"7fd49682-6eb1-4e4d-aa72-f48631331f89","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":"1d45e9d5-a0c7-411d-af43-55abb4290185","keyword":"风电叶片","originalKeyword":"风电叶片"},{"id":"1e5bf70f-8a30-4e28-b147-c0450d99c4c1","keyword":"纤维失效","originalKeyword":"纤维失效"},{"id":"9bc2f020-f7c7-4910-a874-68a1d48a9a0b","keyword":"Puck准则","originalKeyword":"Puck准则"},{"id":"9b24493a-2546-44a2-98a3-1f63bf9d9b1c","keyword":"多轴向","originalKeyword":"多轴向"},{"id":"64744da3-0d87-4cc6-a462-4e892d7e0b9b","keyword":"单轴向","originalKeyword":"单轴向"},{"id":"06dbd192-0eb0-4117-9857-7a68edd62400","keyword":"经<span style=\"color:red\">编织物</span>","originalKeyword":"经编织物"}],"language":"zh","publisherId":"blgfhcl201501009","title":"风电叶片多轴向经<span style=\"color:red\">编织物</span>建模方式研究","volume":"","year":"2015"},{"abstractinfo":"在渗透性能测试方法归纳介绍的基础上,开展了试验及比较,初步确定了相应的测试试验规范.结合风机叶片的具体工艺和使用部位等,初步选定了缝<span style=\"color:red\">编织物</span>的渗透性能评估参数和测试方法,以对风机叶片用缝<span style=\"color:red\">编织物</span>渗透性能测试评估方法的统一规范确定提供一些思路.","authors":[{"authorName":"颜鸿斌","id":"127a12b6-988e-4f2d-aa90-d9aa10f0dead","originalAuthorName":"颜鸿斌"},{"authorName":"安明康","id":"9c6182d6-f351-4056-9586-88ac538ab544","originalAuthorName":"安明康"},{"authorName":"许晓燕","id":"5dc4d537-9186-4bc1-91ba-61abb67adc50","originalAuthorName":"许晓燕"},{"authorName":"李东","id":"6d1b6e08-10eb-46ae-b813-2e752734b63d","originalAuthorName":"李东"},{"authorName":"蔡建强","id":"e4a8e540-cb13-4881-84ec-4d22f126eda7","originalAuthorName":"蔡建强"}],"doi":"10.3969/j.issn.1007-2330.2011.02.026","fpage":"101","id":"03531138-38a9-4e57-b7bc-b61987b246be","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":"5f0e3fe8-ac82-496d-8d9b-92a7df85e33f","keyword":"叶片","originalKeyword":"叶片"},{"id":"adb1617d-c405-47aa-99c8-117716cc35cb","keyword":"缝<span style=\"color:red\">编织物</span>","originalKeyword":"缝编织物"},{"id":"ed341cda-a5dc-4100-853a-2446daa29c17","keyword":"渗透性能","originalKeyword":"渗透性能"}],"language":"zh","publisherId":"yhclgy201102026","title":"风机叶片用缝<span style=\"color:red\">编织物</span>渗透性能评估","volume":"41","year":"2011"}],"totalpage":1894,"totalrecord":18940}