{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"对新型防护电磁波信息泄漏材料的研究现状进行了综述.重点介绍和评述了非晶材料、纳米材料、手性材料和稀土材料在电磁波信息泄漏防护材料中的研究进展.","authors":[{"authorName":"管登高","id":"bd2cd929-cf56-4504-90a3-f094119208e5","originalAuthorName":"管登高"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"3c48d088-380f-4b03-9fa5-31385dc9434e","originalAuthorName":"黄婉霞"},{"authorName":"肖素芬","id":"2dcf210e-3195-4262-9e70-62ba1c53eb43","originalAuthorName":"肖素芬"},{"authorName":"蒋渝","id":"afe99b98-a603-4979-92df-17bf9dc4da68","originalAuthorName":"蒋渝"},{"authorName":"李洪武","id":"9b5bc824-9bbe-49b1-967b-e958dad9136f","originalAuthorName":"李洪武"},{"authorName":"陈家钊","id":"495d2c63-d2ac-4583-84cb-0feb8d16085a","originalAuthorName":"陈家钊"},{"authorName":"涂铭旌","id":"1ce1895f-b98e-48c5-84b8-77f0485f28e4","originalAuthorName":"涂铭旌"}],"doi":"","fpage":"1","id":"3ec59db1-ce22-4f4b-8a55-7281b172d40e","issue":"2","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"4dbaad88-fbc6-4ebf-8ad6-acc37f3cf140","keyword":"吸波材料","originalKeyword":"吸波材料"},{"id":"80b76ecd-0f43-49a1-b9f9-5d23333d9ac6","keyword":"非晶材料","originalKeyword":"非晶材料"},{"id":"52743272-d4e4-41d9-be5c-848239fdb240","keyword":"手性材料","originalKeyword":"手性材料"},{"id":"7d688736-5285-488c-b205-88e1d6a9dfd0","keyword":"纳米材料","originalKeyword":"纳米材料"},{"id":"9db36b9b-6001-46e2-9814-45faa426c525","keyword":"稀土材料","originalKeyword":"稀土材料"}],"language":"zh","publisherId":"cldb200402001","title":"新型防护电磁波信息泄漏材料的研究进展","volume":"18","year":"2004"},{"abstractinfo":"采用无机溶胶-凝胶法在二氧化硅基底上制备不同厚度的二氧化钒薄膜,通过X射线光电子能谱、X射线衍射和场发射扫描电子显微镜分析薄膜的化学组成和微观结构,并利用变温傅里叶变换红外光谱对薄膜在红外波段的相变性能进行检测.结果发现:薄膜均沿(110)晶面择优生长;随厚度增加,其结晶度提高,表面晶粒明显增大,大小分布越不均匀,并导致薄膜在红外波段的低温和高温透过率均降低,滞后温宽变窄,相变陡然性增强.","authors":[{"authorName":"岳芳","id":"244c2d21-f6fc-4a3c-8a26-7064d059f363","originalAuthorName":"岳芳"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"f8d3daf0-c34d-4ade-8c17-4aa90dc4d2a7","originalAuthorName":"黄婉霞"},{"authorName":"施奇武","id":"7a9d33df-5084-42a3-aca2-16b5b8fff00f","originalAuthorName":"施奇武"},{"authorName":"邓贤进","id":"6d8e9945-2760-43bc-bebc-572253f14889","originalAuthorName":"邓贤进"},{"authorName":"王成","id":"71fee260-9b9e-4a46-b28f-c48c03e7ef52","originalAuthorName":"王成"},{"authorName":"张敬雨","id":"308d37fa-b4e2-4a09-be4b-16bc775f6b1f","originalAuthorName":"张敬雨"},{"authorName":"李丹霞","id":"d8d4cb4e-3496-4cd3-9eda-b2529f5c7d9e","originalAuthorName":"李丹霞"}],"doi":"","fpage":"1955","id":"40a8b1da-ab1d-4b32-8cb7-bf252f2c25fd","issue":"8","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"2a25e1b8-e866-4921-a775-17175f360851","keyword":"二氧化钒薄膜","originalKeyword":"二氧化钒薄膜"},{"id":"68dfe00c-3239-421f-8bb1-2d809355213d","keyword":"二氧化硅基底","originalKeyword":"二氧化硅基底"},{"id":"223cb9f6-88ac-46cc-92b0-3cccc9557e7b","keyword":"溶胶凝胶","originalKeyword":"溶胶凝胶"},{"id":"70c87186-142d-4529-9fa8-47f87286f962","keyword":"微观结构","originalKeyword":"微观结构"},{"id":"cb61e2ed-c896-4f33-84fd-3e851f9567c9","keyword":"相变性能","originalKeyword":"相变性能"}],"language":"zh","publisherId":"xyjsclygc201408032","title":"SiO2基底表面VO2薄膜的生长模式及相变性能分析","volume":"43","year":"2014"},{"abstractinfo":"以双氧水和V2O5粉末为前驱体制备出V2O5溶胶,然后在云母基底上成膜,通过后续热处理退火得到优异相变性能的VO2薄膜.采用SEM、XRD分析薄膜形貌和微观结构,利用FT-IR等检测薄膜的光学性质.实验表明,VO2薄膜在云母基底上沿(011)晶面择优取向生长,颗粒生长致密且大小分布均匀.薄膜具有优异的相变陡然性,相变温度及滞后温宽都较低.在红外波段,相变前后透过率及反射率变化都较大,对红外光调节性能较好；在可见光波段,薄膜在相变前后都具有较高可见光透过率.","authors":[{"authorName":"宋林伟","id":"ee4af1c2-a693-4774-954e-dea1f2d123ac","originalAuthorName":"宋林伟"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"a858c683-8b5f-4787-b9f0-f2b43a113063","originalAuthorName":"黄婉霞"},{"authorName":"张玉波","id":"b86f54c1-3ac6-43a2-b800-f1aa7846c48c","originalAuthorName":"张玉波"},{"authorName":"徐元杰","id":"17753f10-2d9c-49c7-b2de-468297c6671d","originalAuthorName":"徐元杰"},{"authorName":"张阳","id":"6074dfb5-1841-45e0-b053-d633de881db2","originalAuthorName":"张阳"},{"authorName":"李娜","id":"fef5bd43-c27b-4204-8d1c-9cd388c4f374","originalAuthorName":"李娜"},{"authorName":"李丹霞","id":"e63a5bef-b79d-47c1-a2e9-cf45d29ae0d0","originalAuthorName":"李丹霞"}],"doi":"","fpage":"1110","id":"5bae1e7f-9c03-40d4-8e26-ec69f9fef91b","issue":"8","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"98d384ab-7404-4169-b136-74d3c0f7e1b3","keyword":"VO2薄膜","originalKeyword":"VO2薄膜"},{"id":"d74115fc-6706-4ff6-a412-141e9af5bf0a","keyword":"相变特性","originalKeyword":"相变特性"},{"id":"e4db7fe3-579a-439d-b49f-403615d0df97","keyword":"溶胶-凝胶","originalKeyword":"溶胶-凝胶"},{"id":"7d8ce776-f8ad-4fc8-867e-d92a223b1faa","keyword":"双氧水","originalKeyword":"双氧水"},{"id":"ed446cca-5668-4dd5-a4d4-e4fcfe2a639a","keyword":"光学性质","originalKeyword":"光学性质"}],"language":"zh","publisherId":"gncl201308012","title":"VO2薄膜的制备及其热致相变特性研究","volume":"44","year":"2013"},{"abstractinfo":"通过溶胶&ndash;凝胶法制备纯的VO<sub>2</sub>和W掺杂的VO<sub>2</sub>薄膜, 并且进行了XPS、AFM和XRD的分析与表征, 并观察了其微观形貌和结构. 同时研究了VO<sub>2</sub>和W掺杂VO<sub>2</sub>在红外光谱(<em>&lambda;</em>=4 &mu;m)和THz(0.3~1.0 THz)区域的金属&ndash;绝缘转变性能. 结果表明: 室温下W掺杂的VO<sub>2</sub>薄膜在红外和THz区域的初始透过率都比纯的VO<sub>2</sub>薄膜低. 在THz波段, W掺杂的VO<sub>2</sub>表现出更低的相变温度. 同时在VO<sub>2</sub>和W掺杂VO<sub>2</sub>相变过程中, 观察到了金属&ndash;绝缘转变和结构转变的现象, W掺杂VO<sub>2</sub>具有明显的峰位偏移现象.","authors":[{"authorName":"毛茂","id":"6bacd2c6-1983-4037-bcaa-b217d580c820","originalAuthorName":"毛茂"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"3d38a171-d080-425b-bbd1-dfa25c088135","originalAuthorName":"黄婉霞"},{"authorName":"张雅鑫","id":"cbc9fb74-5f16-4ce2-96a5-1e0eb1161efe","originalAuthorName":"张雅鑫"},{"authorName":"颜家振","id":"81255556-b8f6-4f5c-a587-e9e9c93e60d3","originalAuthorName":"颜家振"},{"authorName":"罗轶","id":"aeea7073-83e0-46e4-8e22-e754784db2a1","originalAuthorName":"罗轶"},{"authorName":"施奇武","id":"793e4c5c-8d95-417c-8b91-9720315f3440","originalAuthorName":"施奇武"},{"authorName":"蔡靖涵","id":"08143e21-a521-4beb-8390-9027eaaf16b0","originalAuthorName":"蔡靖涵"}],"categoryName":"|","doi":"10.3724/SP.J.1077.2012.12131","fpage":"891","id":"e16daa5a-ba23-4f27-a950-6c48d8ec65f5","issue":"8","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"df91d195-7ee8-4608-98fe-0d6102e48a42","keyword":"二氧化钒; 红外透过率; 太赫兹; 钨掺杂","originalKeyword":"二氧化钒; 红外透过率; 太赫兹; 钨掺杂"}],"language":"zh","publisherId":"1000-324X_2012_8_6","title":"钨掺杂二氧化钒薄膜的THz波段相变性能的研究","volume":"27","year":"2012"},{"abstractinfo":"以金红石纳米TiO2为抗老化添加剂改性了PP材料,采用TEM、XRD、UV-VIS等测试手段分析了纳米TiO2的性能特征,用氙灯耐气候试验机人工加速了PP材料的老化降解,对比分析了纯PP和改性PP老化期间力学性能的变化规律,用SEM分析了PP材料的断口表面形貌及纳米TiO2的分散情况.研究结果表明,纳米TiO2及其复合材料对PP材料有增韧增强作用,并能赋予改性材料优异的耐候性能,延长PP制品的使用寿命.","authors":[{"authorName":"曹建军","id":"aa6303e8-a032-4e85-80f2-457f6a27d598","originalAuthorName":"曹建军"},{"authorName":"郭刚","id":"5dca4db9-b28b-4449-a8b8-0a26b265f268","originalAuthorName":"郭刚"},{"authorName":"汪斌华","id":"4abd2552-763f-43d0-a22d-f46228abf262","originalAuthorName":"汪斌华"},{"authorName":"段小平","id":"d4cf9adc-d48b-4659-8898-f8117c72986a","originalAuthorName":"段小平"},{"authorName":"吴健春","id":"b7b17b7d-6971-43e4-b9cc-2d42f8cbfa28","originalAuthorName":"吴健春"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"e9dda593-5bcb-4a90-9b7f-6a1500a47427","originalAuthorName":"黄婉霞"},{"authorName":"涂铭旌","id":"a6ee1fb5-2249-405e-8532-991d264ffcf8","originalAuthorName":"涂铭旌"}],"doi":"10.3969/j.issn.1004-7638.2004.02.002","fpage":"6","id":"f5e1911f-8c9b-4c8b-9989-185ccf082bbc","issue":"2","journal":{"abbrevTitle":"GTFT","coverImgSrc":"journal/img/cover/gtft1.jpg","id":"28","issnPpub":"1004-7638","publisherId":"GTFT","title":"钢铁钒钛"},"keywords":[{"id":"12aebb35-8f7e-4fcf-9ab7-ad1c69b5bda7","keyword":"纳米TiO2","originalKeyword":"纳米TiO2"},{"id":"6aa00cb2-8e9c-429e-8e96-0d789b2bfbb1","keyword":"聚丙烯","originalKeyword":"聚丙烯"},{"id":"04786ebb-0185-4b1c-8e23-dc39175ee63a","keyword":"抗老化","originalKeyword":"抗老化"},{"id":"911d13ff-06e4-41e1-a27f-ee03d7636dc7","keyword":"力学性能","originalKeyword":"力学性能"},{"id":"a6786225-e669-4130-becb-cf32e09565b8","keyword":"断口形貌","originalKeyword":"断口形貌"}],"language":"zh","publisherId":"gtft200402002","title":"金红石型纳米TiO2在聚丙烯塑料中的抗老化应用研究","volume":"25","year":"2004"},{"abstractinfo":"通过溶胶-凝胶法制备纯的VO2和W掺杂的VO2薄膜,并且进行了XPS、AFM和XRD的分析与表征,并观察了其微观形貌和结构.同时研究了VO2和W掺杂VO2在红外光谱(λ=4μm)和THz(0.3～1.0 THz)区域的金属-绝缘转变性能.结果表明:室温下W掺杂的VO2薄膜在红外和THz区域的初始透过率都比纯的VO2薄膜低.在THz波段,W掺杂的VO2表现出更低的相变温度.同时在VO2和W掺杂VO2相变过程中,观察到了金属-绝缘转变和结构转变的现象,W掺杂VO2具有明显的峰位偏移现象.","authors":[{"authorName":"毛茂","id":"407351b6-1a60-474c-b005-c0f2d975f895","originalAuthorName":"毛茂"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"66b53102-5f0a-44b8-96cf-8a36621e461d","originalAuthorName":"黄婉霞"},{"authorName":"张雅鑫","id":"89e86ea8-f53d-4026-9b1c-4af9430203b5","originalAuthorName":"张雅鑫"},{"authorName":"颜家振","id":"573fe374-0cae-4a80-b39a-707de2f1a867","originalAuthorName":"颜家振"},{"authorName":"罗轶","id":"bd0a877a-5ec4-4239-b70f-01b0abbb3b66","originalAuthorName":"罗轶"},{"authorName":"施奇武","id":"3135bcb4-0e20-4328-9ca1-8f168337f2de","originalAuthorName":"施奇武"},{"authorName":"蔡靖涵","id":"863ddfd5-74f8-4836-9044-c1f4bd53e507","originalAuthorName":"蔡靖涵"}],"doi":"10.3724/SP.J.1077.2012.12131","fpage":"891","id":"3c29fb96-9a17-452f-8f4d-9f0e36ee614a","issue":"8","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"f6ddafe3-0123-417a-83d5-88b6aba49320","keyword":"二氧化钒","originalKeyword":"二氧化钒"},{"id":"2c7ec053-2b11-44d0-a7cf-68708cd20048","keyword":"红外透过率","originalKeyword":"红外透过率"},{"id":"d00bb59b-63b5-4b14-b8bc-5773a2195549","keyword":"太赫兹","originalKeyword":"太赫兹"},{"id":"fb0ebc83-d882-4a06-94ec-b0903977f75e","keyword":"钨掺杂","originalKeyword":"钨掺杂"}],"language":"zh","publisherId":"wjclxb201208021","title":"钨掺杂二氧化钒薄膜的THz波段相变性能的研究","volume":"27","year":"2012"},{"abstractinfo":"以云母(001)晶面和玻璃片为衬底,采用溶胶-凝胶法在其表面制VO2薄膜.利用XRD,AFM,FTIR等手段分析了不同衬底上薄膜的微观结构和光学性能.结果表明,云母表面VO22薄膜常温下呈单一的(011)取向,而玻璃表面VO2薄膜呈现(100)和(011)2种取向,单一(011)晶体取向的OV2薄膜表现出更好的光学开关性能.还分析了VO2薄膜的晶体取向对其光学性能的影响.","authors":[{"authorName":"颜家振","id":"32c22998-5032-4cd9-9389-fa32172524f3","originalAuthorName":"颜家振"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"044a1676-ec5f-4801-bfac-142f1a067ab4","originalAuthorName":"黄婉霞"},{"authorName":"张月","id":"8ea03381-1de8-4623-809a-feccfede2de4","originalAuthorName":"张月"},{"authorName":"刘小杰","id":"95e9b9f6-0af9-4f84-bea1-a70fe26eff81","originalAuthorName":"刘小杰"},{"authorName":"涂铭旌","id":"96fae3cd-2de4-4dd8-82e2-f90fb3901b2d","originalAuthorName":"涂铭旌"}],"doi":"","fpage":"819","id":"0a9d1481-f850-4a61-95e6-e8d0815481df","issue":"5","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"a549c46e-c74e-49a5-b074-56d55b22b8b8","keyword":"云母衬底","originalKeyword":"云母衬底"},{"id":"d7f32991-73ff-4db9-91fd-f847ae1845b1","keyword":"VO2薄膜","originalKeyword":"VO2薄膜"},{"id":"e01d83a5-03e3-4764-835a-6ebcfa96dbe1","keyword":"热致相变","originalKeyword":"热致相变"},{"id":"24d9197c-630b-42dc-8cad-b959258caa14","keyword":"结晶取向","originalKeyword":"结晶取向"}],"language":"zh","publisherId":"xyjsclygc200805016","title":"不同衬底上VO2薄膜的微观结构和光学性能研究","volume":"37","year":"2008"},{"abstractinfo":"以云母(001)为衬底,采用无机溶胶-凝胶法,通过加入表面活性剂十二烷基三甲基溴化铵(CTAB),在不同条件下制备了多孔VO2薄膜.采用SEM、FT-IR等手段分析了薄膜的表面形貌和热致相变性能.结果表明,膜的热处理工艺参数等对薄膜的表面形貌、颗粒尺寸及光学性能有重要影响,多孔VO2薄膜的形成与退火温度、保温时间及退火环境有关.","authors":[{"authorName":"徐元杰","id":"610e3905-cecc-49c7-bc0d-a0b47c7e6a38","originalAuthorName":"徐元杰"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"b370cd84-6f5b-490a-a620-7007dcf7674c","originalAuthorName":"黄婉霞"},{"authorName":"施奇武","id":"9909847f-ee04-4fc8-a184-4a405f92a30a","originalAuthorName":"施奇武"},{"authorName":"张阳","id":"2232d3a5-7a45-4350-a616-90515fb22a79","originalAuthorName":"张阳"},{"authorName":"宋林伟","id":"dc2af48c-52b5-48b2-a29c-5599a553eef6","originalAuthorName":"宋林伟"}],"doi":"","fpage":"266","id":"0e698bdd-aa49-4f18-afdd-2fd836465fb4","issue":"2","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"81d21146-47de-4fcf-a48f-b8de3aa75ca8","keyword":"VO2薄膜","originalKeyword":"VO2薄膜"},{"id":"99aef9bd-5fb7-4cb9-aa6f-6b1becf242be","keyword":"多孔","originalKeyword":"多孔"},{"id":"0b68b034-4702-4b7f-97cd-b5b73e04ef68","keyword":"CTAB","originalKeyword":"CTAB"},{"id":"6a4a74ab-3609-4dcd-8a63-424174be63ee","keyword":"光学性能","originalKeyword":"光学性能"},{"id":"e5ddf9b7-7d35-4de4-a726-5e478167edf1","keyword":"形貌","originalKeyword":"形貌"}],"language":"zh","publisherId":"gncl201302026","title":"合成条件对多孔VO2薄膜形貌和光学性能的影响","volume":"44","year":"2013"},{"abstractinfo":"将纳米氧化锌以一定比例加到丙烯酸涂料中,制得纳米抗菌涂料.研究表明,这种涂料具有优良的抗菌性.讨论了纳米氧化锌的添加量以及涂料的抗菌机理.","authors":[{"authorName":"李彦峰","id":"d495ccc5-81ec-4ebc-94ec-a94638600d15","originalAuthorName":"李彦峰"},{"authorName":"汪斌华","id":"5ddf8724-362e-433d-9d42-d8ac454c323f","originalAuthorName":"汪斌华"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"0345e1d7-e22b-484a-8479-dc7b456b141d","originalAuthorName":"黄婉霞"},{"authorName":"郑洪平","id":"e0ee7dce-2e2e-4da6-9065-fbff42685030","originalAuthorName":"郑洪平"},{"authorName":"涂铭旌","id":"818c7589-66e6-421e-8936-bdc9f1dd9020","originalAuthorName":"涂铭旌"}],"doi":"10.3969/j.issn.0253-4312.2003.08.002","fpage":"3","id":"1147e747-2e9a-4a65-a85a-e595be69a723","issue":"8","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业   "},"keywords":[{"id":"b7b8164d-df75-4478-9afa-1d2637e0efb1","keyword":"纳米氧化锌","originalKeyword":"纳米氧化锌"},{"id":"a17ecdf3-b465-46b4-9217-c99ac622e370","keyword":"抗菌涂料","originalKeyword":"抗菌涂料"},{"id":"db57b860-2cb6-4759-9350-a42220f35956","keyword":"抗菌机理","originalKeyword":"抗菌机理"}],"language":"zh","publisherId":"tlgy200308002","title":"纳米ZnO改性内墙涂料抗菌性研究","volume":"33","year":"2003"},{"abstractinfo":"探讨了在疲劳/蠕变复合作用下聚碳酸酯的损伤交互作用.结果表明,在疲劳/蠕变复合作用下聚碳酸酯存在疲劳和蠕变的交互损伤,其断裂寿命比纯疲劳或纯蠕变的断裂寿命低;断裂机制是由于疲劳循环载荷周期变化导致分子链和链段伸长/收缩往复运动,使在蠕变单向外力作用中受阻的分子链和链段松动和活化,从而促进蠕变运动和断裂.并且,疲劳/蠕变的交互损伤程度与温度密切相关.聚碳酸酯在较低温度的疲劳/蠕变交互损伤作用大于较高温度的交互损伤作用.随温度升高,疲劳/蠕变断裂寿命下降是疲劳和蠕变各自的单独损伤增加所致.","authors":[{"authorName":"宋之敏","id":"d0a273e3-cd04-4d29-a05d-5981877b5507","originalAuthorName":"宋之敏"},{"authorName":"<span style=\"color:red\">黄</span><span style=\"color:red\">婉</span><span style=\"color:red\">霞</span>","id":"2c9f194e-b452-4aea-95fe-3bc8fe5387c9","originalAuthorName":"黄婉霞"},{"authorName":"倪海鹰","id":"39ab149c-f230-441c-90ec-6802d14049b7","originalAuthorName":"倪海鹰"},{"authorName":"刘民治","id":"04b0e72e-60f9-46c0-9045-c515a5af0d81","originalAuthorName":"刘民治"},{"authorName":"向海","id":"714f9f71-78bb-4e33-b62b-e3d379188394","originalAuthorName":"向海"}],"doi":"10.3969/j.issn.1005-5053.2003.04.010","fpage":"44","id":"11ac2bfb-ebd4-4a8a-86dd-85a8840ff913","issue":"4","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":"3b2edc70-37c3-4c64-be00-0d6219fc29c9","keyword":"聚碳酸酯","originalKeyword":"聚碳酸酯"},{"id":"aa31f717-7fb9-478e-86dd-d3399fde6a8c","keyword":"疲劳","originalKeyword":"疲劳"},{"id":"fea23514-6f73-4cfa-afc7-b9df84719c4e","keyword":"蠕变","originalKeyword":"蠕变"},{"id":"f24cd2c0-a53b-4c4b-8116-66004f8b40f3","keyword":"交互损伤作用","originalKeyword":"交互损伤作用"}],"language":"zh","publisherId":"hkclxb200304010","title":"疲劳/蠕变复合作用下聚碳酸酯的交互损伤研究","volume":"23","year":"2003"}],"totalpage":56,"totalrecord":560}