{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"根据局部高温、高热流加热等特殊场合的需求,设计、加工了钠高温热管及锂超高温热管,并对热管的启动和极限特性进行了研究。高温及超高温热管能够顺利启动,但启动时应注意可能到来的声速传热极限。端部加热启动时,端部附近管体部分会形成一段“等效”的加热段,可以将工质从启动时的固体状态到全部熔化形成相变传热及流动循环的时间确定为启动时间。热管的传热极限特性表明,超高温热管应工作在更高的温度和更大的热流密度。热管的结构和工艺优化有利于启动和运行。","authors":[{"authorName":"曲伟","id":"b41097e9-b608-491a-a9c5-5775b6654f13","originalAuthorName":"曲伟"},{"authorName":"王焕光","id":"6a203711-1e16-446b-ad74-acfb6f20e1b3","originalAuthorName":"王焕光"},{"authorName":"段彦军","id":"ffa28883-deb5-4371-bef8-337b30dce87a","originalAuthorName":"段彦军"}],"doi":"","fpage":"1345","id":"1b4131e9-4af9-4c57-9f2d-a411a449be8b","issue":"8","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":"4d6b2b15-29a4-4645-894a-effe512e07c5","keyword":"高温热管","originalKeyword":"高温热管"},{"id":"d7e048af-f3fb-4186-aa6c-ce4341434359","keyword":"超高温热管","originalKeyword":"超高温热管"},{"id":"dd859cc1-aab7-4f30-b304-05091fbec204","keyword":"端部加热","originalKeyword":"端部加热"},{"id":"c7ff3001-28b3-4773-8033-21ac2517963a","keyword":"启动时间","originalKeyword":"启动时间"},{"id":"3f0a10ac-50a6-4fd9-99a9-ac2f14719a4d","keyword":"传热极限","originalKeyword":"传热极限"}],"language":"zh","publisherId":"gcrwlxb201108022","title":"高温及超高温热管的启动特性和传热极限","volume":"32","year":"2011"},{"abstractinfo":"本文利用爆炸式和电磁式加速器模拟研究空间粉尘粒子对高温热管的碰撞损伤效应.研究表明,微米级粉尘粒子难以击穿航天器高温热管管壁,但对热管表面的热控涂层光学性能变化有较大影响.亚毫米级粉尘粒子取决于速度的不同,高温热管由表面热控涂层光学性能下降一直到被击穿发生载热体的泄漏现象.针对高温热管在高速粉尘粒子撞击下的运行密封性和辐射功率等问题进行了试验研究及理论分析.测量结果表明,高温热管在工作温度T=900K时,被粉尘粒子击穿的速度由常温下的5.3 km/s降为4.8 km/s.","authors":[{"authorName":"白羽","id":"b4072816-9894-4167-aa16-03889fef8d63","originalAuthorName":"白羽"},{"authorName":"杨德庄","id":"eea2950d-f716-4464-9a67-f87176b1cd04","originalAuthorName":"杨德庄"},{"authorName":"叶铸玉","id":"387df7e4-e2b7-45be-94f6-4b507d35ddf4","originalAuthorName":"叶铸玉"},{"authorName":"Н.Д.Сёмкин","id":"a7e7b954-9fe7-4e6e-8b05-a513c4ee026f","originalAuthorName":"Н.Д.Сёмкин"}],"doi":"10.3969/j.issn.1005-0299.2005.05.019","fpage":"513","id":"c20ef432-f61f-4b97-a836-5cbb8ae4eafc","issue":"5","journal":{"abbrevTitle":"CLKXYGY","coverImgSrc":"journal/img/cover/CLKXYGY.jpg","id":"14","issnPpub":"1005-0299","publisherId":"CLKXYGY","title":"材料科学与工艺"},"keywords":[{"id":"8acea857-7ac5-4ba1-af83-5a38d34921a4","keyword":"空间粉尘","originalKeyword":"空间粉尘"},{"id":"63af81c7-da97-4cb2-af91-9b83ddc8ff3c","keyword":"高温热管","originalKeyword":"高温热管"},{"id":"29dfaa67-09ab-40e5-b04f-dfd21ea90dcf","keyword":"高速撞击","originalKeyword":"高速撞击"},{"id":"0474232a-30d9-4144-8256-87e233ca4c67","keyword":"地面模拟","originalKeyword":"地面模拟"}],"language":"zh","publisherId":"clkxygy200505019","title":"空间粉尘对航天器高温热管撞击效应的研究","volume":"13","year":"2005"},{"abstractinfo":"利用石英灯辐射加热器和电孤风洞耦合加热模拟高超声速飞行器驻点高温区的加热环境,对一种内部为高温热管和一种内部为高导热石墨的简单球柱形套装样件进行了加热试验.利用非接触红外测温装置对样件表面的温度进行了测量,通过与内部为C/C材料制成的对比样件的试验结果分析,发现高温热管和高导热石墨均能够有效地将样件驻点高温区热量传导到柱身低温区,其中高温热管样件驻点温度降低9.5%,柱身温度升高14.6%;高导热石墨驻点温度降低14.4%,柱身温度升高11.4%,显示两种材料均具有良好的热疏导效果.","authors":[{"authorName":"欧东斌","id":"326475a9-a986-4a1e-a1c3-8e7ea4fedc77","originalAuthorName":"欧东斌"},{"authorName":"陈连忠","id":"777292ac-725d-49f5-a0b2-4aa5327eb9ed","originalAuthorName":"陈连忠"},{"authorName":"陈海群","id":"d5e316be-6311-46b0-887c-4454d14e8daa","originalAuthorName":"陈海群"},{"authorName":"俞继军","id":"45be0ade-20cd-470e-99f2-3491cd26c200","originalAuthorName":"俞继军"},{"authorName":"陈思员","id":"a1e338b9-c486-4197-9663-3156db8dfa7d","originalAuthorName":"陈思员"}],"doi":"10.3969/j.issn.1007-2330.2014.02.011","fpage":"54","id":"7caee9da-6e2f-4b8c-aa4c-ab8e4d40afe0","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":"08f6763e-c300-40c1-b014-48dda7424353","keyword":"高温热管","originalKeyword":"高温热管"},{"id":"14ef9bee-e54d-43fc-aa54-da8f63a520a1","keyword":"高导热石墨","originalKeyword":"高导热石墨"},{"id":"fdbbb649-2a49-466a-9d4a-155c880d2da4","keyword":"疏导式热防护","originalKeyword":"疏导式热防护"},{"id":"2de0d94e-05d0-46a8-a1aa-84d213610393","keyword":"电弧风洞","originalKeyword":"电弧风洞"}],"language":"zh","publisherId":"yhclgy201402011","title":"高温热管与高导热石墨烧蚀传热性能","volume":"44","year":"2014"},{"abstractinfo":"采用内置高温热管的热防护结构是一种新型高效的热防护方式.建立了内置高温热管的C/C复合材料热防护结构模型,并通过罚甬数的方法引入C/C复合材料与高温热管间装配关系,推导了一种顺序耦合的热力耦合有限元格式,在此基础上对热防护结构进行了热力耦合计算分析,最后对影响结构温度场与应力场的若干参数进行了参数影响分析.计算结果表明,在典型飞行状态下,采用内置高温热管的C/C复合材料热防护结构能确保结构驻点温度在材料许用温度范围内;同时,采用预留装配同隙的方法可有效降低结构界面的接触应力.该方法也可进一步用于研究由接触热阻引起的热力耦合问题.","authors":[{"authorName":"刘冬欢","id":"b1dcd6ef-cddc-42cd-9928-105899657afc","originalAuthorName":"刘冬欢"},{"authorName":"郑小平","id":"fb4e7461-5a8f-444d-831a-38d93c98d2c7","originalAuthorName":"郑小平"},{"authorName":"王飞","id":"cba8e61e-98d3-4c03-a352-bd3d51fc2e25","originalAuthorName":"王飞"},{"authorName":"刘应华","id":"6e624af7-0156-4bae-8c59-bfd11e9e2519","originalAuthorName":"刘应华"}],"doi":"","fpage":"43","id":"057a5141-fe3b-4a4a-907c-47aee3743233","issue":"3","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":"7d3d2bed-36cc-45f8-a0ac-85b8290a350d","keyword":"C/C复合材料","originalKeyword":"C/C复合材料"},{"id":"2d592e6d-6303-4282-8bcb-810e20aa999d","keyword":"热防护","originalKeyword":"热防护"},{"id":"7a84be88-6cc1-46a7-a472-76df25bc5e1f","keyword":"高温热管","originalKeyword":"高温热管"},{"id":"92fbbbe7-e096-4d57-94ed-2e9be525dece","keyword":"热力耦合","originalKeyword":"热力耦合"}],"language":"zh","publisherId":"fhclxb201003007","title":"内置高温热管C/C复合材料热防护结构热力耦合机制","volume":"27","year":"2010"},{"abstractinfo":"热管是一种高效的传热元件,低温热管可望在超导磁体冷却、空间探索方面获得广泛应用.本文对热虹吸管的传热特性进行了实验研究.研究结果表明,在同样加热功率的条件下,与相同形状和尺寸的紫铜导热棒相比,在加热功率较高的条件下,低温热管的传热性能远远优于紫铜棒的传热性能,完全能够满足超导磁体的冷却要求.","authors":[{"authorName":"刁彦华","id":"f5f078b8-f3a3-4888-82bf-ba0e03f0dc07","originalAuthorName":"刁彦华"},{"authorName":"王秋良","id":"c9ac5ea2-4f18-4b9d-ac9a-69852e16d180","originalAuthorName":"王秋良"},{"authorName":"赵耀华","id":"c1f26b6d-ef80-4e97-b4c1-1572e8c5fc36","originalAuthorName":"赵耀华"}],"doi":"","fpage":"1898","id":"387ee3a3-3771-4405-9396-6254e383cc23","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":"a8f033ed-5253-488b-9263-06b7d0a55855","keyword":"低温","originalKeyword":"低温"},{"id":"f8c77fc6-023f-4e10-9f95-1cf80ce87b01","keyword":"热虹吸管","originalKeyword":"热虹吸管"},{"id":"3f200ea5-1ed6-4d82-921f-22b70c9afb32","keyword":"传热特性","originalKeyword":"传热特性"},{"id":"f4a07d3b-d6c1-4b27-a27c-8d2e35fb7865","keyword":"热阻","originalKeyword":"热阻"}],"language":"zh","publisherId":"gcrwlxb200811024","title":"低温热管传热性能的实验研究","volume":"29","year":"2008"},{"abstractinfo":"本文针对余热回收中控制热源温度的需求,提出了热管理器概念并研制开发了实验样机.本文建立了热管理器内部传热传质二维模型,研究其工作机理.模拟结果表明,不凝气具有有效的凝结换热阻隔作用.工况变化时,蒸汽覆盖段长度显著变化,而这一区域内饱和蒸汽温度变化很小,说明热管理器具有良好的控温性能.计算结果与实验数据吻合很好,验证了理论模型的正确性.","authors":[{"authorName":"李胜","id":"19d7c2ad-20f5-4660-8918-98b8581ec83b","originalAuthorName":"李胜"},{"authorName":"吴静怡","id":"7f1b1810-efdd-4ef8-a46c-fe8182f41482","originalAuthorName":"吴静怡"},{"authorName":"王如竹","id":"cfd044b7-84de-4b50-b5df-4845991eda18","originalAuthorName":"王如竹"},{"authorName":"皇甫艺","id":"b6b87090-aa2b-45b3-adfd-a0dbc71021f1","originalAuthorName":"皇甫艺"}],"doi":"","fpage":"682","id":"c5fe3d58-f000-40f8-a89a-7a528f2b893a","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":"80bcc418-8a44-4b9e-a12f-a737432ba762","keyword":"传热传质","originalKeyword":"传热传质"},{"id":"fb0b0da7-415e-450d-84e4-f2e30f4ca527","keyword":"余热回收","originalKeyword":"余热回收"},{"id":"f5f4fc22-cf61-4adc-a517-efe8c7b32e96","keyword":"控温","originalKeyword":"控温"},{"id":"4aa7e544-2348-4eb2-bc58-6a67a755a2dd","keyword":"模拟","originalKeyword":"模拟"}],"language":"zh","publisherId":"gcrwlxb200704045","title":"一种控温热管理器的传热传质分析","volume":"28","year":"2007"},{"abstractinfo":"通过热重(TG)实验研究了不同温度和时间下烟煤煤焦反应性的变化特性,辅助拉曼光谱对烟煤煤焦反应性变化的原因进行了分析,得到了煤焦热失活动力学模型.结果表明,随着热处理温度(HTT)和时间的增加,煤焦的反应性逐渐降低;煤焦的有序化程度随着热处理温度的升高而加深,说明煤焦在高温热处理下结构趋于稳定,是煤焦失活的主要原因.改进并用实验值验证了Salatino等人提出的煤焦热失活动力学模型,得到了可以用于CFD软件的煤焦热失活动力学模型.","authors":[{"authorName":"丁兆勇","id":"37730988-401b-4b0b-97c0-ab026925041b","originalAuthorName":"丁兆勇"},{"authorName":"李振山","id":"aa275c0f-5d79-4a21-a6cd-69b0f7ce2db0","originalAuthorName":"李振山"},{"authorName":"蔡宁生","id":"79f0b988-2487-429c-a812-aedc10fd796e","originalAuthorName":"蔡宁生"}],"doi":"","fpage":"819","id":"a33885d9-992a-40f8-a17c-32c98e44cd47","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":"18fd26bc-5b1f-434c-9201-03a2dc990c4f","keyword":"煤焦","originalKeyword":"煤焦"},{"id":"bddd807a-82b3-460f-976a-4677234f98a2","keyword":"热失活","originalKeyword":"热失活"},{"id":"e3388e10-f617-4ad8-9227-b5c408f372f2","keyword":"反应性","originalKeyword":"反应性"},{"id":"ddfc4e44-5ca3-46ef-a309-d1d40e13c33b","keyword":"燃烧","originalKeyword":"燃烧"},{"id":"5a4b1e6c-cbc4-401c-a2e6-ced2ffafba41","keyword":"碳有序化","originalKeyword":"碳有序化"}],"language":"zh","publisherId":"gcrwlxb201404045","title":"烟煤煤焦高温热失活特性","volume":"35","year":"2014"},{"abstractinfo":"本文针对余热利用中既需控制热源温度又需要对热量输入/输出进行管理的场合,提出了热管理器的概念.在运行过程中,热管理器可以实现对热源温度的控制,并根据各个用热对象的级别及工况,通过不凝性气体体积的变化,自动实现对热量输出的分配.为了验证热管理器的可行性,本文建立了实验样机及系统.实验结果表明,加热功率从6.0kW上升至14.0 kW,工质蒸汽温度的变化幅度仅为0.7℃.工质蒸汽/不凝性气体的交界面起到了良好的\"热开关\"作用.从热源回收的热量,按照优先级顺序依次分配给各个热用户.","authors":[{"authorName":"皇甫艺","id":"991033b2-293a-4a8a-9429-b38d613711a9","originalAuthorName":"皇甫艺"},{"authorName":"吴静怡","id":"a7a00e25-940f-40d8-8c68-a5f950ce2c25","originalAuthorName":"吴静怡"},{"authorName":"王如竹","id":"4795cd62-5081-420a-9165-4dab5dff4bbb","originalAuthorName":"王如竹"},{"authorName":"夏再忠","id":"2de81b1f-8bd2-480e-b461-6fd1cf35f143","originalAuthorName":"夏再忠"}],"doi":"","fpage":"361","id":"6a4261c8-2ca8-4bd8-b5cd-2b28bf450ed2","issue":"3","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":"0f84c312-1088-4b0f-8d76-de00302e442f","keyword":"余热利用","originalKeyword":"余热利用"},{"id":"c808eed3-51e0-4d26-87aa-a479d1e752e4","keyword":"热管理","originalKeyword":"热管理"},{"id":"577b78df-df84-45c8-84f8-7a57e64ed059","keyword":"控温","originalKeyword":"控温"},{"id":"b9634b1c-ef43-4e0d-8bb8-b3b2773d25a7","keyword":"凝结换热","originalKeyword":"凝结换热"}],"language":"zh","publisherId":"gcrwlxb200703001","title":"一种控温热管理器的实验研究","volume":"28","year":"2007"},{"abstractinfo":"高温热管是槽式光热发电的关键核心部件,其性能将决定光热转换效率.高温热管要求玻璃-金属封接部位具有气密性好、封接强度高、封接处应力小和抗热冲击性能好等特性.以高温热管的玻璃-金属封接的材料、结构、工艺为出发点,总结了其对高温热管性能的影响,以期推动槽式光热发电事业发展.","authors":[{"authorName":"田英良","id":"59dcf98e-19d1-433a-8b59-576754c523d4","originalAuthorName":"田英良"},{"authorName":"邵艳丽","id":"54f4fe01-30a0-4211-8164-430a725578aa","originalAuthorName":"邵艳丽"},{"authorName":"孙诗兵","id":"09bb99be-2c4d-4b0f-980f-8c05111bf455","originalAuthorName":"孙诗兵"}],"doi":"","fpage":"153","id":"ffa7bd82-9b6c-4428-8359-9ee9f69eaddb","issue":"z2","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"b3e7d847-0e19-4629-92a5-5dc3d74768aa","keyword":"槽式光热发电","originalKeyword":"槽式光热发电"},{"id":"96e3da6a-0f53-448b-84c6-bfdba35cc81c","keyword":"高温热管","originalKeyword":"高温集热管"},{"id":"87084be0-793c-4840-8d81-a3ed5fb09dea","keyword":"玻璃-金属封接","originalKeyword":"玻璃-金属封接"},{"id":"c8132908-0fcc-489b-9a0b-f9d413e45bdb","keyword":"封接性能","originalKeyword":"封接性能"}],"language":"zh","publisherId":"cldb2013z2042","title":"高温热管玻璃-金属封接技术研究现状","volume":"27","year":"2013"},{"abstractinfo":"高温热修磨(Casttgrind)工艺通过在线修磨高温热板坯,使得在板坯连铸操作与热轧操作之间真正建立起物理性联机成为可能。在线高温热修磨具有更高的修磨产能;一体化的生产物流特性使产品交货周期(Lead Time)更短;产品质量得到进一步改进。","authors":[{"authorName":"P.Righini","id":"86500f50-4971-474e-b904-b371cca86e3c","originalAuthorName":"P.Righini"},{"authorName":"K.Strmberg","id":"da79ead4-ab00-46f1-acee-bfcee841c208","originalAuthorName":"K.Strmberg"},{"authorName":"B.Brlander","id":"deadfd2b-1e23-48ee-867a-e793229589e8","originalAuthorName":"B.Brlander"}],"categoryName":"|","doi":"","fpage":"89","id":"8f7ab7dc-942a-4c63-b2b8-20d641c44804","issue":"1","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"40560e99-dfe8-4e23-80cf-f48785221ea0","keyword":"高温热修磨;热铸坯","originalKeyword":"高温热修磨;热铸坯"}],"language":"zh","publisherId":"0449-749X_2008_1_6","title":"热铸坯的高温热修磨工艺","volume":"43","year":"2008"}],"totalpage":1943,"totalrecord":19428}