{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"叙述了国内外玻璃工业常用高温耐蚀材料的应用现状,并就其中的金属及合金材料在熔融玻璃中的腐蚀机理作了介绍.另外,还对未来玻璃工业用高温耐蚀材料的发展趋势作出了展望.","authors":[{"authorName":"颜晓峰","id":"c70b5a06-b358-4d9a-849d-f8acc6eb00e8","originalAuthorName":"颜晓峰"},{"authorName":"刘万生","id":"f0f96047-615c-47d4-9756-0545a364dceb","originalAuthorName":"刘万生"},{"authorName":"马惠萍","id":"253acb69-a3b7-4002-bc98-92dbb002a580","originalAuthorName":"马惠萍"},{"authorName":"卢亚轩","id":"8498240f-2365-4485-9018-16fb972b285b","originalAuthorName":"卢亚轩"},{"authorName":"陈传坤","id":"053a2ed1-cab9-4493-81a6-04a637c79031","originalAuthorName":"陈传坤"}],"doi":"","fpage":"31","id":"fc1dcadc-4cb3-4b7b-ab09-41dbc59897c8","issue":"8","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"59e8a149-c9ff-4546-ad59-0342c309da65","keyword":"熔融玻璃","originalKeyword":"熔融玻璃"},{"id":"acfb6f93-9fb9-42b9-a49f-49d609479680","keyword":"耐火材料","originalKeyword":"耐火材料"},{"id":"54b52472-babd-4c80-9d05-a3648dfe93f4","keyword":"金属及合金材料","originalKeyword":"金属及合金材料"}],"language":"zh","publisherId":"cldb200308010","title":"国内外玻璃行业用高温耐蚀材料的研究进展","volume":"17","year":"2003"},{"abstractinfo":"综述了深海环境下溶解氧含量、温度、pH、溶解CO_2含量、含盐度、静压力、流速以及生物环境等各项因素对金属及合金材料腐蚀的影响,认为溶解氧含量通常为金属及合金材料腐蚀的最主要因素;重点介绍了实海暴露方法和室内模拟加速腐蚀方法在深海环境下的研究进展及具体应用,指出最好将室内模拟加速腐蚀试验和实海暴露方法相结合,同时体现二者的优势以研究金属及合金材料的腐蚀行为;总结了深海环境下金属及合金材料的腐蚀状况,对其防护手段-阴极保护及涂层保护进行了概述.","authors":[{"authorName":"周建龙","id":"8d54c9b1-fb41-435b-8145-6244dac620b1","originalAuthorName":"周建龙"},{"authorName":"李晓刚","id":"b70ca026-90fd-4a2b-8797-4ca3807a1f69","originalAuthorName":"李晓刚"},{"authorName":"程学群","id":"e02e0f63-1301-4dcc-b9fd-b226d5363b6d","originalAuthorName":"程学群"},{"authorName":"董超芳","id":"2b060a7e-a0ea-40ee-97e1-b6d4be58f2de","originalAuthorName":"董超芳"},{"authorName":"杜翠薇","id":"c5eabf3d-62ba-40ee-9883-076b87239531","originalAuthorName":"杜翠薇"},{"authorName":"卢琳","id":"f4809a09-88cf-4da0-b380-8040c4a4aac9","originalAuthorName":"卢琳"}],"doi":"","fpage":"47","id":"178c47f6-25d9-4d52-9def-36d705f2bb33","issue":"1","journal":{"abbrevTitle":"FSKXYFHJS","coverImgSrc":"journal/img/cover/FSKXYFHJS.jpg","id":"24","issnPpub":"1002-6495","publisherId":"FSKXYFHJS","title":"腐蚀科学与防护技术"},"keywords":[{"id":"971acdcf-c851-48c0-a637-b470571e8c76","keyword":"深海","originalKeyword":"深海"},{"id":"2ef8fd25-99e7-4b6d-8533-789eded96020","keyword":"腐蚀","originalKeyword":"腐蚀"},{"id":"1b49dc47-a32f-43db-8c8a-9afa2e44c154","keyword":"实海暴露","originalKeyword":"实海暴露"},{"id":"77c5343f-7a22-4418-8e14-7cc7be9b968f","keyword":"模拟加速腐蚀试验","originalKeyword":"模拟加速腐蚀试验"}],"language":"zh","publisherId":"fskxyfhjs201001013","title":"深海环境下金属及合金材料腐蚀研究进展","volume":"22","year":"2010"},{"abstractinfo":"结合贵金属合金材料的发展,分析了我国贵金属合金材料产品相关技术标准现状以及“十二五”期间贵金属合金材料产品技术标准的制修订情况,同时展望贵金属合金材料产品技术标准的发展方向。","authors":[{"authorName":"朱武勋","id":"01d67e93-5e42-43f9-bd81-e39fade65d72","originalAuthorName":"朱武勋"}],"doi":"","fpage":"82","id":"785b3688-ff33-419e-b7cd-355424b9f659","issue":"1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"3183d19e-99b3-4524-acc6-f9e7f2f06ce4","keyword":"贵金属合金材料","originalKeyword":"贵金属合金材料"},{"id":"a07ccc71-d7dd-4095-ad74-ea68e280d9c3","keyword":"产品","originalKeyword":"产品"},{"id":"09cf67c3-d2e4-4a7b-bd69-c4eb79180226","keyword":"标准","originalKeyword":"标准"}],"language":"zh","publisherId":"gjs201601016","title":"“十二五”中国贵金属合金材料产品标准制修订情况分析","volume":"37","year":"2016"},{"abstractinfo":"根据周期热流法测试原理,结合理论分析和实验测定,设计并开发了一套测试和计算金属及其合金高导热材料热物性参数的装置和软件.利用visual 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6.0的编程技术,并结合数据采集装置,实现了测试系统的数据自动采集及处理可视化功能.通过对几种金属及合金热物性参数实验测定的结果和文献值比较,发现最大误差不超过6.5%,测试结果可靠.","authors":[{"authorName":"王莹","id":"3f254d7f-90f1-443f-a408-0cf9042ccd20","originalAuthorName":"王莹"},{"authorName":"周孑民","id":"1c81b917-0e30-4e31-b0ba-83cd731c82b2","originalAuthorName":"周孑民"},{"authorName":"许欣","id":"95d2579d-8ae3-4d90-9440-776fa06c5d23","originalAuthorName":"许欣"}],"doi":"","fpage":"36","id":"a08d8fc2-e912-4584-9293-e913582953c8","issue":"10","journal":{"abbrevTitle":"ZGCLJZ","coverImgSrc":"journal/img/cover/中国材料进展.jpg","id":"80","issnPpub":"1674-3962","publisherId":"ZGCLJZ","title":"中国材料进展"},"keywords":[{"id":"50d7b239-6ffe-4040-bfab-32ad151560ba","keyword":"周期热流法","originalKeyword":"周期热流法"},{"id":"595c1d04-b48c-4f06-b26a-bd4ce980341b","keyword":"高导热材料","originalKeyword":"高导热材料"},{"id":"f0d3b0c6-3886-4da7-ace8-cea0620c6b71","keyword":"热物性参数","originalKeyword":"热物性参数"},{"id":"21ff2a6e-8df6-42e0-9782-2cf76a54e8e1","keyword":"测量","originalKeyword":"测量"},{"id":"cd1a61a6-6c77-4204-bc24-2f6d27e00076","keyword":"控制","originalKeyword":"控制"}],"language":"zh","publisherId":"zgcljz200810008","title":"周期热流法测试金属及合金材料高导热系数可视化测试系统的研制","volume":"27","year":"2008"},{"abstractinfo":"为研究防垢合金材料,从电化学角度探讨其阻垢机理,并制备合金工具,进行动态循环对比实验,研究硬度、流速、温度等对合金材料工具阻垢的影响,使用电镜扫描对垢样结构进行了表征.结果表明,合金材料能够使碳酸钙的结晶形式发生改变;硬度、温度对工具的阻垢效果影响不大,而速度对阻垢效果有一定影响.","authors":[{"authorName":"和彦光","id":"fd7d4345-e538-41b6-9a97-f7984b71fbc1","originalAuthorName":"和彦光"},{"authorName":"王武义","id":"a579c3f4-54b4-487a-8843-f5b9958c41db","originalAuthorName":"王武义"},{"authorName":"王仲楠","id":"9c5b7e6c-ed5c-4ce4-bc8c-726ae9a4f9e4","originalAuthorName":"王仲楠"},{"authorName":"张广玉","id":"ae631719-8aae-4c3f-b17f-82874e7e05fa","originalAuthorName":"张广玉"}],"doi":"","fpage":"810","id":"84a8d997-bd37-4cb2-96d9-d506ae4c8b79","issue":"6","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":"1c8c908b-de8f-42a2-945b-5d2d9237d9b2","keyword":"阻垢机理","originalKeyword":"阻垢机理"},{"id":"9eeda388-42d6-42a7-b3ee-1c613390cace","keyword":"阻垢合金材料","originalKeyword":"阻垢合金材料"},{"id":"75bb6353-bd4b-4f89-bd99-a4c1c402167c","keyword":"动态循环对比实验","originalKeyword":"动态循环对比实验"}],"language":"zh","publisherId":"clkxygy200906018","title":"合金材料的阻垢机理及实验研究","volume":"17","year":"2009"},{"abstractinfo":"钛及钛合金材料因具有密度小、比强度高、韧性好、无磁性、耐腐蚀性好等优异的综合性能,在航空、航天、舰船、核电等重要领域及石油、冶金、化工、电力、生物医学等民用市场有着广泛的应用.系统阐述了钛及钛合金材料的优越性能及广泛应用,对比分析了近10年来海绵钛、电解镍、电解铜、不锈钢等原材料价格变化趋势及规律,分析了实现钛及钛合金低成本化新的加工方式.利用全寿命经济性分析的方法,对不锈钢、铜合金、镍基合金、钛及钛合金在舰艇冷凝管道应用实例的对比分析及不同材料设备经济综合性分析,提出了在现有原材料价格、原料产量、加工成本、产品产量的条件下,应大力推广应用钛及钛合金材料.","authors":[{"authorName":"李献民","id":"d4029113-dd89-478f-9397-9464d600b5c0","originalAuthorName":"李献民"},{"authorName":"刘立","id":"9fa98337-40dd-4bb5-ad4c-949db691489f","originalAuthorName":"刘立"},{"authorName":"董洁","id":"8aa5805c-498d-45a6-9c59-abaa7024d44b","originalAuthorName":"董洁"},{"authorName":"赵普","id":"ff5f943b-c201-4866-86bf-ce7ed51478a8","originalAuthorName":"赵普"}],"doi":"10.7502/j.issn.1674-3962.2015.05.13","fpage":"401","id":"92c49db2-09df-453e-96e4-04160b629581","issue":"5","journal":{"abbrevTitle":"ZGCLJZ","coverImgSrc":"journal/img/cover/中国材料进展.jpg","id":"80","issnPpub":"1674-3962","publisherId":"ZGCLJZ","title":"中国材料进展"},"keywords":[{"id":"db695438-0a04-4255-af96-e786ebd615ad","keyword":"钛及钛合金","originalKeyword":"钛及钛合金"},{"id":"b7816f14-19b7-47a9-b5b8-a4ba3bf4db8d","keyword":"市场应用","originalKeyword":"市场应用"},{"id":"dd8007d3-02a8-4516-980d-08f39a5c4aaf","keyword":"经济性分析","originalKeyword":"经济性分析"},{"id":"ce0f5f07-9c39-4d08-b401-bdee670b2de4","keyword":"全寿命分析","originalKeyword":"全寿命分析"},{"id":"6f433168-7749-46c9-b095-e02cba8c8d9e","keyword":"低成本","originalKeyword":"低成本"}],"language":"zh","publisherId":"zgcljz201505014","title":"钛及钛合金材料经济性及低成本方法论述","volume":"34","year":"2015"},{"abstractinfo":"介绍了稀土发火合金的原料、生产工艺,质量与产量;简述了该合金的应用情况;阐明了产品的国内外市场,针对存在问题提出了一些建议.","authors":[{"authorName":"林河成","id":"dd3da19c-cbe5-46c1-ad6d-af338b84c243","originalAuthorName":"林河成"}],"doi":"10.3969/j.issn.1004-0277.2009.04.021","fpage":"98","id":"61877a62-d3e5-4854-87b4-402b291b25c3","issue":"4","journal":{"abbrevTitle":"XT","coverImgSrc":"journal/img/cover/XT.jpg","id":"65","issnPpub":"1004-0277","publisherId":"XT","title":"稀土"},"keywords":[{"id":"8eb6dbcb-f38a-4c9d-87ec-2d14f10d5c7e","keyword":"稀土发火合金","originalKeyword":"稀土发火合金"},{"id":"27517593-f0dc-40b2-bd34-a9bb95fb4dfa","keyword":"生产工艺","originalKeyword":"生产工艺"},{"id":"98ed9edb-f4fa-4dd3-9791-13dbf55ee42f","keyword":"产量","originalKeyword":"产量"},{"id":"ffc5fa45-1e99-48ca-9582-fa6a0c02844b","keyword":"应用","originalKeyword":"应用"},{"id":"0027ebdc-9682-4dd0-b8b6-df3a6e1d78c2","keyword":"市场","originalKeyword":"市场"},{"id":"53d189aa-2353-4058-b404-6e9d09f3b4b3","keyword":"建议","originalKeyword":"建议"}],"language":"zh","publisherId":"xitu200904021","title":"稀土发火合金材料的生产、应用及市场","volume":"30","year":"2009"},{"abstractinfo":"介绍了放电等离子烧结(SPS)技术的烧结机制和特点,综述了采用SPS技术制备氧化物、碳化物、氮化物、硼化物和金属陶瓷以及高温和医用钛合金材料的研究进展.并指出了其存在问题主要是:成本高,产品尺寸单一,烧结温度不均匀,存在碳污染现象;同时,展望了其未来研究方向:拓宽SPS技术的应用领域,并解决现有SPS设备及模具存在的问题.","authors":[{"authorName":"张博文","id":"7d1f1303-c1c9-43bb-acd2-9be19b94071f","originalAuthorName":"张博文"},{"authorName":"马北越","id":"b5aa82fb-ca8e-420f-aa14-7d2777cbf242","originalAuthorName":"马北越"},{"authorName":"尹月","id":"6f87f033-b3b7-4dcb-a446-1f743a2650a3","originalAuthorName":"尹月"},{"authorName":"李世明","id":"c86e3841-074b-48cb-8918-0395176c2a33","originalAuthorName":"李世明"},{"authorName":"于景坤","id":"b17c7084-61c5-4cbd-b565-fb037262a6c4","originalAuthorName":"于景坤"},{"authorName":"曲选辉","id":"cdcee8a4-8955-440e-9671-38defe19a807","originalAuthorName":"曲选辉"}],"doi":"10.3969/j.issn.1001-1935.2017.02.018","fpage":"157","id":"5b612de6-f96f-4594-b88d-83c8aaa861ab","issue":"2","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料 "},"keywords":[{"id":"ed1324b4-5c38-494f-a36c-8e51a4242590","keyword":"放电等离子烧结技术","originalKeyword":"放电等离子烧结技术"},{"id":"96fe6ab6-dbaa-493a-9233-86501862141e","keyword":"陶瓷","originalKeyword":"陶瓷"},{"id":"bf7bc1e4-8453-46ff-88ee-7eece49e3a2e","keyword":"钛合金","originalKeyword":"钛合金"}],"language":"zh","publisherId":"nhcl201702018","title":"SPS制备陶瓷及钛合金材料的新进展","volume":"51","year":"2017"},{"abstractinfo":"本文剖析了美国、日本、西欧各国的钛合金材料技术的发展战略及对策,并指出值得借鉴的成功经验和失败的教训在此基础上,从我国钛合金材料技术的发展现状出发,并以“科教兴国”的总战略和“尽快实现社会主义现代化建设”的总战略目标为指导,提出我国钛合金材料技术应以“既要推进传统钛合金材料和产业改造,又要发展有独创性的自立的高技术钛合金材料,迎头赶上世界新材料和产业革命”的发展战略目标为实现发展战略目标,还提出了相应的对策","authors":[{"authorName":"张力","id":"5c294aee-975e-4349-b1da-55a7cb2b436a","originalAuthorName":"张力"}],"categoryName":"|","doi":"","fpage":"85","id":"02ae5ff2-9609-4fa8-8137-e03ef4fb6777","issue":"1","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"c2ebe95e-3b5b-40c9-8599-07622d26217a","keyword":"高技术","originalKeyword":"高技术"},{"id":"25cc2c2e-5995-411c-870c-b26964be3ce5","keyword":" 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measure"}],"language":"zh","publisherId":"0412-1961_1997_1_5","title":"高技术时代的钛合金材料技术发展战略及对策剖析","volume":"33","year":"1997"},{"abstractinfo":"先进航空发动机及超声速飞行器的发展对耐热轻质的600℃高温钛合金材料提出了迫切需求.600℃高温钛合金主要用于制造发动机600℃以下高温段高压压气机轮盘、叶片、整体叶盘、机匣以及飞行器机身构件、蒙皮等,可以显著减轻结构重量,大幅提高发动机的推重比和飞行器的飞行速度和机动性.600℃高温钛合金的设计受蠕变与热稳定性本质矛盾的限制,为了最大程度发挥高温蠕变抗力,同时兼顾塑性、热稳定性等,基于当量设计准则和扩散理论,设计研制新的600℃高温钛合金材料TA29,合金系为Ti-Al-Sn-Zr-Nb-Ta-Si-C.TA29钛合金具有优异的热强性,良好的断裂韧度、塑性和热稳定性,其整体叶盘部件成功通过了发动机强度考核试验,有望推广应用于先进航空发动机、超高声速导弹等飞行器的高温结构部件.应加强TA29钛合金高温蠕变-疲劳-环境交互作用、微织构、表面完整性、残余应力分析及其对使用性能影响等研究.","authors":[{"authorName":"蔡建明","id":"5e5443e6-35bd-42c0-a54e-b5e43e7abf12","originalAuthorName":"蔡建明"},{"authorName":"曹春晓","id":"0349d530-a477-4c51-ab4a-07232d2b149d","originalAuthorName":"曹春晓"}],"doi":"10.11868/j.issn.1005-5053.2014.4.002","fpage":"27","id":"b18e55e7-6184-4ff7-bde9-474bf870442e","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":"13b3f758-cd86-4ea3-8ee6-a497b3207849","keyword":"600℃高温钛合金","originalKeyword":"600℃高温钛合金"},{"id":"1a87159b-21a3-4a6b-ae54-f9086db9cb13","keyword":"合金设计","originalKeyword":"合金设计"},{"id":"d189d035-06e7-4ede-8287-ee9e2e711a29","keyword":"TA29钛合金","originalKeyword":"TA29钛合金"},{"id":"aa5485a3-4aea-4278-abd1-3cedaacfe926","keyword":"蠕变性能","originalKeyword":"蠕变性能"},{"id":"f74334c9-44dd-4c6c-9934-0fb468e99168","keyword":"整体叶盘","originalKeyword":"整体叶盘"}],"language":"zh","publisherId":"hkclxb201404002","title":"新一代600℃高温钛合金材料的合金设计及应用展望","volume":"34","year":"2014"}],"totalpage":13698,"totalrecord":136975}