{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"导出了高温合金γ和γ′相的元素分配比分配系数.以CMSX-2合金为研究对象,用EDAX区域扫描测得热处理后未变形试样和经持久变形至断裂试样原树枝状晶三个典型区域(枝晶干、枝晶臂和枝晶间)的成分,使用分配系数法计算:了各区域中γ和γ′相的成分分析了各区相成分分布的特点及其与合金持久寿命的对应关系","authors":[{"authorName":"彭志方","id":"ef7740c1-45e2-46c1-aaa7-fb36f99969db","originalAuthorName":"彭志方"},{"authorName":"任遥遥","id":"8aee438b-24d1-4a3d-b81c-6c4906025bb9","originalAuthorName":"任遥遥"},{"authorName":"张伟","id":"806c2be5-bb6d-4928-8fff-1d3a350d612d","originalAuthorName":"张伟"},{"authorName":"燕平","id":"0815c041-3fe8-469f-b1af-ed85eb2de481","originalAuthorName":"燕平"},{"authorName":"赵京晨","id":"17504c5e-a4f5-4ef2-93bc-6f05aa444afa","originalAuthorName":"赵京晨"},{"authorName":"王延庆","id":"62e0eb51-5b2e-4a0c-a544-333376c71b82","originalAuthorName":"王延庆"}],"doi":"10.3321/j.issn:0412-1961.2001.04.003","fpage":"345","id":"fb78bfd2-1bec-427e-ae5e-3c1bf2ad0b4b","issue":"4","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"3512aa5c-50be-4451-85d9-25e53830f118","keyword":"Ni基高温合金","originalKeyword":"Ni基高温合金"},{"id":"2ec18fde-2d2a-4082-b476-48c87fbaeeb7","keyword":"相成分","originalKeyword":"相成分"},{"id":"36ee25bb-5e04-4c7b-8623-fb82202de004","keyword":"元素分配比","originalKeyword":"元素分配比"},{"id":"951dc455-d089-47a2-9324-d6915b5623eb","keyword":"原树枝状晶结构","originalKeyword":"原树枝状晶结构"},{"id":"26f605f6-f57f-4d1b-8c8d-692faa5548c9","keyword":"持久寿命","originalKeyword":"持久寿命"}],"language":"zh","publisherId":"jsxb200104003","title":"Ni基单晶高温合金原树枝状晶结构典型区域γ和γ′相成分的测算","volume":"34","year":"2001"},{"abstractinfo":"采用真空非自耗电弧熔炼法制备了Nb-Ti-Si基共晶自生复合材料的母合金锭,分别于1300,1400,1500和1600℃保温50小时对其进行了均匀化处理,然后于1100℃保温50小时进行了时效处理.热处理后的组织主要由Nbss和(Nb,X)5Si3(X代表Ti,Cr和Hf元素)组成,但经1600℃/50h和1600℃/50h+1100℃/50h热处理后的组织中出现了HfO2.热处理后,Nbss的晶格常数较电弧熔炼态的有所升高,Ti,Cr和Al仍然倾向于固溶在Nbss中,而Hf则倾向于固溶在硅化物中.随着热处理温度的升高,Cr,Ti和Al在Nbss和大块硅化物(Nb,X)5Si3中的分配比降低,而Hf的则略有升高.","authors":[{"authorName":"郭海生","id":"08ef319f-cd27-4fde-91c9-ab7d5c09b1fb","originalAuthorName":"郭海生"},{"authorName":"郭喜平","id":"46668758-d05a-4fc6-89af-e0f53fdefe12","originalAuthorName":"郭喜平"}],"doi":"10.3969/j.issn.1001-4381.2007.z1.059","fpage":"264","id":"c5304cc5-6730-4217-adf4-681563b913fc","issue":"z1","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"9f7e5255-5393-4e19-b915-8ed91c515158","keyword":"均匀化处理","originalKeyword":"均匀化处理"},{"id":"b71a4afd-3904-4364-a324-4948117a9643","keyword":"时效处理","originalKeyword":"时效处理"},{"id":"2030771c-03f0-4d0b-bf92-4d5ec3da4e80","keyword":"Nb-Ti-Si基共晶自生复合材料","originalKeyword":"Nb-Ti-Si基共晶自生复合材料"},{"id":"61f72b2c-39a9-4d5a-9472-591add7d2c5b","keyword":"元素分配比","originalKeyword":"元素分配比"}],"language":"zh","publisherId":"clgc2007z1059","title":"高温热处理对Nb-Ti-Si基共晶自生复合材料组织及成分分布的影响","volume":"","year":"2007"},{"abstractinfo":"从原子分数及晶胞原子数的角度导出FCC,BCC及HCP结构两相合金中元素分配比分配系数.通过对上述3种典型合金相结构的9种组合计算发现,任意两相之间存在一致的元素分配比元素分配系数;两相各自的晶胞数及其比值与合金及其组成相成分之间存在特征关系;采用合金元素分配系数法算得的合金相成分与其观测值或采用统计回归法算得的相应值吻合程度较好.","authors":[{"authorName":"彭志方","id":"53b532b0-a176-43b8-997e-8793bbe2f57c","originalAuthorName":"彭志方"},{"authorName":"任遥遥","id":"c4afbcb6-8897-4113-bb74-cdc7c91ad1f5","originalAuthorName":"任遥遥"}],"categoryName":"|","doi":"","fpage":"472","id":"ca23c01a-7f3b-43aa-b152-7b7f70c47ed2","issue":"5","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"de437554-6fca-4461-a134-92a118166790","keyword":"元素理想分配比","originalKeyword":"元素理想分配比"},{"id":"32586070-c195-4c9d-8b01-75293e28ba17","keyword":"null","originalKeyword":"null"},{"id":"33924167-b7c4-44e1-a6fa-5bda0af0f8bd","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_2001_5_13","title":"FCC,BCC和HCP结构两相合金中置换型元素理想分配比分配系数及晶胞比的确定","volume":"37","year":"2001"},{"abstractinfo":"从原子分数及晶胞原子数的角度导出FCC,BCC及HCP结构两相合金中元素分配比分配系数.通过对上述3种典型合金相结构的9种组合计算发现,任意两相之间存在一致的元素分配比元素分配系数;两相各自的晶胞数及其比值与合金及其组成相成分之间存在特征关系;采用合金元素分配系数法算得的合金相成分与其观测值或采用统计回归法算得的相应值吻合程度较好.","authors":[{"authorName":"彭志方","id":"9038d44e-e884-42ef-b5cc-21a0d4c3962f","originalAuthorName":"彭志方"},{"authorName":"任遥遥","id":"f54470eb-916f-4ef5-be9a-3df9eeb3ad64","originalAuthorName":"任遥遥"}],"doi":"10.3321/j.issn:0412-1961.2001.05.006","fpage":"472","id":"e063ed1b-c609-42cf-b2be-90430e8dc3c9","issue":"5","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"b05814c1-be4f-42e9-a1ee-c258c10a17cf","keyword":"元素理想分配比","originalKeyword":"元素理想分配比"},{"id":"4b1ee0f8-6ba1-42d9-9731-1915ce554e5d","keyword":"元素理想分配系数","originalKeyword":"元素理想分配系数"},{"id":"92fbb2a8-03e0-474c-9004-2a492f3ac325","keyword":"晶胞比","originalKeyword":"晶胞比"},{"id":"2c0ca153-fca6-4542-b430-70183776dafe","keyword":"典型晶体结构","originalKeyword":"典型晶体结构"},{"id":"964148aa-27db-4543-b8c2-6efa65be8919","keyword":"两相合金","originalKeyword":"两相合金"}],"language":"zh","publisherId":"jsxb200105006","title":"FCC,BCC和HCP结构两相合金中置换型元素理想分配比分配系数及晶胞比的确定","volume":"37","year":"2001"},{"abstractinfo":"采用热力学分析的方法研究了300t转炉渣钢间脱硫反应。发现渣中氧传质控制转炉炼钢脱硫反应,转炉终点渣钢间硫分配比与(FeO)-O-S热力学模型计算结果相符,说明脱硫反应接近平衡。定量分析结果表明,转炉渣钢间硫分配比主要受碱度、FeO含量、MgO含量及温度的影响。根据生产数据回归得到了对生产指导性较强的渣钢间硫分配比计算公式。","authors":[{"authorName":"杨利彬","id":"05ca3d35-777b-4844-9c06-e407d9e36a52","originalAuthorName":"杨利彬"},{"authorName":"刘浏","id":"4f2539a3-9557-4ef6-8f18-1887c4fa9ce1","originalAuthorName":"刘浏"},{"authorName":"焦兴利","id":"041ed811-60c6-4be4-bbde-516e6d1edd18","originalAuthorName":"焦兴利"},{"authorName":"邓勇","id":"a8a7a598-02dd-40df-8111-4c40054abf56","originalAuthorName":"邓勇"},{"authorName":"徐晓伟","id":"a065cbec-5604-40c1-969b-5639d41c615b","originalAuthorName":"徐晓伟"}],"doi":"","fpage":"18","id":"d10348d9-20b4-4df7-a986-a56c9c0adedf","issue":"12","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"5d18d48c-dbd7-4408-975f-7deee02c37ca","keyword":"热力学","originalKeyword":"热力学"},{"id":"0b814a37-7eaf-42e6-ae27-87653290cc8a","keyword":"脱硫","originalKeyword":"脱硫"},{"id":"b8a9c5e6-b390-4fda-bbc6-2ec086946367","keyword":"硫分配比","originalKeyword":"硫分配比"},{"id":"4b538032-fdd5-43db-b182-52ce1a6cf197","keyword":"氧传质","originalKeyword":"氧传质"}],"language":"zh","publisherId":"gtyjxb201112005","title":"转炉炼钢过程渣钢间硫的分配比","volume":"23","year":"2011"},{"abstractinfo":"采用热力学分析的方法研究了300t转炉渣钢间脱硫反应。发现渣中氧传质控制转炉炼钢脱硫反应,转炉终点渣钢间硫分配比与(FeO)-O-S热力学模型计算结果相符,说明脱硫反应接近平衡。定量分析结果表明,转炉渣钢间硫分配比主要受碱度、FeO含量、MgO含量及温度的影响。根据生产数据回归得到了对生产指导性较强的渣钢间硫分配比计算公式。","authors":[{"authorName":"杨利彬,刘浏,焦兴利","id":"90f29c3e-6399-4569-86a9-302e314ecb61","originalAuthorName":"杨利彬,刘浏,焦兴利"},{"authorName":",邓勇,徐晓伟","id":"c9f2711a-1a5e-4e7f-a508-792e388f62f1","originalAuthorName":",邓勇,徐晓伟"}],"categoryName":"|","doi":"","fpage":"18","id":"fac6c475-f289-401a-a105-e3080e8a1b72","issue":"12","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"61f3699b-e6c6-409c-a004-9517b0b2dc49","keyword":"热力学 ","originalKeyword":"热力学 "},{"id":"e95bc372-f797-4ac9-b56d-0b9c33688fcb","keyword":" desulfurization ","originalKeyword":" desulfurization "},{"id":"0d17ba64-298d-4fd6-8ac2-c080a5aca150","keyword":" sulfur distribution ","originalKeyword":" sulfur distribution "},{"id":"69dca39a-4382-4e16-9579-cc7204ec5e9f","keyword":" oxygen mass transfer","originalKeyword":" oxygen mass transfer"}],"language":"zh","publisherId":"1001-0963_2011_12_7","title":"转炉炼钢过程渣钢间硫的分配比","volume":"23","year":"2011"},{"abstractinfo":"利用 FactSage软件绘制了渣系CaO-SiO2-FeO-MgO(10%)-MnO(7%)的等硫分配比图,分析了 FeO/SiO2比、FeO质量分数和碱度对硫分配比的影响。分析结果表明:当 CaO 质量分数一定时,渣钢间的硫分配比随着FeO/SiO2比的增加而逐渐增加。在转炉炼钢碱度范围内,当 FeO质量分数一定时,Ls 随碱度的增加而增加;当碱度一定时,在低碱度范围内,硫分配比随着 FeO质量分数的增加而增加,在高碱度范围内,硫分配比随着 FeO质量分数的增加而减少。","authors":[{"authorName":"崔鹏辉","id":"41fbbede-31ae-4913-b92d-3fbad540d480","originalAuthorName":"崔鹏辉"},{"authorName":"蒋武锋","id":"b819a81e-5e81-4acd-bfbc-2901e4ac86d2","originalAuthorName":"蒋武锋"},{"authorName":"郝素菊","id":"dd91b6ce-5c84-4e2a-89db-caa83210aa75","originalAuthorName":"郝素菊"},{"authorName":"张玉柱","id":"07ce5cc7-1046-45b8-9044-2dcc8b5dbef1","originalAuthorName":"张玉柱"},{"authorName":"郝华强","id":"751f3eaf-5562-4476-81ba-61f0bf21c120","originalAuthorName":"郝华强"}],"doi":"10.13228/j.boyuan.issn1006-9356.20150189","fpage":"41","id":"ece8c074-f845-486f-9bef-40ddd0a765c8","issue":"6","journal":{"abbrevTitle":"ZGYJ","coverImgSrc":"journal/img/cover/ZGYJ.jpg","id":"87","issnPpub":"1006-9356","publisherId":"ZGYJ","title":"中国冶金"},"keywords":[{"id":"bc432894-8c59-4d8c-9210-1b97fef03571","keyword":"CaO-SiO2-FeO-MgO(1 0%)-MnO(7%)渣系","originalKeyword":"CaO-SiO2-FeO-MgO(1 0%)-MnO(7%)渣系"},{"id":"e0614899-a34d-4f48-b362-e2ffba6d366b","keyword":"等硫分配比图","originalKeyword":"等硫分配比图"},{"id":"2eee4c99-2b75-4017-8e3e-55f4b6368ff0","keyword":"硫分配比","originalKeyword":"硫分配比"},{"id":"e41beadd-803d-4f89-b464-7af5aa4fb711","keyword":"FactSage软件","originalKeyword":"FactSage软件"}],"language":"zh","publisherId":"zgyj201606009","title":"钢渣中FeO活度对硫分配比的影响","volume":"26","year":"2016"},{"abstractinfo":"在实验室电阻炉的条件下,对复吹转炉在吹炼含中高磷铁水时冶炼终点最佳炉渣成分进行了研究.研究结果表明,炉渣的氧化铁质量分数在15%左右,炉渣碱度在4.4,其他成分具有一定配比时,炉渣的脱磷能力较强.讨论了光学碱度对中高磷铁水脱磷的影响,回归出如下的1600℃终渣磷分配比的计算公式:lgLp=0.52A-0.0027w(FeO)+0.49.式中,Lp为磷在渣与金属中的分配比;Λ为多元渣系的平均光学碱度;w(FeO)为渣中FeO的质量分数.","authors":[{"authorName":"吴伟","id":"6bca5822-efc8-4c6b-83ff-76ece3b1caed","originalAuthorName":"吴伟"},{"authorName":"马嵩","id":"b77e0a2e-f3f7-463c-94ea-96f4b4b6f148","originalAuthorName":"马嵩"},{"authorName":"邹宗树","id":"adebb788-ecc0-4678-a40e-640df6de95ea","originalAuthorName":"邹宗树"},{"authorName":"郭振和","id":"01ecad41-1f06-4982-b04d-2f9d9d5a13b0","originalAuthorName":"郭振和"},{"authorName":"吴德润","id":"beab0af3-089f-4315-a760-d2b6c5280b1e","originalAuthorName":"吴德润"},{"authorName":"赵国光","id":"84cf0fe9-ea5b-498d-89ac-5d4ffdb5d001","originalAuthorName":"赵国光"}],"doi":"10.3969/j.issn.1671-6620.2003.02.001","fpage":"83","id":"a106ca9c-cb76-4619-84f6-39bbc9b91814","issue":"2","journal":{"abbrevTitle":"CLYYJXB","coverImgSrc":"journal/img/cover/CLYYJXB.jpg","id":"17","issnPpub":"1671-6620","publisherId":"CLYYJXB","title":"材料与冶金学报"},"keywords":[{"id":"8395844a-917b-4984-bc58-69c4d06dc20f","keyword":"中高磷铁水","originalKeyword":"中高磷铁水"},{"id":"42785808-c54e-4cde-9e64-1448b8e4380b","keyword":"炉渣氧化性","originalKeyword":"炉渣氧化性"},{"id":"e6c56c1e-a95b-4448-98f7-f8ddb304791e","keyword":"炉渣碱度","originalKeyword":"炉渣碱度"},{"id":"374116e6-5b27-4935-8ad2-27c93701993f","keyword":"磷分配比","originalKeyword":"磷分配比"}],"language":"zh","publisherId":"clyyjxb200302001","title":"1600℃高碱性渣与钢液间磷的分配比","volume":"2","year":"2003"},{"abstractinfo":"采用具备顶底复吹功能的500 kg中频感应炉模拟复吹转炉铁水提钒工艺,研究吹炼终点钒在渣铁间的分配比;运用X射线衍射分析钒铁尖晶石的分子组成.试验结果表明:吹炼终点钒在渣铁间分配比Lv为1.8 ~2.8,且与渣中FeO含量相关.为了保证钒渣质量,降低钒渣中FeO含量,减少铁损,吹炼终点V的质量分数不宜过低.钒渣中钒铁尖晶石的分子式为FeO(Fe,V)2O3,表明钒渣中钒为+3价.吹炼初期钒渣中存在少量+2价钒,随着供氧量增加,+2价钒的数量逐渐减少.","authors":[{"authorName":"刘质斌","id":"4dda2618-dbb8-430c-83cb-681d2859eb3a","originalAuthorName":"刘质斌"},{"authorName":"张曦东","id":"92bc3f04-ff97-48ae-ae0b-b2c106e1f552","originalAuthorName":"张曦东"},{"authorName":"马登","id":"40baed82-c5c9-45f7-9cbe-9d38e6fb4074","originalAuthorName":"马登"},{"authorName":"赵斌","id":"a5033880-5512-4b9f-bd64-b709ad409150","originalAuthorName":"赵斌"},{"authorName":"吴巍","id":"97b08f90-e0d8-4f70-ae32-ebbaa532868d","originalAuthorName":"吴巍"}],"doi":"10.7513/j.issn.1004-7638.2016.04.005","fpage":"25","id":"9318459c-319d-4f4f-bb15-e8c88af5aefb","issue":"4","journal":{"abbrevTitle":"GTFT","coverImgSrc":"journal/img/cover/gtft1.jpg","id":"28","issnPpub":"1004-7638","publisherId":"GTFT","title":"钢铁钒钛"},"keywords":[{"id":"7d1805d5-6847-423e-95eb-05b70afa9e37","keyword":"高钒铁水","originalKeyword":"高钒铁水"},{"id":"751455dc-1b9f-4c6d-9ad8-71f6835962bf","keyword":"钒分配比","originalKeyword":"钒分配比"},{"id":"d3f223dd-3b99-4cbf-9f45-957fac4c4471","keyword":"钒渣","originalKeyword":"钒渣"},{"id":"6e620132-d905-48c5-b0fd-9a2e7e3783de","keyword":"钒铁尖晶石","originalKeyword":"钒铁尖晶石"}],"language":"zh","publisherId":"gtft201604005","title":"吹炼终点钒在渣铁间的分配比及相分析","volume":"37","year":"2016"},{"abstractinfo":"在A1-Si-C三元相图的基础上设计了富SiC、化学计量、富C 3种不同的成分配比的A14SiC4陶瓷并进行热压烧结.经过对陶瓷的组织结构及性能观察得知烧结样品的相组成基本一致,主要为A14SiC4相.不同成分配比的A14SiC4陶瓷晶粒尺寸大致相当,A14SiC4粒子交错搭接,平行于晶体的基面上仍然可观察到层错的存在.不同成分下制备A14SiC4陶瓷的致密度按富SiC、化学计量和富C的顺序逐次升高;在相同制备工艺下,按富SiC、化学计量和富C的顺序,随烧结样品致密度的升高,陶瓷的弯曲强度和维氏硬度也随之升高,但是断裂韧性却表现为相反的变化趋势.","authors":[{"authorName":"黄小萧","id":"8978112a-438e-41af-954f-a418424731d6","originalAuthorName":"黄小萧"},{"authorName":"温广武","id":"a0746dc0-88bc-4a2d-ace6-82f35d07dd64","originalAuthorName":"温广武"},{"authorName":"白宏伟","id":"0cc8ee5f-959d-46ac-9020-70ba43e48ccf","originalAuthorName":"白宏伟"},{"authorName":"张宝友","id":"9698a8e5-7a86-4478-9806-443b1492eb96","originalAuthorName":"张宝友"}],"doi":"","fpage":"210","id":"4cc6444c-be84-47ea-8421-afea11de8a8c","issue":"z1","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":"b81e9513-a0e1-4124-8774-bba8b0248ed0","keyword":"Al4SiC4","originalKeyword":"Al4SiC4"},{"id":"a9d9de38-b651-4e54-8454-1636af175756","keyword":"组织观察","originalKeyword":"组织观察"},{"id":"553ba813-3e6c-4918-bc0c-b8211d0a3b56","keyword":"力学性能","originalKeyword":"力学性能"},{"id":"0b421b16-5da6-4379-9dce-7e9d44653c84","keyword":"增韧机理","originalKeyword":"增韧机理"}],"language":"zh","publisherId":"xyjsclygc2008z1054","title":"不同成分配比对Al4SiC4陶瓷组织及性能的影响","volume":"37","year":"2008"}],"totalpage":1712,"totalrecord":17117}