所谓SCI就是美国科学引文索引的简称,一般发表在中文核心期刊的文章不算SCI,最好也就EI收录。只有极少中文核心期刊SCI收录,很少很少。多数是国外英文期刊SCI,国内也有少数英文期刊被SCI收录。
1. Microstructural variation of Hardened of Cement-fly ash Pastesleached by Soft Water. SCIENCE CHINA Technological Sciences, 53(11): 3033-3038(2010)2. 超高性能混凝土(UHPC)的发展与现状. 混凝土世界 2010年第九期(总15期)36-413. 复合胶凝材料水化过程中Ca(OH)2量的变化. 建筑材料学报 13(5): 563-567 (2010)4. 水泥-粉煤灰复合胶凝材料水化程度的研究. 建筑材料学报 13(5): 585-589 (2010)5. 硫酸盐对萘系减水剂与水泥相容性的影响. 硅酸盐学报 38(9) 1765-1770 (2010)6. Characteristics of hydration product of steel slag. 硅酸盐学报 38(9)1731-1734(2010)7. 水泥沥青胶凝材料的硬化机理研究中国科学 E辑技术科学 40 (8): 959-964 (2010)8. 用于水泥基材料微观结构研究的计算机断层扫描技术的发展历史与现状硅酸盐学报 38(7) 1346-1356(2010)9. RESEARCH ON INFLUENCING FACTORS OF CONCRETE CARBONATION WITHDIFFERENT CURING AGE. Proceedings of the 13th International Conference on STRUCTURALFAULTS & REPAIR, 15th-17th June 2010, Edinburgh, Scotland10. Hydration properties of basic oxygen furnace steel slag.Construction and Building Materials 24(7):1134-1140 (2010)11. Study on the hardening mechanism of cement asphalt binder. SCIENCECHINA Technological Sciences, 53(5):1406-1412 (2010)12. The characteristics of the hydration products of steel slag.Proceedings of the 7th International Symposium on Cement and Concrete, 10-12May 2010 Jinan, China13. Carbonation of concrete containing mineral admixture in normalindoor environment, Int. J. Structural Engineering, Vol. 1(2) 160-171 (2010)14. 锂化合物对硫铝酸盐水泥水化历程的影响硅酸盐学报 38(4) 608-614(2010)15. 补偿收缩混凝土的自收缩特性硅酸盐学报 38(4) 568-573(2010)16. 水泥基固化盐渍土的温度变形特性研究. 建筑材料学报 13(3): 341-346 (2010)17. 保护层混凝土中粗骨料的分布特征. 建筑材料学报 12(5): 580-583 (2009)18. 高强型CA砂浆抗压强度影响因素分析. 建筑材料学报 12(5): 519-522 (2009)19. Modification of Test Process of PERMIT Ion Migration Test andits Application to Determinate Effect of Methods to Improve ChloridePenetration Resistance of Cover Concrete. Journal of Advanced ConcreteTechnology 7(3):385-391(2009)20. 基于Ca(OH)2含量的复合胶凝材料中水泥水化程度的评定方法硅酸盐学报 37(10):1597-1601(2009)21. APPLICATION OF HIGH VOLUME FLY ASH CONCRETE IN MASSIVEFOUNDATION SLAB OF TIANJIN TOWER PROJECT. Proceedings of the 17th InternationalConference of Building Materials, 2-0561-0566, Sept. 23-26 2009, Weimar,Germany.22. Application of Steel Fiber Reinforced Self-ConsolidatingConcrete in the Construction Project of New Station of China CentralTelevision. Proceedings of the 17th International Conference of BuildingMaterials, I-1179-1184, Sept. 23-26 2009, Weimar, Germany.23. 薄层活性粉末混凝土的现场免振捣浇筑施工混凝土 2009(8): 1-224. PERMIT离子渗透测定方法的应用研究工业建筑 39(7): 67-69 (2009)25. 粉煤灰中SiO2在不同碱性条件下的溶出量及与火山灰活性指数的关系硅酸盐学报 37(7):1073-1078(2009)26. 高温养护对钢渣复合胶凝材料早期水化性能的影响清华大学学报(自然科学版) 49(6): 774-777 (2009)27. Application of Self-consolidating Concrete in Beijing.Proceedings of 2nd International Symposium on Design, Performance and Use ofSelf-consolidating Concrete 817-822. 5-8 June 2009, Beijing28. 固化盐渍土的力学性能铁道科学与工程学报 6(1): 31-35 (2009)29. 高温下矿渣复合胶凝材料早期的水化性能建筑材料学报 12(1): 1-5 (2009)30. 现代混凝土的特点混凝土 2009年第一期 3-5 (NSFC No. 50878118)31. 砂灰比和砂的级配对CA砂浆抗压强度和流动性的影响铁道科学与工程学报 5(6): 1-5 (2008)32. 聚丙烯纤维对高强混凝土性能的影响材料科学与工艺 16(6):885-888 (2008)33. CARBONATION OF CONCRETE CONTAINING MINERAL ADMIXTURE IN NORMALINDOOR ENVIRONMENT Proceedings of International Conference on Durability of ConcreteStructures,216-222 26-27 November, 2008, Hangzhou, China34. EXPERIMENTAL STUDY AND CURRENT DEVELOPMENT OF PERMIT IONMIGRATION TEST Proceedings of International Conference on Durability ofConcrete Structures,1148-1153 26-27 November, 2008, Hangzhou, China35. 大掺量钢渣复合胶凝材料早期水化性能和浆体结构硅酸盐学报 36(10): 1406-1411 (2008)36. 石灰石粉在复合胶凝材料中的水化性能硅酸盐学报 36(10): 1401-1405 (2008)37. 混凝土保护层抗氯例子渗透性的现场测试方法研究混凝土 2008(8):6-938. 大掺量矿渣复合胶凝材料的硬化浆体显微形貌电子显微学报 27(4): 305-310 (2008)39. Mechanical Behaviour of UHPC and UHPC Filled Steel Tubular StubColumns. Proceedings of 2nd International Symposium on Ultra High PerformanceConcrete 355-364, 5-7 March 2008, Kassel Germany40. 大体积混凝土水化热温度场的数值计算. 工业建筑 38(2): 81-85 (2008)41. 粗集料级配对混凝土强度发展历程的影响. 混凝土 2008年第一期62-6342. 石灰石粉对水泥浆体填充效应和砂浆孔结构的影响.硅酸盐学报 36(1): 69-72 (2008)43. 固化盐渍土的自生体积稳定性. 清华大学学报(自然科学版) 47(12): 2089-2094 (2007)44. 不同类型盐渍土固化体的干缩与湿胀特性岩土工程学报 29(11): 1653-1658 (2007)45. Apparent activation energy of concrete in early age determinedby adiabatic test. Journal of Wuhan University of Technology, Materials ScienceEdition 22(3): 537-541. 200746. C50再生骨料混凝土的试验工业建筑 37(10): 63-65 (2007)47. 一分为二看膨胀剂的应用商品混凝土 2007年5期 1-248. 粉煤灰掺量对高性能混凝土自生收缩的影响商品混凝土 2007年5期 47-4949. 用于盐渍土的土壤固化剂的性能研究公路交通科技——应用技术版 2007(8):94-9550. 粉煤灰在复合胶凝材料水化过程中的作用机理硅酸盐学报 35(s): 167-171 (2007)51. Autogenous Shrinkage of Concrete Prepared with the BindersContaining Different Kinds of Mineral Admixture. Proceedings of the 12thInternational Conference of Cement Chemistry, Montreal Canada, July 8-12 2007.52. Study and application of high volume fly ash concrete in massiveconcrete structure. Proceedings of the International Conference of ConcretePlatform. 405-414, 2007. Belfast, UK. April 19-20 200753. 高性能再生骨料混凝土的性能与微观结构.硅酸盐学报 35(4): 456-460 (2007)54. 活性或惰性掺合料对复合胶凝材料水化性能的影响. 铁道科学与工程学报 4(1):1-7 (2007)55. Microstructure formation and degradation mechanism ofcementitious plugging agent slurries. Journal of Wuhan University ofTechnology, Materials Science Edition 22(1): 61-65 (2007)56. 含粉煤灰或石英粉复合胶凝材料的抗压强度发展规律硅酸盐学报 35(3): 263-267 (2007)57. 多用途混凝土抗氯离子渗透性测定仪的研制及应用实验技术与管理 23(3):63-66 (2007)58. 高强路面混凝土的研制及其工程应用公路交通科技(应用技术版), 2007 (01) 50-5459. 混凝土结构早龄期开裂的分析与预测沈阳建筑大学学报 23(1): 85-87 (2007)60. 大体积混凝土足尺模型内部的水化温升观察建筑技术 38(1):61-63 (2007)61. 固化盐渍土抗冻融性能的研究岩土工程学报 29(1): 14-19 (2007)62. 等强度条件下水胶比和粉煤灰掺量对混凝土自收缩的影响混凝土 2006年12期1-363. 固化盐渍土经干湿循环后力学性能变化的机理建筑材料学报 9(6): 735-741 (2006)64. 含有活性或惰性掺合料的复合胶凝材料硬化浆体的微观结构特征硅酸盐学报 34(12): 1491-1496 (2006)65. 大掺量粉煤灰混凝土在大体积结构中的应用混凝土,2006年11期 50-5266. 高温堵漏剂的微观结构与堵漏机理材料科学与工程学报 24(6): 811-814 (2006)67. 不同类型盐渍土固化体的微观形貌电子显微学报 25(s): 356-357 200668. 养护高温对复合胶凝材料水化性能的影响电子显微学报 25(s): 171-173 200669. 热采井高效封窜堵漏剂的研究与应用西安石油大学学报(自然科学版), 21(4):54-57(2006)70. 基于ASTM C1202 规范的混凝土抗氯离子渗透性测定仪的研制及应用铁道科学与工程学报 3(4):18-22 (2006)71. 土壤加固技术及其发展铁道科学与工程学报 3(4):35-40 (2006)72. The performance of fly ash during the hydration of complexbinder. Proceedings of the 6th International Symposium on Cement and Concrete /CANMET/ACI International Symposium on Concrete Technology for SustainableDevelopment, V2:1397-1403 (2006) Xi’an Sept. 19-21 200673. Influence of initial casting temperature and dosage of fly ashon hydration heat evolution of concrete under adiabatic condition. Journal ofThermal Analysis and Calorimetry 85: 755-760 (2006)74. 可溶碱对水泥/氨基璜酸盐基减水剂相容性的影响建筑材料学报 9(5): 576-580 (2006)75. 高性能轻骨料混凝土在桥梁工程中应用的研究进展. 公路 , 2006(08):176-17976. 温度对补偿收缩复合胶凝材料水化放热特性的影响硅酸盐学报 34(8): 1006-1010 (2006)77. 系统化的高性能混凝土配合比设计方法硅酸盐学报 34(8): 1027-1030 (2006)78. 早龄期混凝土结构开裂风险分析.应用基础与工程科学学报 14(2): 262-267 (2006)79. Simulation of concrete self-heated curing at early age.Proceedings of the 16th International Conference of Building Materials, Sept.20-23 2006, Weimar, Germany.80. Determination of the apparent activation of concrete by adiabatictest and simulation of self-heated curing process at early age. Keynote report,Proceedings of the Ninth International Symposium on Structural Engineering forYouth Experts “Advances in Structural Engineering” Vol I, 62-70. ed. By LinhaiHan, Jiping Ru, Zhong Tao. Beijing: Science Press. Fuzhou & Xiamen, China,18-21 August 2006.( SCI)81. The effect of shrinkage-reducing admixture on mechanicalproperties and volume stability of concrete. KEY ENGINEERING MATERIALS 302-303:230-234 (2006) SCI BDX4482. 水泥基材料的水化动力学模型硅酸盐学报 34(5): 555-559 (2006)
1. 赵军. 新型梯度功能陶瓷刀具材料的设计制造及其切削性能研究. 北京: 高等教育出版社, 2005.52. J. Zhao, X.L. Yuan, Y.H. Zhou. Processing and Characterization of an Al2O3/WC/TiC micro- nano-composite ceramic tool material. Materials Science and Engineering A, 2010, 527(7-8): 1844-1849 (SCI, EI)3. J. Zhao, X.L. Yuan, Y.H. Zhou. Cutting performance and failure mechanisms of an Al2O3/WC/TiC micro- nano-composite ceramic tool. International Journal of Refractory Metals and Hard Materials, 2010, 28(3): 330-337 (SCI, EI)4. J. Zhao, Y.Z. Li, X. Ai. Analysis of transient thermal stress in sandwich plate with functionally graded coatings. Thin Solid Films, 2008, 516(21): 7581-7587 (SCI, EI)5. J. Zhao, X. Ai, W.Y. Fang, S.G. Han. Simulation of surface topography in ball-end milling considering the tool deflection and runout. Key Engineering Materials, 2008, 375-376: 510-514 (EI)6. J. Zhao, Y.Z. Li, X. Ai. Transient thermal stress analysis of a plate with double-sided FGM coatings. Key Engineering Materials, 2008, 368-372: 1807-1810 (EI)7. J. Zhao, X. Ai, Y. Z. Li. Transient temperature fields in functionally graded materials with different shapes under convective boundary conditions. Heat and Mass Transfer, 2007, 43(12): 1227-1232 (SCI, EI)8. J. Zhao, X. Ai. Failure Modes and Mechanisms of Functionally Gradient Ceramic Tools with High Thermal Shock Resistance. Proceedings of MSEC2006, 2006 (EI)9. J. Zhao, X. Ai, Z. J. Lü. Preparation and Characterization of Si3N4/TiC Nanocomposite Ceramics, Materials Letters, 2006, 60(23): 2810-2813 (SCI, EI)10. J. Zhao, X. Ai, Z. L. Li. Finite element analysis of cutting forces in high speed machining. Materials Science Forum, 2006, 532-533: 753-75611. J. Zhao, X. Ai, Y. Z. Li, Y. H. Zhou. Thermal Shock Resistance of Functionally Gradient Solid Cylinders, Materials Science and Engineering A, 2006, 418 (1-2): 99-110 (SCI, EI)12. J. Zhao, X. Ai. Fabrication and cutting performance of an Al2O3-(W, Ti)C functionally gradient ceramic tool. International Journal of Machining and Machinability of Materials, 2006, 1(3): 277-28613. J. Zhao, X. Ai, Z. J. Lü. Study on the Thermal Shock Resistance of Si3N4/TiC Nanocomposite Ceramic Tool Materials, Key Engineering Materials, 2006, 315-316: 299-303 (SCI, EI)14. J. Zhao, X. Ai, S.Y. Wang, Z.W. Liu. A Model for Milling Force Prediction in High-Speed End Milling of P20 Mold Steel, Key Engineering Materials, 2006, 315-316: 856-859 (SCI, EI)15. J. Zhao, X. Ai, J. X. Deng, et al. Thermal shock behaviors of functionally graded ceramic tool materials. Journal of European Ceramic Society, 2004, 24(5): 847-854 (SCI, EI)16. J. Zhao, X. Ai, J. X. Deng, et al. A model of the thermal shock resistance parameter for functionally gradient ceramics. Materials Science and Engineering A, 2004, 382(1-2): 23-29 (SCI, EI)17. J. Zhao, X. Ai, X. P. Huang, et al. Effect of Hot Pressing Temperature on Mechanical Properties and Microstructure of Si3N4-TiCnano composites. Materials Science Forum, 2004, 471-472: 167-171 (SCI, EI)18. J. Zhao, X. Ai, C. Z. Huang, et al. An analysis of unsteady thermal stresses in a functionally gradient ceramic plate with symmetrical structure. Ceramics International, 2003, 29(3): 279-285 (SCI, EI)19. J. Zhao, X. Ai, X. P. Huang. Relationship between the thermal shock behavior and the cutting performance of a functionally gradient ceramic tool. Journal of Materials Processing Technology, 2002, 129(1-3): 162-167 (SCI, EI)20. J. Zhao, J. X. Deng, J. H. Zhang, et al. Failure mechanisms of a whisker-reinforced ceramic tool when machining Nickel-based alloys. Wear, 1997, 208(1-2): 220-225 (SCI, EI)21. 赵军, 艾兴, 李艳征. 梯度功能陶瓷圆球的抗热震性. 硅酸盐学报, 2006, 34(11): 1362-1366 (EI)22. 赵军, 艾兴, 黄新平, 邓建新, 王朝霞. 陶瓷构件形状对其抗热震性的影响. 机械工程学报, 2004, 40(1): 7-10 (EI)23. 赵军, 邓建新, 艾兴, 王朝霞. 对称型梯度功能陶瓷材料的抗热震参数. 硅酸盐学报, 2003, 31(10): 945-949 (EI)24. 赵军, 黄新平, 艾兴, 王朝霞. 陶瓷圆柱体的抗热震参数. 硅酸盐学报, 2003, 31(5): 476-479 (EI)25. 赵军, 艾兴, 邓建新, 张建华, 黄传真. 对称型梯度功能陶瓷材料的非定常热应力. 机械工程学报, 2001, 37(11): 22-27 (EI) 1. 超高速切削刀具的设计理论与制造工艺(400万),项目来源:国家重点基础研究发展计划(批准号:2009CB724402),(2009.1-2013.8),项目负责人;2. “基于性能驱动的难加工材料切削刀具设计制造理论与关键技术研究”(60万),项目来源:国家自然科学资金(批准号:51175310),(2012.1-2015.12),项目负责人;3. “基于高速切削多场耦合理论的自适应梯度复合刀具研究”(6万),(批准号:2009,0131110030),高等学校博士学科点专项科研基金,(2010.1-2012.12),项目负责人;4. “于宏微观性能裁剪拼接的梯度纳米复合刀具研究”(36万),项目来源:国家自然科学资金(批准号:50875156),(2009.1-2011.12),项目负责人;5. “高速切削摩擦学及刀具寿命研究”(27万),项目来源:国家自然科学基金(批准号:50575126)(2006.1—2008.12),项目负责人;6. “基于刀具寿命和切削稳定性的多轴数控加工表面形貌预测与控制”(50万),项目来源:教育部新世纪优秀人才支持计划(批准号:NCET-06-0588),项目负责人;7. “高寿命型腔模具制造关键技术研究及应用”(10万),项目来源:山东省科学技术发展计划(批准号:2007GG20004003),项目负责人;8. “自由曲面模具多轴数控加工表面质量控制技术及应用研究”(10万),项目来源:山东省优秀中青年科学家科研奖励基金(批准号:2005BS05002)(2006.1—2008.12),项目负责人;9. “基于多尺度关联效应的纳米复合陶瓷刀具及其切削性能研究”(6万),项目来源:高等学校博士学科点专项科研基金(批准号:20050422033)(2006.1—2008.12),项目负责人;10. “基于多尺度高阶理论的纳米复合梯度功能陶瓷刀具及其可靠性研究”(70万),项目来源:高等学校全国优秀博士学位论文作者专项资金(批准号:200231)(2003.1—2007.12),项目负责人;
传统的耐火材料投Ei,中文的一般都不太爱要,我自己的经历,现在期刊都想要功能陶瓷之类的材料。但是国内最好的Ei耐火材料是《硅酸盐学报》,审稿较为严格,周期接收差不多3-4个月,挺长的,还有就是《武汉科技大学学报》没投过,听说还可以。建议你还是投国外的SCI更好中点,而且只要符合要求一般不会据稿,最好的是美陶和欧陶,英文差点的可以选择国际陶瓷和日本陶瓷,都挺不错的,还不行的话还有俄罗斯的工业耐火材料与陶瓷,影响因子很低,但也是SCI,国内的Ei太坑了,不建议投,如果是自己学校的就另当别论了,望采纳!
