超常环境下材料与结构的力学行为.doc

1、 检索课题名称：超常环境下材料与结构的力学行为2、 课题分析：“材料与结构”属于本课题的主体，其应用目标是“超常环境下的力学行为”，所以有如下检索词：关键词：1材料与结构2 超常环境 3 力学行为3、选择检索工具： （1）CNKI数字图书馆：中国期刊全文数据库 （2）万方数据库(会议论文) （3）超星数字图书馆（图书检索）。4、检索策略：因“材料与结构”为课题主体，应优先检索，“超常环境”和“力学行为”应在检索结果中同时存在。故制定如下检索策略。“（）”表示优先、“*”表示并且。 检索算法：（材料与结构）*超常环境*力学行为 时间范围：2008-2011 文献范围：期刊论文、会议论文5、简述检索策略调整的过程：1） 在CNKI中国期刊全文数据库中：a、 为保证查全率，使用“（材料与结构）*超常环境 *力学行为”检索运算式，检索范围选择：所有专辑、全文中检索。检索出记录107条。b、 上述检索策略得到的检索结果107条过多，考虑缩小检索范围，改全文检索项为篇名检索，使用“（材料与结构）*超常环境*力学行为”检索运算式，检索范围选择：所有专辑，篇名中检索所有专辑，检索出记录0条，c、 上述检索策略得到的检索结果 0 条太少，考虑扩大检索范围。继续用全文检索，但缩小时间范围，2011-2011，检索出记录16条，数量适中。d、 检索结果的满意度，可根据检索者的需要不断调整。检索字段的选择，可单一，也可以混编，直至满意。2） 万方数据库(会议论文)：a、 由于“万方数据库(会议论文)”收录的文献比较单一，为保证查全率，使用“（材料与结构）+超常环境+力学行为”检索运算式，检索范围选择：2000-2011年，检索出记录21404条。b、 上述检索策略得到的检索结果21404条过多，考虑缩小检索范围，改为“（材料与结构）*超常环境+力学行为”检索运算式，检索出记录915条记录。c、 上述检索策略得到的检索结果915条过多，考虑继续缩小检索范围，改时间范围为2009-2011年，检索出记录101条。d、 上述检索策略得到的检索结果101条还是过多，考虑继续缩小检索范围，改时间范围为2010-2011，检索出记录1条。3）超星数字图书馆： a、图书类文献属于成熟类知识，出版的数量少且与课题的相关度低，检索时应尽量扩大检索范围。图书类数据库的著录比较简单，可供检索的字段少且不规范，检索时尽量选用默认字段。使用高级检索中的书名检索，不限定年代。检索式“（材料与结构）+超常环境+力学行为”， 检索出记录0条。 b、调整检索策略，改为课题主体检索。用“材料与结构”单一算式在书名中检索，检索出记7条。6、整理检索结果 经上述检索，获得了许多相关文献的信息，对于是否阅读全文还要进一步斟酌。因此，整理检索结果非常重要。现选取其中的几条结果：1） CNKI中国期刊全文数据库有关专辑检索结果（选1条）：篇名：轻质复合材料高温隔热性能英文篇名：High-temperature thermal insulation performance of light mass composites作者中文名：蔺晓轩; 沈志洵; 魏玺; 张伟刚;作者英文名：LIN Xiaoxuan1; 2; SHEN Zhixun1; WEI Xi1; ZHANG Weigang1（1.State Key Laboratory of Multi-Phase Complex System; Institute of Process Engineering; Chinese Academy of Sciences; Beijing 100190; China; 2.Graduate School of Chinese Academy of Sciences; Beijing 100049; China）;作者单位：中国科学院过程工程研究所多相复杂系统国家重点实验室; 中国科学院研究生院;文献出处：复合材料学报, Acta Materiae Compositae Sinica, 编辑部邮箱 2011年 01期关键词：轻质复合材料; 高温隔热性能; 碳/酚醛; ZrO2纤维板; 等离子弧发生器;英文关键词：light mass composites; high-temperature thermal insulation performance; carbon fiber/phenolic; ZrO2 fiberboard; plasma arc generator;摘要：设计了一套隔热材料高温(1200)隔热效果的测试装置,可对隔热材料进行快速、低成本的有效测试和筛选。采用本装置在材料热面中心温度为160010时,考察了碳/酚醛复合材料和ZrO2纤维板材料背部升温历程,评价了2种材料的隔热性能,并采用有限差分法数值模拟了ZrO2纤维板材料背部升温历程,预测其有效导热系数。研究表明,在加热初期400 s时间内,碳/酚醛复合材料的隔热性能优于ZrO2纤维板的隔热性能,后期则相反;ZrO2纤维板的隔热性能与体积密度有关,有效导热系数随温度升高而非线性地增大。英文摘要：A device for thermal insulation performance of high-temperature materials was designed and established to test light mass thermal insulation materials via a rapid and simple procedure.The thermal insulation performance of carbon fiber/phenolic composite and ZrO2 fiberboard were tested by this device when the temperature at the center point of hot face was 1600 10 .The heat transport process of ZrO2 fiberboard was numerically simulated by finite-difference method,and the effective thermal conductivity was.2）万方数据库检索结果（选1条）：大型复杂群空区下采场稳定性分析作 者： 李学锋，徐必根，唐绍辉，郭葵，郑荣祥 作者单位：李学锋(广西大学,广西南宁 530004) 徐必根,唐绍辉(长沙矿山研究院,湖南 长沙 410012) 郭葵,郑荣祥(绍兴平铜集团公司,浙江 绍兴市 312050)会议名称： 全国采矿技术与装备进展年评报告会会议时间： 2010年05月01日会议地点： 厦门主办单位： 中国金属学会 关键词： 群空区采场稳定性三维弹塑性有限无法正交试验理论分析3）超星数字图书馆（选1条）：常用建筑材料与结构工程检测作者：汪黎明主编出版时间：2002年12月第1版页数：566主题词：建筑材料-检测 结构工程-检测中图分类号：TU5图书简介：本书系统介绍了水泥、混凝土等十几种常用建筑材料的检验、评定方法；介绍了预制构件、室内环境质量及有害物质限量的检测，并介绍了混凝土结构工程、桩基工程的检测技术及质量评价。7、标示原文线索：根据检索结果中的信息，应使相关目标文献准确定位，定位的基本条件是：篇名、著者、刊名、年、卷、期。原文线索序号必须与检索结果序号一致，便于回查。（1）轻质复合材料高温隔热性能作者：蔺晓轩; 沈志洵; 魏玺; 张伟刚;作者单位：中国科学院过程工程研究所多相复杂系统国家重点实验室; 中国科学院研究生院;文献出处：复合材料学报, Acta Materiae Compositae Sinica, 编辑部邮箱 2011年 01期（2）专题大型复杂群空区下采场稳定性分析作 者： 李学锋，徐必根，唐绍辉，郭葵，郑荣祥会议名称： 全国采矿技术与装备进展年评报告会会议时间： 2010年05月01日（3）常用建筑材料与结构工程检测作者：汪黎明主编出版时间：2002年12月第1版1、检索课题名称：超常环境下材料与结构的力学行为2、课题分析：关键词：1 ）材料与结构2 ）超常环境 3 ）力学行为3、选择搜索引擎：1 ）谷歌(google)2 ）百度（baidu）3 ）马虎（mahuu）4、构建检索策略：检索算法：（材料与结构）*超常环境*力学行为文献范围：期刊论文、学位论文、会议论文、专著使用学术类文献检索、选择。5、简述检索策略调整的过程：1）在谷歌(google)：使用“（材料与结构）*超常环境*力学行为”检索运算式，约有9,220,000项符合（材料与结构）*超常环境*力学行为的查询结果。2）百度（baidu）：使用“（材料与结构）*超常环境*力学行为”检索运算式，百度一下，找到相关网页约1,130,000 篇。3）马虎：使用检索式“（材料与结构）*超常环境*力学行为”，网页搜索结果一共约93条。6、整理检索结果：（1）谷歌(google) （选 1 条） 力学学科发展与科学基金形势2010年8月19日 . A020303 疲劳与可靠性. A020304 本构关系. A020305 复合材料力学. A020306 智能材料与结构力学. A020307 超常环境下材料和结构的力学行为 ./2.pdf - 网页快照 - 类似结果作者：孟庆国-2010-相关文章（2）百度（baidu）（ 选 1 条） 【RTF】国家自然科学基金文件格式:RTF/Rich Text Format - HTML版A020301 弹性力学与塑性力学 A020302 损伤与断裂力学 A020303 疲劳与可靠性. A020306 智能材料与结构力学 A020307 超常环境下材料和结构的力学行为 A./web/kejichu/document/2010 . 2011-5-9作者：李崇剑 王江波 冯昭伟 刘伟 袁志山（3）马虎（mahuu）（选1条）环境敏感水溶性嵌段共聚物的超分子自组装及其纳米结构的固定-.与两亲性嵌段共聚物相比，全亲水性嵌段共聚物具有更大的结构可调性和更丰富的自组装形态，且在疏水内核上其链段的构象会与自由链段的构象变化有很大的差别，这些./Article/CDMD-10.结果来自：-收藏预览作者：江晓泽7、标示原文线索：（1）力学学科发展与科学基金形势国家自然科学基金委员会数理科学部2010年8月19日，合肥作者: 孟庆国链接网址：/2.pdf（2）Ti-50.8%Ni合金不同温度下的力学行为有色金属 2009年04期 作者：李崇剑 王江波冯昭伟 刘伟 袁志山链接网址：/Article/CJFDTotal-YOUS200904002.htm（3）环境敏感水溶性嵌段共聚物的超分子自组装及其纳米结构的固定作者：江晓泽链接网址：/Article/CDMD-10358-2008029497.htm1、检索课题名称：超常环境下材料与结构的力学行为2、课题分析：中文关键词：1材料与结构2 超常环境 3 力学行为英文主题词：1 Materials and structures 2 The extraordinary environment 3 Mechanical behavior3、选择检索工具：美国工程索引4、构建检索策略：Materials and structures * The extraordinary environment * Mechanical behavior5、简述检索过程:选择快速检索，输入检索词：第一、Materials and structures；第二、The extraordinary environment；第三、Mechanical behavior 检索结果4篇6、根据检索结果选择3条记录根据检索结果，浏览题录可以确定该文献的收藏单位（图书馆或情报所、信息中心等），从而可以进一步确定是否索取或借阅、复制原文。Search Results：4 records in Compendex for 1969-2012 ( Materials and structures) WN All fields) AND (The extraordinary environment) WN All fields) AND (Mechanical behavior) WN All fields)1.Colloquium: Failure of molecules, bones, and the Earth itselfBuehler, Markus J. (Laboratory for Atomistic and Molecular Mechanics, Department of Civil and Environmental Engineering, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA 02139, United States); Keten, Sinan Source: Reviews of Modern Physics, v 82, n 2, p 1459-1487, May 10, 2010Database: Compendex Abstract - Detailed - Cited by in Scopus (4)2.Seismic vibration control of civil structures using shape memory alloys: A reviewQian, H. (School of Civil Engineering, Zhengzhou University, Zhengzhou, 450001, China); Li, H.N.; Song, G.; Chen, H.; Ren, W.J.; Zhang, S. Source: Proceedings of the 12th International Conference on Engineering, Science, Construction, and Operations in Challenging Environments - Earth and Space 2010, p 3377-3395, 2010, Earth and Space 2010: Engineering, Science, Construction, and Operations in Challenging Environments - Proceedings of the 12th International ConferenceDatabase: Compendex Abstract - Detailed3.3.Solid state NMR detection of molecular mixing in bieutectic blends, d-metal complexes, and phase-separated copolymersBelfiore, Laurence A. (Colorado State Univ, Fort Collins, United States); Graham, Hugh; Veda, Eiji; Wang, Yinghua Source: Polymer International, v 28, n 1, p 81-94, 1992Database: Compendex Abstract - Detailed - Cited by in Scopus (7)阅读文摘：1-3 of 3selected records from Compendex for: ( Materials and structures) WN All fields) AND (The extraordinary environment) WN All fields) AND (Mechanical behavior) WN All fields), 1969-20121、Colloquium: Failure of molecules, bones, and the Earth itself Buehler, Markus J.1, 2, 3; Keten, Sinan1 Source: Reviews of Modern Physics, v 82, n 2, p 1459-1487, May 10, 2010; ISSN: 00346861, E-ISSN: 15390756; DOI: 10.1103/RevModPhys.82.1459; Publisher: American Physical SocietyAbstract: Materials fail by recurring rupture and shearing of interatomic bonds at microscopic, molecular scales, leading to disintegration of matter at macroscale and a loss of function. In this Colloquium, the state-of-the-art of investigations on failure mechanisms in materials are reviewed, in particular focusing on atomistic origin of deformation and fracture and relationships between molecular mechanics and macroscale behavior. Simple examples of fracture phenomena are used to illustrate the significance and impact of material failure on our daily lives. Based on case studies, mechanisms of failure of a wide range of materials are discussed, ranging from tectonic plates to rupture of single molecules, and an explanation on how atomistic simulation can be used to complement experimental studies and theory to provide a novel viewpoint in the analysis of complex systems is provided. Biological protein materials are used to illustrate how extraordinary properties are achieved through the utilization of intricate structures where the interplay of weak and strong chemical bonds, size and confinement effects, and hierarchical features play a fundamental role. This leads to a discussion of how even the most robust biological material systems fail, leading to diseases that arise from structural and mechanical alterations at molecular, cellular, and tissue levels. New research directions in the field of materials failure and materials science are discussed and the impact of improving the current understanding of materials failure for applications in nanotechnology, biotechnology, medicine as well as the built environment. 2010 The American Physical Society.Controlled terms:Biological materials - Bond strength (chemical) - Materials science - Molecules - Quality assuranceClassification Code: 951 Materials Science - 931.3 Atomic and Molecular Physics - 931.2 Physical Properties of Gases, Liquids and Solids - 913.3 Quality Assurance and Control - 801.4 Physical Chemistry - 461.2 Biological Materials and Tissue Engineering - 421 Strength of Building Materials; Mechanical PropertiesDatabase: CompendexFull-text and Local Holdings Links2、Seismic vibration control of civil structures using shape memory alloys: A reviewQian, H.1, 2; Li, H.N.2; Song, G.3; Chen, H.1; Ren, W.J.2; Zhang, S.1 Source: Proceedings of the 12th International Conference on Engineering, Science, Construction, and Operations in Challenging Environments - Earth and Space 2010, p 3377-3395, 2010, Earth and Space 2010: Engineering, Science, Construction, and Operations in Challenging Environments - Proceedings of the 12th International Conference; ISBN-13: 9780784410967; DOI: 10.1061/41096(366)322; Conference: 12th International Conference on Engineering, Science, Construction, and Operations in Challenging Environments - Earth and Space 2010, March 14, 2010 - March 17, 2010; Publisher: American Society of Civil EngineersAbstract: This paper presents a review of structural vibration control in civil engineering, highlighting smart structures with shape memory alloys (SMAs). SMAs are a class of novel functional material that possess unique properties, including shape memory effect, superelasticity effect, extraordinary fatigue resistance, high corrosion resistance, high damping characteristics and Youngs modulus-temperature relations, which made them great potential for seismic vibration control in civil engineering. On the other hand, the relatively high costs, behaviors dependent on external and internal parameters, unclearness of the thermomechanical processing and the problem of retaining post-tensioning forces when using some types of SMAs are the barriers to expand the use of SMAs. This paper first presents some basics about SMA materials, thermomechanical properties and constitutive models. Then the researches on the application of SMA in various civil structures such as base isolation system, intelligent reinforced concrete beam, beam-column connections, steel frames, cable-stayed bridges and simply supported bridges as well as historical building are reviewed. Lastly their limitations as well as prospect for structural vibration control are discussed. 2010 ASCE.Controlled terms: Bridges - Cables - Civil engineering - Concrete beams and girders - Corrosion fatigue - Corrosion resistance - Earth (planet) - Earthquakes - Functional materials - Intelligent materials - Martensitic transformations - Reinforced concrete - Shape memory effect - Structural dynamics - Vibration controlClassification code: 951 Materials Science - 535 Rolling, Forging and Forming - 539.1 Metals Corrosion - 545.3 Steel - 657 Space Physics - 731.3 Specific Variables Control - 901 Engineering Profession - 484 Seismology - 415 Metals, Plastics, Wood and Other Structural Materials - 412 Concrete - 409 Civil Engineering, General - 408 Structural Design - 401.1 Bridges - 421 Strength of Building Materials; Mechanical PropertiesDatabase: CompendexFull-text and Local Holdings Links3、Solid state NMR detection of molecular mixing in bieutectic blends, d-metal complexes, and phase-separated copolymersBelfiore, Laurence A.; Graham, Hugh; Veda, Eiji; Wang, Yinghua Source: Polymer International, v 28, n 1, p 81-94, 1992; ISSN: 09598103; Conference: International Symposium on Polymer Materials: Preparation, Characterization and Properties - Polymer 91, Febrary 10, 1991 - Febrary 14, 1991; Sponsor: IUPAC; Australian Acad of Science; Australian Acad of Technological Sciences & EngineeringPublication year:1992Abstract: This research contribution addresses micromixing in polymer blends that exhibit strong intermolecular association. Specific interactions between dissimilar blend components are detected via high-resolution solid state proton and carbon-13 NMR spectroscopy. The isotropic chemical shifts of the critical component provide strong evidence that molecular complexes form. NMR spectral differences between the blends versus the undiluted components arise from crystal structure modifications (if appropriate), conformational changes, hydrogen bonding. d-metal coordination, or altered packing geometries that occur concomitantly with the mixing process. More convincing evidence that two components of a strongly interacting blend reside in a near-neighbor environment is obtained from the measurement of proton spin diffusion between dissimilar species. Proton spin diffusion is measured directly via the high-resolution CRAMPS experiment (Combined Rotation And Multiple Pulse Spectroscopy) in a homogeneous solid solution of poly(ethylene oxide) and resorcinol, and indirectly via the carbon-13 spin system in a modified version of the Goldman-Shen experiment for microphase-separated ionic and tri-block copolymers. One of the primary objectives of this research endeavor is to bridge the gap between macroscopic and site-specific probes of phase behavior and strong interaction in mixtures that form homogeneous solid solutions or coordination complexes. In this respect, results from a macroscopic phase of the polymer-blend research are included in this contribution. Thermal and mechanical properties are measured for strongly interacting systems, whose interaction sites are characterized via solid state NMR. Metal-ligand coordination in blends of nickel acetate with poly(4-vinylpyridine) produces an extraordinary synergistic effect on the glass transition response.Controlled terms: Copolymers - Phase Diagrams - Crystals - Structure - Metallorganic Polymers - Plastics Blends - Mechanical Properties - Polymers - AssociationClassification code: 801 Chemistry - 802 Chemical Apparatus and Plants; Unit Operations; Unit Processes - 817 Plastics and Other Polymers: Products and Applications - 931 Classical Physics; Quantum Theory; RelativityDatabase: CompendexFull-text and Local Holdings Links7、标示原文线索：用中文标示各检索结果的著录事项第一篇文献：1）、篇名：Colloquium: Failure of molecules, bones, and the Earth itself2）、第一责任者：Buehler, Markus J.3）、第一责任者单位：Laboratory for Atomistic and Molecular Mechanics, Department of Civil and Environmental Engineering, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA 02139, United States4）、文献来源：Reviews of Modern Physics, v 82, n 2, p 1459-1487, May 10, 2010;第二篇文献：1）、篇名：Seismic vibration control of civil structures using shape memory alloys: A review2）、第一责任者：Qian, H.三、第一责任者单位：School of Civil Engineering, Zhengzhou University, Zhengzhou, 450001, China四、资料来源：Earth and Space 2010, p 3377-3395, 2010, Earth and Space 2010: Engineering, Science, Construction, and Operations in Challenging Environments - Proceedings of the 12th International Conference;第三篇文献：一、 篇名：Solid state NMR detection of molecular mixing in bieutectic blends, d-metal complexes, and phase-separated copolymers二、第一责任者：Belfiore, Laurence A.三、第一责任者单位：Colorado State Univ, Fort Collins, United States四、资料来源：Polymer International, v 28, n 1, p 81-94, 19921、检索课题名称：超常环境下材料与结构的力学行为2、课题分析：中文关键词：1材料与结构2 超常环境 3 力学行为英文主题词：1 Materials and structures 2 The extraordinary environment 3 Mechanical behavior3、选择检索工具：Elsevier数据库4、构建检索策略：Materials and structures * The extraordinary environment * Mechanical behavior5、简述检索过程:选定在Elsevier中期刊、图书、文摘数据库等全部文献资源中检索2000年以后的关于超常环境下材料与结构的力学行为的相关文献。利用确定的检索策略（Materials and structures * The extraordinary environment * Mechanical behavior），文献全文（含文献题目、摘要、关键词）中检索，检到2625篇相关文献；在文献题目、摘要和关键词中检索，检索到1篇相关文献；在文献关键词中检索到0篇相关文献；在文献题目中检索到0篇相关文献。6、整理检索结果：从以上文献中选择出3条切题文献1 Mechanical properties, anisotropic swelling behaviours and structures of jellyfish mesogloea JintangZhu, XuezhenWang, ChangchengHe, HuiliangWang College of Chemistry, Beijing Normal University, Beijing 100875, PR ChinaReceived 15 September 2011; revised 21 October 2011; Accepted 22 October 2011. Available online 31 October 2011Abstract：Learning from nature is a promising way for designing and fabricating new materials with special properties. As the first step, we need to understand the structures and properties of the natural materials. In this work, we paid attention to the mesogloea of an edible jellyfish (Rhopilema esculenta Kish