图书情报专题研究
最新学科研究热点与前沿
2012年第3期
西北工业大学图书馆
2012年11月
前 言
《图书情报专题研究》的宗旨是为我校师生开展学术研究提供有价值的参考信息。此项工作由图书馆信息咨询与情报研究部承担,根据学校所购买的数字资源,通过分析其深层次的功能,从数据库中组织整理出了与我校学科领域相关的最新学科热点研究论文、最新研究前沿及最新国际会议信息等,以期能对我校师生开展学术研究、项目立项、开题等学术研究活动提供帮助。
本期,我们收集整理了如下八个方面的热点文献和前沿信息: 1.. Elsevier Science Direct Top 25,Elsevier数据库下载次数最多的 25篇论文(工程类)。
2.. Elsevier Science Direct Top 25,Elsevier数据库下载次数最多的 25篇论文(计算机类)。
3. IEL Top20,IEL数据库下载最多的20篇论文。
4. ACM 最新会议。根据ACM主页所提供的最新会议信息整理所得,可供研究者参考未来将要召开的会议内容等信息。
5. AIAA最新会议,由AIAA 主站提供的最新会议信息,以供研究者参考所用。
6.IEEE最新会议,由IEEE主站提供的最新会议信息,供相关研究者参考使用。
7. SCI Essential Science Indicators HOT PAPERS,SCI Essential Science Indicators 提供的最近两年的热点文章,其排名根据文章的被引频次。
8. Nature Advance Online Publication,Nature周刊预先提供浏览未出版的最新文章。
如果您对我们的栏目设置、内容编排、出版方式等有好的意见和建议,欢迎与我们联系,我们将积极采纳,使这份电子刊物日臻完善。
图书馆
2012年11月
目 录
一、Elsevier Science Direct Top 25 (工程类) .................................. 1 (来源:http://www.sciencewatch.com/) ...................................... 1 二、Elsevier Science Direct Top 25 (计算机类) ............................ 11 (来源:http://www.sciencewatch.com/) .................................... 11 三、IEL Top20(来源:http://ieeexplore.ieee.org/) ................... 21 四、ACM 最新会议(来源:http://www.acm.org/).................. 29 五、AIAA最新会议(来源:http://www.aiaa.org/) .................. 30 六、IEEE最新会议(来源:http://www.ieee.org/index.html) .. 33 七、SCI
Essential
Science
Indicators
HOT
PAPERS
(MATHEMATICS) ...................................................................... 35 八、Nature Advance Online Publication ......................................... 41 (来源:http://www.nature.com/nature/index.html) ......................... 41
一、Elsevier Science Direct Top 25 (工程类)
(来源:http://www.sciencewatch.com/)
1. 题名:Thermomechanical analysis of residual stresses in brazed diamond metal joints using Raman spectroscopy and finite element simulation
出处:Mechanics of Materials, Volume 52, September 2012, Pages 69-77 作者:Akbari, M.; Buhl, S.; Leinenbach, C.; Spolenak, R.; Wegener, K.
摘要:Thermal residual stresses are one of the crucial parameters in engineered grinding tool (EGT) life and its consistency. Predicting failure of brazed diamond metal joints in EGTs is related to analyzing the thermal residual stresses during the cooling process. Thus thermal residual stresses have been simulated in a model with realistic materials properties, for instance isotropic hardening and a hyperbolic-sine creep law for SS316L and the silver–copper–titanium active filler alloy, named Cusil ABA?. Also, special modeling techniques such as tie constraint and sub-modeling have been used to model an intermetallic layer titanium-carbide (TiC) with dimensions in nanometers, where the rest of the model‘s dimensions are in millimeters. To verify the simulated stress state of the diamond, Raman-active optical phonon modes at three different paths in the diamond were measured. As the experiments with Raman spectroscopy (RS) do not deliver stress components, the solution is to directly compute the peak shift of Raman spectrum. The splitting in phonon frequencies and the mixing of phonon modes contain information about the thermal residual stresses in the diamond. Finally the shift in the phonon frequencies was calculated from the different numerical residual elastic strain components and compared to the experimental results.
2. 题名:Synthesis and surface engineering of iron oxide nanoparticles for biomedical applications
出处:Biomaterials, Volume 26, Issue 18, June 2005, Pages 3995-4021 作者:Gupta, A.K.; Gupta, M.
摘要:Superparamagnetic iron oxide nanoparticles (SPION) with appropriate surface chemistry have been widely used experimentally for numerous in vivo applications such as magnetic resonance imaging contrast enhancement, tissue repair, immunoassay, detoxification of biological fluids, hyperthermia, drug delivery and in cell separation, etc. All these biomedical and bioengineering applications require that these nanoparticles have high magnetization values and size smaller than 100 nm with overall narrow particle size distribution, so that the particles have uniform physical and chemical properties. In addition, these applications need special surface coating of the magnetic particles, which has to be not only non-toxic and biocompatible but also allow a targetable delivery with particle localization in a specific area. To this end, most work in this field has been done in improving the biocompatibility of the materials, but only a few
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scientific investigations and developments have been carried out in improving the quality of magnetic particles, their size distribution, their shape and surface in addition to characterizing them to get a protocol for the quality control of these particles. Nature of surface coatings and their subsequent geometric arrangement on the nanoparticles determine not only the overall size of the colloid but also play a significant role in biokinetics and biodistribution of nanoparticles in the body. The types of specific coating, or derivatization, for these nanoparticles depend on the end application and should be chosen by keeping a particular application in mind, whether it be aimed at inflammation response or anti-cancer agents. Magnetic nanoparticles can bind to drugs, proteins, enzymes, antibodies, or nucleotides and can be directed to an organ, tissue, or tumour using an external magnetic field or can be heated in alternating magnetic fields for use in hyperthermia. This review discusses the synthetic chemistry, fluid stabilization and surface modification of superparamagnetic iron oxide nanoparticles, as well as their use for above biomedical applications.
3. 题名:Condensation of R407C in a horizontal microfin tube
出处:International Journal of Refrigeration, Volume 28, Issue 2, March 2005, Pages 203-211 作者:Honda, H.; Wijayanta, A.T.; Takata, N.
摘要:This paper describes experimental results that show the effects of mass velocity and condensation temperature difference on the local heat transfer characteristics during condensation of R407C in a horizontal microfin tube. The experiments were performed at the saturation temperature of 40 °C, the refrigerant mass velocity of 50, 100, 200 and 300 kg m?2 s?1, and the condensation temperature difference of 1.5, 2.5 and 4.5 K. A superficial heat transfer coefficient for the vapor phase was obtained by subtracting the heat transfer resistance of condensate film estimated by using a previously developed theoretical model of film condensation of pure vapor from the overall heat transfer resistance. On the basis of the analogy between heat and mass transfer, an empirical equation for the superficial vapor phase heat transfer coefficient was developed. The heat transfer coefficient predicted by the combination of the previously developed theoretical model of film condensation of pure vapor and the empirical equation of the superficial vapor phase heat transfer coefficient agreed with the measured values with the r.m.s. error of 9.2%.
4. 题名:The effectiveness of occupational health and safety management system interventions: A systematic review
出处:Safety Science, Volume 45, Issue 3, March 2007, Pages 329-353
作者:Robson, L.S.; Clarke, J.A.; Cullen, K.; Bielecky, A.; Severin, C.; Bigelow, P.L.; Irvin, E.; Culyer, A.; Mahood, Q.
摘要:A variety of OHSMS-based standards, guidelines, and audits has been developed and disseminated over the past 20 years. A good understanding of the impact of these systems is timely. This systematic literature review aimed to synthesize the best available evidence on the effects of OHSMS interventions on employee health and safety and associated economic outcomes. Eight bibliographic databases covering a wide range of fields were searched. Twenty-three articles met the study‘s relevance criteria. Thirteen of these met the methodological quality criteria. Only one of these 13 original studies was judged to be of high methodological quality; the remainder had moderate limitations. The studies‘ results were generally positive. There were some null findings
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