《力学动态》文摘第7卷，第4期，2009.8.25

国家自然科学基金委员会与中国工程院共同设立“中国工程科技中长期发展战略研究”联合基金（以下简称“工程科技发展战略研究联合基金”），旨在利用国家自然科学基金评审、资助和管理系统的优势，更好地吸引和调动全国高等院校、科研机构的力量，对未来20年影响我国可持续发展、影响国家竞争力、影响国家安全的重大工程科技发展战略开展研究，提出工程科技支撑与促进我国经济社会发展的新思路，针对制约我国经济社会发展的工程科技瓶颈问题提出解决方案。提出具有战略性的重大工程或重大科技专项，促进中国工程科技更好地服务于国家经济和社会发展，为创新型国家建设和保障国家安全提供支撑。

工程科技发展战略研究联合基金作为国家自然科学基金的组成部分，项目的申请、评审和管理，按照国家自然科学基金条例和国家自然科学基金委员会－中国工程院“中国工程科技中长期发展战略研究”联合基金协议进行。现针对以下八个工程科技领域发布研究方向，欢迎全国符合条件的科学技术人员根据自身的研究工作基础，选择一个领域中的某些主要研究方向展开研究，或跨领域选择某个方向进行系统综合研究。

工程科技发展战略研究联合基金为软科学研究课题，重点支持对工程科技各领域的关键工程科技问题开展宏观性战略研究。申请人可根据以下研究领域自行确定项目名称、研究内容和研究方案等。最终研究报告应当提出对我国经济社会发展有重大影响的战略工程及其科技方案，包括工程科技目标、技术路线图及相应的投资。对该解决方案执行前后所在领域的同期技术水平作国内外比较，并提出该方案实施的保障措施及重要建议。
　　一、机械与运载工程技术领域
　　1、飞机设计技术发展战略研究
　　2、环境友好先进民用吸气发动机技术发展战略研究
　　3、2030年装备制造工程科技发展战略研究
　　4、综合交通系统运行机理与机制的发展战略研究
　　5、综合交通系统规划与评价新方法的发展战略研究
　　二、信息与电子工程技术领域
　　1、面向多学科交叉的前瞻性信息工程热点方向发展战略研究
　　2、信息科学技术支撑防灾减灾能力的发展战略研究
　　3、未来网络技术发展战略研究
　　4、现代仪器仪表技术发展战略研究
　　三、化工、冶金与材料工程技术领域
　　1、化工过程的节能减排和清洁生产技术发展战略研究
　　2、高碳能源低碳化利用的工程科学技术发展战略研究
　　3、温和（和谐）的高效有色金属提取整体过程技术发展战略研究
　　4、核能和新能源利用中的工程与材料基础问题发展战略研究
　　5、水泥工业低碳经济的工程科学技术发展战略研究
　　四、能源与矿业工程技术领域
　　1、煤炭及洁净化技术发展战略研究
　　2、可再生能源技术发展战略研究
　　3、中国电网的智能、柔性化技术及核电发展战略研究
　　4、资源-经济-环境相协调的矿产资源开发创新工程发展战略研究
　　5、深部金属矿产探测工程的新技术新方法发展战略研究
　　五、土木、水利与建筑工程技术领域
　　1、300m级面板堆石坝适应性及对策研究
　　2、土木工程（包括建筑工程）的信息化技术发展战略研究
　　3、城市能源系统未来发展方向及其关键问题的发展战略研究
　　4、复杂水文和地质条件下大型深水海港及航道工程建设的关键技术发展战略研究
　　5、长江上游流域大型梯级电站群综合调度系统发展战略研究
　　六、环境与轻纺技术领域
　　1、环境科技发展战略及新兴环保产业发展机制研究
　　2、轻工造纸生物资源的高效清洁利用技术发展战略研究
　　3、深海海底地质环境探测及海洋资源勘探开发安全保障技术发展战略研究
　　4、全球和中国气候变化的预测、适应与减排技术发展战略研究
　　5、现代纺织工程领域材料开发和生态制造中的关键科学技术发展战略研究
　　七、农业技术领域
　　1、中国农村与农业信息化关键技术发展战略研究
　　2、中国现代渔业体系建设关键技术发展战略研究
　　3、动物疫病防控关键技术发展战略研究
　　4、中国畜禽种业科技发展战略研究
　　5、中国粮食丰产科技工程关键技术发展战略研究
　　八、医药卫生技术领域
　　1、慢性疾病防治的新方法、新技术发展战略研究
　　2、国家数字卫生工程建设及其关键技术发展战略研究
　　3、系统生物医学新方法、新技术发展战略研究
　　4、创新药物研制中新方法新技术的发展战略研究
　　5、再生医学关键科学技术发展战略研究
　　除以上发布的研究方向之外，申请人也可以自行提出其它相关的战略研究方向予以申请。
　　本联合基金项目资助总经费1000万元，平均资助强度约25万元/项。　　
　　申请注意事项：
　　1．申请人在填报申请书前应认真阅读《国家自然科学基金条例》以及本《指南》，了解有关规定、要求、责任和资助范围等。有关文件请到国家自然科学基金委员会网站http://www.nsfc.gov.cn查阅。
　　2．本联合基金申请项目须使用2009年最新版申请书，请申请人在《指南》发布后到国家自然科学基金委员会网站下载。申请书简表填写时：
　　“资助类别”选择“联合资助基金项目”；
　　“亚类说明”选择“面上项目”；
　　“附注说明”选择“工程科技发展战略研究联合基金”。
　　“申请代码1”必须按照下述领域分类代码选择：

L0011 机械与运载工程技术领域

L0012 信息与电子工程技术领域

L0013 化工、冶金与材料工程技术领域

L0014 能源与矿业工程技术领域

L0015 土木、水利与建筑工程技术领域

L0016 环境与轻纺工程技术领域

L0017 农业技术领域

L0018 医药卫生技术领域
　　“申请代码2”可自行选择相应的申请代码。
　　“预计研究年限”填写2009年11月1日-2010年6月30日
　　3．申请项目应符合本《指南》的资助范围与要求。要求申请人按照面上项目撰写提纲撰写申请书。
　　4．本联合基金面向全国，鼓励申请人开展合作研究。对合作研究项目，须在申请书中明确合作各方的合作内容、主要分工等有关问题。
　　5．本联合基金项目负责人必须具有高级专业技术职务（职称）。具有高级专业技术职务（职称）的科学技术人员只能申请或参加本联合基金项目1项。
　　6．本联合基金项目不参与国家自然科学基金项目限项检索。
　　7．申请人应通过依托单位报送电子申请书和纸质申请书原件1份，并须保证电子申请书与纸质申请书内容一致。依托单位应对申请书进行审核。
　　电子申请书通过科学基金项目管理信息ISIS系统（https://isis.nsfc.gov.cn ）提交，纸质申请书及本单位公函、申请项目清单等统一寄送或派人报送至国家自然科学基金委员会计划局。邮寄申请材料须使用特快专递（报送日期以邮戳为准）。
　　8．本联合基金申请项目接收时间为2009年9月14日至16日16：00。
　　联系方式：
　　国家自然科学基金委员计划局
　　地　址：北京市海淀区双清路83号
　　邮　编：100085
　　联系人：朱蔚彤
　　电　话：010-62327019
　　电子邮件：zhuwt@nsfc.gov.cn
　　中国工程院政策研究室
　　地　址：北京市西城区冰窖口胡同2号院
　　邮　编：100088
　　联系人：安耀辉、黄琳
　　电　话：010-59300330、010-59300331
　　电子邮件：ayh@cae.cn、hl@cae.cn

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力学人物
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　Prof. L. B. Freund

Prof. L. B. Freund
H. L. Goddard University Professor and Professor of Engineering:
Division of Engineering
Phone: +1 401 863 1476
freund@brown.edu

Biography

Freund received his Ph.D. degree from Northwestern University in 1967. He is the author or co-author of over 190 published articles on stress waves in solids, fracture mechanics, seismology, computational mechanics, dislocation theory, thin films, microstructure evolution in films, and engineering education, plus monographs on Dynamic Fracture Mechanics and on Thin Film Materials. His current research interests include: mechanics of biological materials (cell adhesion, molecular transport in cell walls) and mechanics of thin film materials (evolution of microstructure, influence of strain on quantum mechanical transport, lattice mismatched heterostructures). Freund presently serves as Associate Editor of the Proceedings of the National Academy of Sciences and as President of the International Union of Theoretical and Applied Mechanics. He is an elected member of the National Academy of Sciences, the National Academy of Engineering, and the American Academy of Arts and Sciences.

Interests

Freund's derivation of the equations describing the propagation of cracks in an elastic body has led to the understanding of dynamic fracture that is now widely used in such critically important applications as the safety of gas pile lines and the safety of nuclear containment vessels. Professor Freund's research is concerned with mechanical phenomena in solid materials, focusing on the relationship between the overall mechanical state of a deformable solid and the localized physical processes of material deformation and failure. Work on fracture in cases when material inertia effects are significant has led to descriptions of the processes of dynamic crack growth in elastic and elastic-plastic engineering materials, dynamic faulting in the earth's crust, fragmentation of ceramics and other brittle materials under impact loading, and dynamic failure in ductile materials. As a current focus, Professor Freund and his students have been concerned with mechanical phenomena involved in fabrication, reliability, and performance of solid-state electronic devices. Among the issues under study are: stress-driven surface diffusion and evolution of microstructure during vapor deposition of semiconductor materials, dislocation formation and growth in strained semiconductors, mechanics of self-assembly of quantum structures, influence of strain on quantum mechanical charge transport in heterostructures, and compliant substrate strategies for fabrication of mechanically stable strained semiconductor structures. Professor Freund was awarded the 2000 William Prager Medal by the Society of Engineering Science. He is the author or co-author of over 175 articles on stress waves in solids, fracture mechanics, seismology, computational mechanics, dislocation theory, mechanics of thin films, and applied physics, and the author of a Cambridge University Press monograph on Dynamic Fracture Mechanics. Currently, Professor Freund serves as Editor of the Journal of the Mechanics and Physics of Solids and as Treasurer of the International Union of Theoretical and Applied Mechanics. He is a member of the National Academy of Sciences, the National Academy of Engineering, and the American Academy of Arts and Sciences.

Awards
Engineering Traineeship, National Science Foundation, 1964-67
Henry Hess Award, American Society of Mechanical Engineers, 1974
Fellow, American Society of Mechanical Engineers, 1980
Fellow, American Academy of Mechanics, 1983
General Lecture, Tenth U. S. National Congress of Applied Mechanics, Austin, 1986
George R. Irwin Medal, American Society for Testing and Materials, 1987
Michael A. Sadowsky Mechanics Lecture, Rensselaer Polytechnic Insititute, 1988
Henry Ledyard Goddard University Professor, Brown University, 1988
Technical Analysis Corporation President's Award, Tau Beta Pi Teaching Award, Brown University, 1990
American Academy of Arts and Sciences, Elected Fellow 1993
Dedicated NSF/ONR Symposium on Dynamic Failure Mechanics in Modern Materials, California Institute of Technology, 1994
Alexander Graham Christie Lecture, Department of Mechanical Engineering, The Johns Hopkins University, 1994
National Academy of Engineering, Elected 1994
Russell Severance Springer Professor, University of California, Berkeley, 1995-96
Alumni Honor Award, College of Engineering, University of Illinois at Urbana-Champaign, 1996
National Academy of Sciences, Elected 1997
Distinguished Visiting Scientist, Jet Propulsion Laboratory, 1999-2001
William Prager Medal, Society of Engineering Science, 2000
Research Highlights Lecture Series, National Science Foundation, Directorate for Engineering, February 2001
Fellow, Society of Engineering Science, Elected 2002
Timoshenko Medal, American Society of Mechanical Engineers, 2003
Yunchuan Aisinjioro-Soo Distinguished Lecture, Mechanical & Industrial Engineering, University Of Illinois, 2003
Jerzy Nowinski Lecture, Mechanical Engineering, University of Delaware, 2004
William Gurley Lecture in Mechanical Engineering, Rensselaer Polytechnic Institute, 2005
The Aris and Bessie B. Phillips Lecture in Theoretical and Applied Mechanics, Yale University, 2005
Distinguished Alumni Award, Department of Theoretical and Applied Mechanics, University of Illinois at Urbana-Champaign, 2006

Affiliations
American Society of Mechanical Engineers, Fellow
Society of Engineering Science, Life Member
International Union of Theoretical and Applied Mechanics, US delegate (1986-96), Treasurer (1996-04), President (2004-08)
US National Committee for Theoretical and Applied Mechanics, Member
National Academy Of Sciences, elected 1996
National Academy of Engineering, elected 1994
American Academy of Arts and Sciences, elected 1993

9/74-6/75: Visiting Associate Professor of Applied Mechanics and Materials Science, Stanford University
9/83-1/84: Visiting Scholar, Division of Applied Sciences, Harvard University
7/88-date: Henry Ledyard Goddard University Professor, Brown University
1/95-6/95: Visiting Professor of Applied Mechanics and Materials Science, Stanford University
10/95-12/95 Russell Severance Springer Professor, Department of Mechanical Engineering, University of California, Berkeley
1/99-6/99 Visiting Associate in Aeronautics, California Institute of Technology
1/99-12/01 Distinguished Visiting Scientist, Jet Propulsion Laboratory, Pasadena
8/03-12/03 Visiting Professor of Mechanical Engineering and Beckman Institute Fellow, University of Illinois at Urbana-Champaign

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学术会议
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　第十一届国际隔震与消能减震控制学术会议(11月.广州)

第十一届国际隔震与消能减震控制学术会议即将于2009年11月17～21日在广州召开。这是结构减震控制领域最具影响力的国际会议，是该领域最高水平学术交流的盛会，由国际隔震与消能减震控制学会（Anti-Seismic System International Society——ASSISi）主办，每两年在世界各地轮流召开。
本次会议是首次在中国召开，届时将会有数百名来自世界各地的专家学者到会，共同研讨和交流隔震与消能减震控制领域的最新进展。
联系方式：
“第十一届国际隔震与消能减震控制学术会议”组委会
地址：广州大学工程抗震研究中心
广州市广园中路248号 510405
电话：020-86 395053
传真：020-86 575840
E-mail: postmaster@11wcsi.com
Http:// www.11wcsi.com

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　Fourth International Conference on Engineering Failure Analysis (ICEFA IV) - abstract deadline 27 November 2009

Following successful meetings in Lisbon, Toronto and Sitges, Elsevier will host the Fourth International Conference on Engineering Failure Analysis (www.icefa.elsevier.com) at Churchill College in Cambridge from the 4th - 7th July 2010. You are invited to participate in the latest in this important series of conferences, which have established a respected biennial forum for the discussion and dissemination of knowledge and experience in Engineering Failure Analysis.

I do hope that you will consider submitting an abstract by 27 November 2009 and take the opportunity to network in Cambridge with people of similar research interests at this informative single stream conference. Selected papers from the oral and poster programs will be peer-reviewed and published in the archival journal, Engineering Failure Analysis (www.elsevier.com/locate/engfailanal).

　8th International Conference on Fatigue Damage of Structural Materials - abstract deadline 7 December 2009

The eighth biennial Fatigue Damage of Structural Materials conference (www.fatiguedamage.elsevier.com) will once again be held in scenic Cape Cod at The Resort and Conference Center at Hyannis, Hyannis, Massachusetts from the 19 - 24 September 2010. Hyannis is situated on the historic Cape Cod peninsula just 90 minutes from either Logan International Airport (Boston, MA) or TF Green Airport (Providence, RI).

All interested parties are invited to submit an abstract before 7 December 2009 and take the opportunity to network in Hyannis with people of similar research interests at this informative and popular single-stream conference.

Selected peer-reviewed papers from the oral and poster presentations will be published in a special issue of the archival journal International Journal of Fatigue (www.elsevier.com/locate/ijfatigue).

Best wishes,
Dan Lovegrove
Publisher
Elsevier, Oxford

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论著期刊
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　Acta Mechanica Sinica,Vol.25 (Number 4) ,Aug. 25, 2009

A computational study of the wing-wing and wing-body interactions of a model insect
昆虫双侧翅及翅身干扰问题研究
421 Xin Yu Mao Sun

Analysis of non-symmetrical flapping airfoils
433 Wee Beng Tay Kah Bin Lim

On the Pressure and Stress Singularities Induced by Steady Flows of Incompressible Viscous Fluids
451 GB Sinclair X Chi T I-P Shih

An exact solution for flow past an accelerated horizontal plate in a rotating fluid with the generalized Oldroyd-B model
广义Oldroyd-B型旋转流体中经过水平加速平板流动的精确解
463 Jianhong Kang Mingyu Xu

Studies of the unsteady supersonic base flows around three afterbodies
三种后体非定常超声速底部流动研究
471 Zhixiang Xiao Song Fu

Finite volume element method for analysis of unsteady reaction-diffusion problems
481 Sutthisak Phongthanapanich Pramote Dechaumphai

Discussion on the contact width in generalized plain strain JKR model for isotropic solids
各向同性材料平面应变广义JKR模型的接触区分析
491 Cong Yan Shaohua Chen

A version of Hill's lemma for Cosserat continuum Cosserat
连续介质的Hill定理
499 Xikui Li Qipeng Liu

Base force element method (BFEM) of complementary energy principle for large rotation problems
大转动问题的余能原理基面力元法
507 Yijiang Peng Yinghua Liu

A novel mesh-free poly-cell Galerkin (MPG) Method
一种新的无网格多域迦辽金法
517 Chao Zheng Xuhai Tang JianHai Zhang SC Wu

A new reduction-based LQ control for dynamic systems with a slowly time-varying delay
含慢变时滞的动态系统的LQ控制
529 Bo Liu Masakazu Haraguchi Haiyan Hu

Adaptive control for autonomous rendezvous of spacecrafts on elliptical orbit
航天器椭圆轨道自主交会的自适应控制
539 Shan Lu Shijie Xu

Optimal reorientation of underactuated spacecraft using genetic algorithm with wavelet approximation
采用基于小波逼近的遗传算法对欠驱动航天器姿态再定向的优化研究
547 Xinsheng Ge Liqun Chen

Exact solution and transient behavior for torsional vibration of functionally graded finite hollow cylinders
功能梯度有限长空心圆柱扭转振动的精确解及瞬态行为
555 Huiming Wang Chengbin Liu Haojiang Ding

A method to determine Young's modulus of soft gels for cell adhesion
一种测量软凝胶基底材料弹性模量的方法
565 Xiaoling Peng Jianyong Huang Lei Qin Chunyang Xiong Jing Fang

Aerodynamic map for soft and hard hypersonic level flight in near space
临近空间高超声速巡航飞行的气动图画
571 Ruifeng Hu Ziniu Wu Zhe Wu Xiaoxin Wang Zhongwei Tian

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　力学与实践，2009年 31卷 4期

1 牛仰尧黄君萍汤汉威
浅谈动脉流体动力学分析

12 夏恒新李磊
充液腔体内复杂流动及其系统动力学研究

应用研究
24 陈启生秦明邓谷雨
硅生长过程中尖形磁场对流场及提拉速率的影响

28 金明凡金光哲金英成
梁结构物理参数识别的谱单元方法

32 唐斌
连续梁单元动态刚度矩阵数值问题的研究

37 章凌宋宏伟虞钢
基于量纲分析的激光直接成形残余应力控制

41 邹万杰瞿伟廉罗臻
基于改进残余力向量法的桁架结构损伤诊断

45 毛君杨彩红
带式输送机弯曲变形阻力理论研究

49 刘雷
天线座驱动系统刚柔耦合动力学分析

54 王贡献华宏星汪玉
新型重载舰船设备冲击试验台机理分析与仿真

59 刘根林沈海军
圆柱、柱锥及回形碳管纳米弹簧的轴向刚度

64 白光富胡林张忠政曲东升汤燕吴宇
小筒仓内颗粒中探测棒受到的最大静摩擦力

69 贾常明
汽车冲撞行人抛出速度探讨

力学纵横
53 高云峰
封面说明：首届全国深空探测竞赛

58 金明凡
读者来信2009-4

83 温景嵩
在Batchelor教授的指导下------纪念当代国际流体力学大师G.K.Batchelor教授逝世九周年(下)

88 韦林李尧臣
汽车是如何被提升到楼层上的

90 吕增建
从量子力学的建立看类比思维的创新作用
93 王春英
落体运动的历史研究

98 刘延柱
单轨火车趣谈

100 朱克勤
简单与复杂------流体动力学经典实验的启示

103 力学与实践编辑部
第七届全国周培源大学生力学竞赛试题

104 力学与实践编辑部
第七届全国周培源大学生力学竞赛试题参考答案

105 力学与实践编辑部
第7届全国周培源大学生力学竞赛个人赛获奖名单

110 张炎圣陆新征
大学生结构设计大赛中的计算机仿真分析

教育研究
71 蒋持平徐耀玲肖俊华严鹏
探寻素质教育与考试选拔的结合点

72 邓宗白陶秋帆金晖
关于材料力学中小变形问题的讨论

76 徐远杰楚锡华
中主应力对Mohr-Coulomb材料屈服性质的影响

78 何斌唐静静范钦珊
直接定义法推导梁的挠曲线微分方程

79 王秀华张春秋门玉涛叶金铎张玮
超静定梁变形计算的积分法

81 马力
线性弹性体的工程应力和工程应变的关系

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　 Applied Mechanics Reviews
November 2009,Volume 62, Issue 6

Review Articles
Recent Studies of Adaptive Tuned Vibration Absorbers/Neutralizers
Lari Kela and Pekka Vähäoja

Hopkinson Bar Loaded Fracture Experimental Technique: A Critical Review of Dynamic Fracture Toughness Tests
Fengchun Jiang and Kenneth S. Vecchio

Some Observations on the Origins of Newton's Law of Cooling and Its Influences on Thermofluid Science
K. C. Cheng

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　Journal of the Mechanics and Physics of Solids,Fri Aug 21,2009

1. Mechanics of adhesive contact on a power-law graded elastic half-space
Shaohua Chen, Cong Yan, Peng Zhang, Huajian Gao

2. The influence of particle fluctuations on the average rotation in an idealized granular material
Luigi La Ragione, James T. Jenkins

3. Micro-pillar plasticity: 2.5D mesoscopic simulations
A. Amine Benzerga

4. Anisotropic buckling patterns in spheroidal film/substrate systems and their implications in some natural and biological systems
Jie Yin, Xi Chen, Izhak Sheinman

5. In-plane mechanical behaviors of 2D repetitive frameworks with four-coordinate flexible joints and elbowed beam members
Hiro Tanaka, Yoji Shibutani

6. Optical properties of two-dimensional polymer photonic crystals after deformation-induced pattern transformations
D. Krishnan, H.T. Johnson

7. Pair vs many-body potentials: Influence on elastic and plastic behavior in nanoindentation of fcc metals
Gerolf Ziegenhain, Alexander Hartmaier, Herbert M. Urbassek

8. Numerical solution of polarization saturation/dielectric breakdown model in 2D finite piezoelectric media
Cui-Ying Fan, Ming-Hao Zhao, You-He Zhou

9. Compressive response of a sandwich plate containing a cracked diamond-celled lattice
I. Quintana Alonso, N.A. Fleck

10. The 1/r singularity in weakly nonlinear fracture mechanics
Eran Bouchbinder, Ariel Livne, Jay Fineberg

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　International Journal for Numerical Methods in Engineering
Volume 79 Issue 11 (10 September 2009)

Review Articles
Gmsh: A 3-D finite element mesh generator with built-in pre- and post-processing facilities (p 1309-1331)
Christophe Geuzaine, Jean-François Remacle

Buckling of thin-walled cylindrical shells under axial compression (p 1332-1353)
Himayat Ullah

A finite deformation mortar contact formulation using a primal-dual active set strategy (p 1354-1391)
Alexander Popp, Michael W. Gee, Wolfgang A. Wall

The SPH equations for fluids (p 1392-1418)
G. L. Vaughan

An extended QR-solver for large profiled matrices (p 1419-1442)
M. Ruess, P. J. Pahl

Journal of Fluid Mechanics,Vol. 633

Papers
Reactive Rayleigh–Taylor turbulence
M. CHERTKOV, V. LEBEDEV and N. VLADIMIROVA

Buffer layer structures associated with extreme wall stress events in a smooth wall turbulent boundary layer
J. SHENG, E. MALKIEL and J. KATZ

Extension of equilibrium turbulent heat flux models to high-speed shear flows
RODNEY D. W. BOWERSOX

The effect of surface tension on the stability of unconfined and confined planar jets and wakes
S. J. REES and M. P. JUNIPER

Unsteady two-layer hydraulic exchange flows with friction
S. S. LI and G. A. LAWRENCE

A two-phase flow description of the initiation of underwater granular avalanches
MICKAËL PAILHA and OLIVIER POULIQUEN

Flow separation from a stationary meniscus
J. SÉBILLEAU, L. LIMAT and J. EGGERS

Wall-shear stress patterns of coherent structures in turbulent duct flow
SEBASTIAN GROSSE and WOLFGANG SCHRÖDER

Global mode interaction and pattern selection in the wake of a disk: a weakly nonlinear expansion
PHILIPPE MELIGA, JEAN-MARC CHOMAZ and DENIS SIPP

Turbulent transport mechanisms in oscillating bubble plumes
MARCO SIMIANO, D. LAKEHAL, M. LANCE and G. YADIGAROGLU

The dynamics and rheology of a dilute suspension of hydrodynamically Janus spheres in a linear flow
ARUN RAMACHANDRAN and ADITYA S. KHAIR

An experimental investigation of incipient spilling breakers
J. D. DIORIO, X. LIU and J. H. DUNCAN

The early stages of shallow flows in an inclined flume
MATTEO ANTUONO, ANDREW J. HOGG and MAURIZIO BROCCHINI

Water-wave trapping by floating circular cylinders
R. PORTER and D. V. EVANS

On inertial effects in the Moffatt–Pukhnachov coating-flow problem
MARK A. KELMANSON

Evolution and breaking of parametrically forced capillary waves in a circular cylinder
BABURAJ A. PUTHENVEETTIL and E. J. HOPFINGER

Controlled impact of a disk on a water surface: cavity dynamics
RAYMOND BERGMANN, DEVARAJ VAN DER MEER, STEPHAN GEKLE, ARJAN VAN DER BOS and DETLEF LOHSE

Vortex wakes of a flapping foil
TEIS SCHNIPPER, ANDERS ANDERSEN and TOMAS BOHR

Interaction between two laser-induced cavitation bubbles in a quasi-two-dimensional geometry
PEDRO A. QUINTO-SU and CLAUS-DIETER OHL

Influence of slip on the dynamics of two-dimensional wakes
DOMINIQUE LEGENDRE, ERIC LAUGA and JACQUES MAGNAUDET

Mean temperature profiles in turbulent Rayleigh–Bénard convection of water
OLGA SHISHKINA and ANDRÉ THESS

Turbulent channel flow: comparison of streamwise velocity data from experiments and direct numerical simulation
J. P. MONTY and M. S. CHONG

Particle-wall collision in a viscoelastic fluid
A. M. ARDEKANI, D. D. JOSEPH, D. DUNN-RANKIN and R. H. RANGEL

Bubble transitions in strongly collapsed elastic tubes
ALEXANDRA HEAP and ANNE JUEL

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招生招聘
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　河海大学力学博士后流动站招聘博士后和师资博士后

河海大学（原华东水利学院）工程力学系创建于1959年，是学校历史最悠久的系科之一。现有工程力学国家重点学科、力学一级江苏省重点学科、国家工科基础课程（力学）教学基地，国家级力学实验教学示范中心、国家力学教学创新团队、国家精品课程、工程力学博士点。本学科力学一级博士后流动站现面向海内外招聘博士后和师资博士后，具体招聘事宜如下：
一、招聘专业、方向
流体力学：环境流体力学、计算流体力学、流变学、渗流
固体力学：实验力学、破坏力学、断裂与损伤
振动与控制：粘弹性介质振动的阻尼模型、声波和结构的耦合作用、结构抗震
工程力学：软物质力学、计算力学与工程仿真、工程分析软件开发
二、工作条件及有关待遇
根据国家有关规定提供保险、工资和福利待遇（不低于讲师的待遇）。师资博士后考核合格后留校工作。
三、联系方式
联系人：陈文
电话：025-83786873
传真：025-83736860
E-mail: chenwen@hhu.edu.cn
地址：南京市西康路1号, 河海大学土木工程学院工程力学系
邮编：210098

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　清华大学面向海内外公开招聘139名教授

其中正高职称岗位50人，副高职称岗位89人

清华大学自即日起公布了今年（2009年）该校教师新增正、副高级职务岗位，面向海内外公开招聘。其中正高职称岗位50人，副高职称岗位89人。清华对外接受申请材料的截止日期为今年9月10日，聘任结果将于12月底正式公布。

清华大学人事处日前向海内外发布了招聘信息。该校今年共新增了139个正高级和副高级岗位，其中正高级专业技术职务(教授、研究员)50名，副高级专业技术职务(副教授、副研究员)89名。这些岗位不仅仅面向校内，同时面向海内外有任职资质的人公开招聘。

清华大学人事处要求应聘者原则上应具有本学科最高学位，应聘者提供的材料须真实准确，若发现材料存在虚假不实之处，不再进入应聘程序。
更多阅读：清华大学2009年专业技术职务高级岗位公开招聘
（转自：科学网）

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　Post-Doctoral Research Position in Experimental/Computational AFM Probe Nanofabrication at Northwestern University

Description

Applications are invited for a postdoctoral position within the Micro and Nano Mechanics Laboratory in the Department of Mechanical Engineering, Northwestern University. The successful candidate will participate in a vibrant interdisciplinary research group and be involved in projects addressing experimentation and multiphysics modeling of AFM probe-based techniques for direct-write fabrication of nanowires and biological substrates. Broad collaborations are facilitated through participation in the Northwestern Nanoscale Science and Engineering Center, the Medical School, and Argonne and Sandia National Laboratories.

Requirements
1.A Ph.D. in Physics, Chemistry, Mechanical Engineering, Materials Science and Engineering, Electrical Engineering, or a related area is required.
2.Working experience in nanoscale science and/or engineering, including at a minimum two of the following areas: micro/nanofabrication, nanopatterning/self-assembly ,AFM and/or electron microscopy, molecular dynamics/quantum mechanics modeling.
3.A good record of publications.
4.Strong verbal and written communication skills.

The position is available immediately for a period of one year and may be renewed thereafter. Actual start date is negotiable. Applications will be reviewed immediately and continue to be accepted until the positions are filled. Interested candidates should submit a CV, a cover letter describing their research experience and interests, and the names and email addresses of at least three references to:

Professor Horacio D. Espinosa
Dept. of Mechanical Engineering
Northwestern University
2145 Sheridan Rd.
Evanston, IL 60208-3111
Email: espinosa@northwestern.edu
http://clifton.mech.northwestern.edu/~espinosa/

　Post-Doctoral Research Position in Dynamic Failure of Advanced Materials at Northwestern University

Description

Applications are invited for a postdoctoral position within the Micro and Nano Mechanics Laboratory in the Department of Mechanical Engineering, Northwestern University. The successful candidate will join a vibrant interdisciplinary research group and be involved in projects addressing multiscale experimentation and modeling of material dynamic failure. We seek a motivated, talented and independent individual interested in conducting research on the characterization of material instabilities in novel metallic alloys and polymer composite materials. The experiments will involve high strain rate testing, digital image correlation with high speed photography, and full field temperature detection.

Requirements
1. A Ph.D. in Physics, Mechanical Engineering, Materials Science and Engineering, or a related area is required.
2. Candidates with background and coursework in continuum mechanics, finite deformation plasticity, wave propagation, materials science and nonlinear numerical analysis will be given priority. Experience in the use of Kolsky bar and gas gun apparatus is desirable.
3. A good record of publications.
4. Strong verbal and written communication skills.

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机构团队
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　The Division of Engineering, Brown University

The Division of Engineering is a unique place, which emphasizes the power of interdisciplinary thought and recognizes that engineering is intertwined with every aspect of its lives. Its historical roots are truly interdisciplinary. The Division is organized without the traditional departments or boundaries found at most schools; its model is focused on making unique connections between the various engineering disciplines. Along with associations with the other scholarly disciplines – biology, medicine, physics, chemistry, computer science, the humanities and the social sciences – its co-operations bring unique solutions to challenging problems. The Division focuses on unique and innovative clustering of faculty; in terms of research groups, engineers of all types team together with non-engineers to tackle some of the biggest problems facing engineering and science today. Its talents and expertise lie in the interdisciplinary domain where the seemingly diverse disciplines converge.

The Division of Engineering has an array of degree options, offering ABET accredited undergraduate Bachelor of Science degrees in Biomedical, Civil, Chemical, Computer, Mechanical, Electrical and Materials Engineering. We also offer additional flexible degree options where students are afforded more electives, which include the Bachelor of Arts degree in Engineering and Commerce, Organization and Entrepreneurship (COE), as well as a Bachelor of Science in Engineering-Physics. The Brown Engineering Curriculum is unique in the sense that all students participate in a common interdisciplinary suite of citsses, called the core, for their first two years prior to making a decision on which engineering concentration to purse in depth.

At the graduate level, the faculty in the Division work in all of the preceding traditional disciplines, but are organized into five main research thrust areas: Mechanics of Solids and Structures; Materials Science; Fluid, Thermal and Chemical Processes; Electrical Sciences and Computer Engineering; and Biomedical Engineering. The Engineering faculty has been extremely successful in attracting both federal and private sector funding to support their research programs, and is on the cutting edge of research in their fields. As is evident from the boundary-less engineering model described below and a porous periphery to the other scholar disciplines, the Division provides students and faculty alike with challenging and multidisciplinary problems. These problems are greater than any one person or group and may require underpinning principles from many disciplines, from theory to simulation to complex experimentations, to ultimately solve the problem.

Research Laboratories
* BioChemical Engineering Laboratory
* Ceramic Materials Laboratory
* Computational Mechanics Research Facility (CMRF)
* Corrosion and Materials Testing Laboratory
* Display and Photonics Laboratories
* Energy and Environmental Laboratories
* Electron Microscopy Facility
* Femtosecond Laser Laboratory
* Fluid Mechanics Laboratory
* Laboratory for Engineering Man-Machine Systems (LEMS)
* Laboratory for Environmental and Health Nanosciences(LEHN)
* Laboratory for Sub-Wavelength Optics
* Mechanical Testing Facility
* Metallic Materials Research Group
* Microelectronics Laboratory
* Molecular Beam Epitaxial Facility
* Nanomedicine Laboratory
* Nano & Micromechanics Laboratory
* Optoelectronics and Emerging Technologies Laboratory
* Plate Impact Facility
* Scalable Computing Systems Laboratory (SCALE)
* SHAPE Lab
* Surface Engineering and Nanostructures Laboratory
* Thin Film Laboratory

Centers
* Brown University Materials Research Science and Engineering Center (MRSEC)
* Center for Advanced Materials Research (CAMR)
* Center for Fluid Mechanics (CFM)

Facilities
* Engineering Instructional Computer Facility
You can visit here：http://www.engin.brown.edu/

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结束

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