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journal of Bionic Engineering Volume 7 Contents
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《Journal of Bionic Engineering》 SCIE EI CSCD 2010年第4期405-408,共4页
关键词 ZHANG Li Design journal of bionic engineering Volume 7 Contents Simulation CHEN
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Mechanism Interpretation of the Biological Brain Cooling and Its Inspiration on Bionic Engineering
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作者 Xu Xue Jing Liu 《Journal of Bionic Engineering》 SCIE EI CSCD 2011年第3期207-222,共16页
The brain is one of the most important organs in a biological body which can only work in a relatively stable temperature range. However, many environmental factors in biosphere would cause cerebral temperature fluctu... The brain is one of the most important organs in a biological body which can only work in a relatively stable temperature range. However, many environmental factors in biosphere would cause cerebral temperature fluctuations. To sustain and regulate the brain temperature, many mechanisms of biological brain cooling have been evolved, including Selective Brain Cooling (SBC), cooling through surface water evaporation, respiration, behavior response and using special anatomical ap- pendages. This article is dedicated to present a summarization and systematic interpretation on brain cooling strategies devel- oped in animals by classifying and comparatively analyzing each typical biological brain cooling mechanism from the per- spective of bio-heat transfer. Meanwhile, inspirations from such cooling in nature were proposed for developing advanced bionic engineering technologies especially with two focuses on therapeutic hypothermia and computer chip cooling areas. It is expected that many innovations can be achieved along this way to find out new cooling methodologies for a wide variety of industrial applications which will be highly efficient, energy saving, flexible or even intelligent. 展开更多
关键词 brain cooling mechanism bionic engineering biolheat transfer thermal window therapeutic hypothermia techniques chip cooling
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Journal of Bionic Engineering Volume 6 Contents
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《Journal of Bionic Engineering》 SCIE EI CSCD 2009年第4期430-431,共2页
关键词 Li CHEN Journal of bionic engineering Volume 6 Contents WANG
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热烈祝贺《Journal of Bionic Engineering》被SCI收录
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《吉林大学学报(理学版)》 CAS CSCD 北大核心 2008年第6期1136-1136,共1页
关键词 SCI Journal of bionic engineering 仿生学 生物物理学
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Erratum to: Journal of Bionic Engineering, 2008, Vol. 5, No. 3, 247-252
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《Journal of Bionic Engineering》 SCIE EI CSCD 2008年第4期366-366,共1页
关键词 Erratum to Journal of bionic engineering NO
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Journal of Bionic Engineering
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《Journal of Bionic Engineering》 SCIE EI CSCD 2008年第1期F0002-F0002,共1页
关键词 Erratum to Journal of bionic engineering NO
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热烈祝贺《Journal of Bionic Engineering》被SCI收录
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《吉林大学学报(信息科学版)》 CAS 2008年第4期440-440,共1页
关键词 SCI Journal of bionic engineering 仿生学 生物物理学
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Journal of Bionic Engineering
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《Journal of Bionic Engineering》 SCIE EI CSCD 2006年第1期F0002-F0002,F0003,共2页
关键词 Journal of bionic engineering Volume 3 Contents SIMULATION
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Journal of Bionic Engineering Volume 3 Contents
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《Journal of Bionic Engineering》 SCIE EI CSCD 2006年第4期235-236,共2页
关键词 Journal of bionic engineering Volume 3 Contents SIMULATION
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Journal of Bionic Engineering Volume 5 Contents
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《Journal of Bionic Engineering》 SCIE EI CSCD 2008年第4期367-370,共4页
关键词 Journal of bionic engineering Volume 5 Contents WANG
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Journal of Bionic Engineering Volume 4 Contents
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《Journal of Bionic Engineering》 SCIE EI CSCD 2007年第4期M0002-M0003,共2页
关键词 Journal of bionic engineering Volume 4 Contents FLOW
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The Establishment Meeting of International Society of Bionic Engineering
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《Journal of Bionic Engineering》 SCIE EI CSCD 2010年第3期293-293,共1页
The establishment meeting of International Society of Bionic Engineering (ISBE) convened grandly at Zhuhai,China in September 14-16, 2010. Related officials and representatives attended the opening ceremony, who camef... The establishment meeting of International Society of Bionic Engineering (ISBE) convened grandly at Zhuhai,China in September 14-16, 2010. Related officials and representatives attended the opening ceremony, who camefrom the Research Councils, UK, the National Natural Science Foundation of America, the Bionic Society of Ger- 展开更多
关键词 The Establishment Meeting of International Society of bionic engineering
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Journal of Bionics Engineering Guide for authors
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《Journal of Bionic Engineering》 SCIE EI CSCD 2005年第2期F003-F003,共1页
1. Aim The journal is aimed to present the latest developments and achievements in bionic engineering to the world’s scientific circles, and publish high quality original papers on the important subjects of bionic en... 1. Aim The journal is aimed to present the latest developments and achievements in bionic engineering to the world’s scientific circles, and publish high quality original papers on the important subjects of bionic engineering and related topics. 2. Scope The journal has comprehensive coverage of bion-ics/biomimetics fields, provides a forum for high quality research communication, and addresses all aspects of original experiments and research based on theory and their applications in bionics engineering. The journal welcomes contributions from all who wish to report on new developments in scientific researches. 展开更多
关键词 PP high PAGE Journal of bionics engineering Guide for authors
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Journal of Bionics Engineering Volume 2 Contents
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《Journal of Bionic Engineering》 SCIE EI CSCD 2005年第4期238-238,共1页
关键词 Journal of bionics engineering Volume 2 Contents VISION
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Journal of Bionics Engineering Guide for authors
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《Journal of Bionic Engineering》 SCIE EI CSCD 2005年第4期F0003-F0003,共1页
关键词 Journal of bionics engineering Guide for authors
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Journal of Bionics Engineering Guide for authors
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《Journal of Bionic Engineering》 SCIE EI CSCD 2005年第3期F0003-F0003,共1页
关键词 Journal of bionics engineering Guide for authors
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Scoping biology-inspired chemical engineering 被引量:2
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作者 Xiao Dong Chen 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2016年第1期1-8,共8页
Biology is a rich source of great ideas that can inspire us to find successful ways to solve the challenging problems in engineering practices including those in the chemical industry. Bio-inspired chemical engineerin... Biology is a rich source of great ideas that can inspire us to find successful ways to solve the challenging problems in engineering practices including those in the chemical industry. Bio-inspired chemical engineering(Bio Ch E)may be recognized as a significant branch of chemical engineering. It may consist of, but not limited to, the following three aspects: 1) Chemical engineering principles and unit operations in biological systems; 2) Process engineering principles for producing existing or developing new chemical products through living ‘devices';and 3) Chemical engineering processes and equipment that are designed and constructed through mimicking(does not have to reproduce one hundred percent) the biological systems including their physical–chemical and mechanical structures to deliver uniquely beneficial performances. This may also include the bio-inspired sensors for process monitoring. In this paper, the above aspects are defined and discussed which establishes the scope of BioChE. 展开更多
关键词 Bioinspired chemical engineering Biology Chemical engineering Material science Multidisciplinary Multiscale Biomimic bionic
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Bionic Design and Simulation Analysis of Energy⁃Efficient and Vibration⁃Damping Walking Mechanism
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作者 Rui Zhang Hao Pang +4 位作者 Yuan He Dianlei Han Lige Wen Lei Jiang Jianqiao Li 《Journal of Harbin Institute of Technology(New Series)》 CAS 2021年第4期16-24,共9页
African ostrich can run for 30 min at a speed of 60 km/h in the desert,and its hindlimb has excellent energy saving and vibration damping performance.In order to realize the energy⁃efficient and vibration⁃damping desi... African ostrich can run for 30 min at a speed of 60 km/h in the desert,and its hindlimb has excellent energy saving and vibration damping performance.In order to realize the energy⁃efficient and vibration⁃damping design of the leg mechanism of the legged robot,the principle of engineering bionics was applied.According to the passive rebound characteristic of the intertarsal joint of the ostrich foot and the characteristic of variable output stiffness of the ostrich hindlimb,combined with the proportion and size of the structure of the ostrich hindlimb,the bionic rigid⁃flexible composite legged robot single⁃leg structure was designed.The locomotion of the bionic mechanical leg was simulated by means of ADAMS.Through the motion simulation analysis,the influence of the change of the inner spring stiffness coefficient within a certain range on the vertical acceleration of the body centroid and the motor power consumption was studied,and the optimal stiffness coefficient of the inner spring was obtained to be 200 N/mm,and it was further verified that the inner and outer spring mechanism could effectively reduce the energy consumption of the mechanical leg.Simulation results show that the inner and outer spring mechanism could effectively reduce the motor energy consumption by about 72.49%. 展开更多
关键词 bionics engineering bionic mechanical leg passive rebound characteristic rigid⁃flexible composite structure energy⁃efficient and vibration⁃damping
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Anti-attachment Function and Biomimetic Application of Slippery Zone in Nepenthes Pitcher
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作者 Lixin Wang Qiang Zhou 《Journal of Agricultural Science and Technology(A)》 2015年第2期106-113,共8页
Carnivorous plants of Nepenthes species have evolved particular organs named pitchers at the tips of their conspicuous leaves, allowing slippery trapping and effective digesting prey to acquire sufficient growing nutr... Carnivorous plants of Nepenthes species have evolved particular organs named pitchers at the tips of their conspicuous leaves, allowing slippery trapping and effective digesting prey to acquire sufficient growing nutrients. Nepenthes pitchers are generally distinguished by several morphological regions exhibiting distinct functions in prey capturing, and combined effect of the several zones results in great trapping efficiency. Depending on specific micro-structures, slippery zone performs an important role in efficiently preying arthropods, and this prey ability inspires an idea for biomimetic development of slippery trapping plate used in controlling agricultural pests. In this paper, combined with our latest results, the authors introduced the recent studies of the slippery zone, including surface structures and anti-attachment functions. They also highlighted the biomimetic application of slippery zone in developing slippery trapping plate for controlling agricultural pest. 展开更多
关键词 Agricultural bionic engineering agricultural pest slippery trapping plate Nepenthes pitchers slippery surface anti-attachment mechanism.
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Numerical Simulation on Flow Control for Drag Reduction of Revolution Body Using Dimpled Surface 被引量:1
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作者 王晶 张成春 +1 位作者 任露泉 韩志武 《Defence Technology(防务技术)》 SCIE EI CAS 2011年第1期59-64,共6页
Numerical simulation on the flow fields near the dimpled and the smooth revolution bodies are performed and compared by using SST k-ω turbulence model, to explain the reasons of friction and base drag reductions on t... Numerical simulation on the flow fields near the dimpled and the smooth revolution bodies are performed and compared by using SST k-ω turbulence model, to explain the reasons of friction and base drag reductions on the bionic dimpled surface and the control behaviors of dimpled surface to boundary layer near wall of the revolution body. The simulation results show that the dimpled surface reduces the skin friction drag through reducing the velocity gradient and turbulent intensity, and reduces the base drag through weakening the pumping action on the flow behind the revolution body caused by the external flow; the low speed rotating vortexes in the dimples segregate the external flow and the revolution body; and the low speed rotating vortexes forming in the bottom of dimples can produce negative skin friction. 展开更多
关键词 engineering bionics dimpled surface drag reduction numerical simulation revolution body
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