ADHESION AND FRICTION OF A BIOMIMETIC MUSHROOM-SHAPED FIBRILLAR MICROSTRUCTURE

机译：生物仿肌肉形原纤维微结构的粘附和摩擦

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Adhesion and friction of a novel biomimetic mushroom-shaped fibrillar microstructure were tested. The microstructure reveals approximately twice more effective adhesive properties than a control flat surface made of the same soft synthetic polymer. It also demonstrates smooth sliding with a friction coefficient approximately four times lower than that of the control surface which exhibits pronounced stick-slip motion. It appears that the new microstructure can be used in applications where a total attachment force needs to be generated in a binary on/off state and, most surprisingly, is suitable to stabilize and minimize elastomer friction.

机译：测试了新型仿生蘑菇形原纤维微结构的附着力和摩擦力。与由相同的软合成聚合物制成的控制平面相比，该微结构显示出大约两倍的有效粘合性能。它还显示了平滑的滑动，其摩擦系数比显示明显的粘滑运动的控制表面的摩擦系数低大约四倍。看来，这种新的微结构可用于需要以二元开/关状态产生总附着力的应用中，并且最令人惊讶的是，它适用于稳定和最小化弹性体摩擦。

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《American Society of Mechanical Engineers(ASME)/Society of Tribologists and Lubrication Engineers(STLE) International Joint Tribology Conference; 20071022-24; San Diego,CA(US)》|2007年|P.79|共1页
会议地点 San DiegoCA(US)
作者
M. Varenberg; S. Gorb;
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作者单位

Department of Thin Films and Biological Systems, Max Planck Institute for Metals Research, Heisenbergstr. 3, Stuttgart 70569, Germany;

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原文格式 PDF
正文语种 eng
中图分类机械摩擦、磨损与润滑;
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专利

1. Biomimetic mushroom-shaped fibrillar adhesive microstructure [J] . S.Gorb, M.Varenberg, A.Peressadko Journal of the Royal Society Interface . 2007,第13期

机译：仿生蘑菇形原纤维胶的微观结构
2. Close-up of mushroom-shaped fibrillar adhesive microstructure: contact element behaviour [J] . M. Varenberg and S. Gorb Journal of The Royal Society, Interface . 2008,第24期

机译：蘑菇状原纤维粘合剂微观结构的特写：接触元件行为
3. Close-up of mushroom-shaped fibrillar adhesive microstructure: contact element behaviour [J] . M. Varenberg, S. Gorb Journal of the Royal Society Interface . 2008,第24期

机译：蘑菇状原纤维粘合剂微观结构的特写：接触元件行为
4. ADHESION AND FRICTION OF A BIOMIMETIC MUSHROOM-SHAPED FIBRILLAR MICROSTRUCTURE [C] . M. Varenberg, S. Gorb ASME/STLE International Joint Tribology Conference . 2007

机译：仿生蘑菇纤维状纤维状微观结构的粘附和摩擦
5. Biologically inspired fibrillar adhesion and friction on biological tissues: Modeling, fabrication, and applications. [D] . Cheung, Eugene. 2008

机译：受生物启发的原纤维在生物组织上的粘附和摩擦：建模，制造和应用。
6. Biomimetic mushroom-shaped fibrillar adhesive microstructure [O] . S Gorb, M Varenberg, A Peressadko, 2007

机译：仿生蘑菇形原纤维胶的微观结构
7. Biomimetic mushroom-shaped fibrillar adhesive microstructure [O] . Gorb, S, Varenberg, M, Peressadko, A, 2006

机译：仿生蘑菇形原纤维胶的微观结构

ADHESION AND FRICTION OF A BIOMIMETIC MUSHROOM-SHAPED FIBRILLAR MICROSTRUCTURE

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