UNDERSTANDING INSTABILITIES OF TFC FEMTO-SLIDER AND PICO-SLIDER VIA SURFACE FORCE THEORY

机译：通过表面力理论理解TFC微型滑块和微型滑块的不稳定性

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We formulated the surface pressure of a disk surface that consists of three layers of diamond-like-carbon (DLC) as well as bonded and mobile lubricants based on the asperity adhesive contact theory. We demonstrated that this surface force could well evaluate the touchdown behaviors of a thermal fly-height control (TFC) slider. This theory shows that the touchdown behaviors of a current TFC femto-slider are mainly governed by the asperity meniscus force rather than the van der Waals force (vdW). However, it is shown that the static instability of a pico-slider was generated from the vdW force. Moreover, it is estimated that the dynamic instability of the pico-slider was mainly caused by the meniscus force rather than the vdW force. This surface force theory can allow us to understand consistently various phenomena of slider dynamics.

机译：我们根据粗糙粘合剂接触理论，制定了由三层类金刚石碳（DLC）以及粘结和移动润滑剂组成的磁盘表面的表面压力。我们证明了这种表面力可以很好地评估热飞高控制（TFC）滑块的着陆行为。该理论表明，当前TFC毫微微滑块的着陆行为主要由粗糙弯月面力而不是范德华力（vdW）控制。但是，显示出微微滑块的静态不稳定性是由vdW力产生的。此外，据估计，微微滑块的动态不稳定性主要是由弯液面力而不是vdW力引起的。这种表面力理论可以使我们始终如一地理解滑块动力学的各种现象。

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《Proceedings of the ASME/JSME joint international conference on information storage and processing systems and micromechatronics for information and precision equipment 2018》|2018年|5-7|共3页
会议地点 San Francisco(US)
作者
Kyosuke Ono;
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Tokyo Institute of Technology 4-10-1, Shimoigusa, Suginami-ku, Tokyo 167-0022, Japan;

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4. UNDERSTANDING INSTABILITIES OF TFC FEMTO-SLIDER AND PICO-SLIDER VIA SURFACE FORCE THEORY [C] . Kyosuke Ono ASME/JSME Joint International Conference on Information Storage and Processing Systems and Micromechatronics for Information and Precision Equipment . 2018

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UNDERSTANDING INSTABILITIES OF TFC FEMTO-SLIDER AND PICO-SLIDER VIA SURFACE FORCE THEORY

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