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Dry adhesion pad based on Van der Waals force effect and manufacturing method thereof

A production method and effect technology, applied in the field of dry adhesive pads based on van der Waals force effect and its production, can solve the problems that the adhesive pad does not have an anisotropic structure, does not have easy detachability, etc., and achieves good control of mechanical properties , Excellent adhesion performance, increase the effect of van der Waals force

Active Publication Date: 2018-10-12
BEIHANG UNIV
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Problems solved by technology

[0004] However, the shape of bristles is the main factor affecting the performance of dry adhesive pads. Compared with other bristle shapes, dry adhesive pads with wedge-shaped bristle arrays are more in line with the application requirements of low preload and easy detachment. The bristle length, aspect ratio Geometric parameters such as , inclination angle have a significant impact on the adhesion performance, but the research in this area at home and abroad is still very preliminary. How to improve the performance of wedge-shaped bristles with low preload, high adhesion and easy desorption is the core issue that needs to be further studied.
[0005] In short, most of the existing adhesive pads do not have an anisotropic structure, that is, they do not have easy detachability.

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  • Dry adhesion pad based on Van der Waals force effect and manufacturing method thereof
  • Dry adhesion pad based on Van der Waals force effect and manufacturing method thereof
  • Dry adhesion pad based on Van der Waals force effect and manufacturing method thereof

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Embodiment Construction

[0045] The principles and features of the present invention are described below in conjunction with the accompanying drawings, and the examples given are only used to explain the present invention, and are not intended to limit the scope of the present invention.

[0046]In terms of the preparation of dry adhesive pads, the more mainstream preparation method is the mold casting method. Among them, the fine machining method to prepare the mold has the advantages of low material cost, high processing efficiency, and large-scale production. However, in-depth research on the processing technology is still needed. , to improve the dimensional accuracy and surface finish of the wedge-shaped groove, thereby improving its low preload, high adhesion, and easy desorption performance.

[0047] Such as figure 1 A schematic flowchart of a method for manufacturing a dry adhesive pad based on the van der Waals effect provided by an embodiment of the present invention is given. Such as figu...

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Abstract

The invention relates to a dry adhesion pad based on the Van der Waals force effect and a manufacturing method thereof. The method comprises the following steps of depositing a thin film on the surface of a wedge-shaped concave die, wherein the wedge-shaped concave die is provided with a plurality of inclined wedge-shaped grooves; casting an elastic adhesive material into the wedge-shaped concavedie, and carrying out curing at room temperature; and moving the elastic adhesive material out of the wedge-shaped concave die so as to obtain an inclined wedge-shaped array on the surface of the elastic adhesive material, namely the dry adhesion pad based on Van der Waals force effect. According to the dry adhesion pad based on the Van der Waals force effect and the manufacturing method thereof,the adhesion pad with low pre-load, high adhesion and easy desorption characteristics can be prepared by depositing the thin film on the surface of the wedge-shaped concave die with the multiple inclined wedge-shaped grooves, casting the elastic adhesive material into the wedge-shaped concave die, then carrying out curing at room temperature and moving the elastic adhesive material out of the wedge-shaped concave die.

Description

technical field [0001] The invention relates to the technical field of artificial dry adhesion, in particular to a dry adhesion pad based on van der Waals force effect and a manufacturing method thereof. Background technique [0002] As scientists continue to deepen their research on bionics, it is found that gecko is the animal with the largest mass that has the ability to move freely in all spaces, and the adhesion mechanism of its soles (pads) has aroused great interest of scientists. In 2000, the FULL team in the United States proved that the adhesion between the bristles on the gecko's feet and the surface of the object was achieved through intermolecular van der Waals force by measuring the adhesion of a single bristle on the gecko's paw. They believe that although the van der Waals force value is small, when the number of bristles in contact with the contact surface is large enough, the accumulated force is enough to support the weight of the gecko's entire body. In ...

Claims

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Application Information

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IPC IPC(8): B29C39/02B29C33/38
CPCB29C33/3842B29C39/026
Inventor 楚中毅王畅毛宇成海啸
Owner BEIHANG UNIV
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