Flat pressing manufacturing method of bionic adhesion structure based on micro-via nickel-based mold

A manufacturing method and hole nickel-based technology are applied in the field of flat pressing manufacturing of bionic adhesion structures based on micro-through-hole nickel-based molds, which can solve the problems of difficulty in injection molding and demoulding, constraints, complex physical behavior, etc., and achieve breakthroughs in technical bottlenecks , Improve universality and avoid defects

Active Publication Date: 2020-11-27
NANJING ADHESION TECH CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

And the metal mold group holes (hole density > 10,000 / cm 2 ) The difficulty coefficient of processing and control is high, and the physical behavior of the interface in the molding process is complex, which restricts the smooth progress of its scale
[0005] In 2015, Germany's Gottlieb Binder GmbH, relying on the technology of Professor Gorb's team at Kiel University, proposed a bionic adhesive structure rolling manufacturing technology with enlarged ends (US20150010732A1), and proposed the application of through-hole flexible templates in the rolling process. Compared with Flat pressing process, due to the clamping force of the rollers in the rolling process, it is easy to achieve end face sealing between the through-hole template and the surface of the roller. Structural injection molding and demoulding bring many difficulties, which restrict the molding of complex morphology microstructures
However, for the mushroom-shaped biomimetic adhesive structure with enlarged ends, due to the complexity of the metal mold manufacturing and the physical behavior of the interface during the molding process, the smooth progress of its scale is restricted.

Method used

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  • Flat pressing manufacturing method of bionic adhesion structure based on micro-via nickel-based mold
  • Flat pressing manufacturing method of bionic adhesion structure based on micro-via nickel-based mold
  • Flat pressing manufacturing method of bionic adhesion structure based on micro-via nickel-based mold

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Experimental program
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Effect test

Embodiment 1

[0040] (1) Preparation of a nickel-based mold with an array of micro-vias

[0041] The processing of high-quality and uniform micro-via arrays on metal substrates can be obtained in two ways, one is the subtractive processing method of femtosecond laser spiral drilling, and the other is silicon-based electroforming Additive manufacturing method, two manufacturing technology options such as figure 2 as shown, figure 2 a A large-scale micro-via nickel-based basic mold was realized by femtosecond laser; figure 2 b shows the combination of photolithography and electroplating manufacturing method, select gold-plated silicon wafer, spin-coat photoresist, expose, develop and clean to realize the processing of micro-column array, combined with electroplating technology, nickel can be obtained after thinning and demolding Base microwell array mold.

[0042] The electroplating-assisted modification technology of the array micro-via metal mold is the main way to regulate the micro-...

Embodiment 2

[0053] (1) preparation has the nickel base mold of micro-hole array, and specific content is with embodiment 1;

[0054] The through holes of the nickel-based mold of the prepared micro-through-hole array are trumpet-shaped holes, the largest hole diameter is 50 μm, the thickness of the nickel-based mold is 100 μm, and the hole density is > 10,000 / cm 2 , Anti-adhesive treatment is carried out on the nickel-based mold with micro-through-hole array, and the anti-adhesive treatment method is oxygen plasma treatment and surface fluorination.

[0055] (2) Put the nickel base mold on the elastic liner in the magnetic clamping system;

[0056] Put the nickel-based mold obtained in the previous step on the elastic pad in the magnetic mold clamping system. The main body of the magnet in the magnetic mold clamping system is a NdFeB permanent magnet with an electroplated layer on the outer surface. The upper surface roughness Ra≤0.05μm, The surface finish is greater than grade 10, and t...

Embodiment 3

[0062] (1) preparation has the nickel base mold of micro-hole array, and specific content is with embodiment 1;

[0063] The through holes of the nickel-based mold of the prepared micro-via array are wedge-shaped holes, the largest hole diameter is 90 μm, the thickness of the nickel-based mold is 300 μm, and the hole density is >10,000 / cm 2 , Anti-adhesive treatment is carried out on the nickel-based mold with micro-through-hole array, and the anti-adhesive treatment method is oxygen plasma treatment and surface fluorination.

[0064] (2) Put the nickel base mold on the elastic liner in the magnetic clamping system;

[0065] Put the nickel-based mold obtained in the previous step on the elastic liner in the magnetic mold clamping system. The main body of the magnet in the magnetic force mold clamping system is an electromagnet. The elastic liner is a polyurethane elastic liner with an elastic modulus of 5MPa and a thickness of 5mm. .

[0066] (3) Imprint filling and curing p...

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Abstract

The invention discloses a flat pressing manufacturing method of a bionic adhesion structure based on a micro-via nickel-based mold. The method includes the steps of: preparing a nickel-based mold withan array of micro-vias; placing the nickel-based mold on an elastic liner in a magnetic assembly system; uniformly coating a backing with liquid prepolymer, and placing the side, coated with the liquid prepolymer, of the backing on the nickel-based mold; dividing a cavity into an upper cavity and a lower cavity by a sealing diaphragm, and uniformly pressing a backing layer by vacuumizing the lower cavity and inflating the upper cavity so as to achieve full filling of prepolymers with different viscosities; after completing filling, conducting curing and demolding, and obtaining the bionic adhesion material. The method contributes to the realization of an integrated molding process of a structure with a large depth-to-diameter ratio and an enlarged end; and the magnetic force-induced assembly system is combined with an electrochemical modification technology of the nickel-based mold to realize the omnidirectional controllable adjustment of the microstructure morphology of the bionic adhesive material. The method helps to improve the universality of the micro-nano imprint manufacturing technology for complex structures.

Description

technical field [0001] The invention relates to the field of micro-nano manufacturing, in particular to a flat-press manufacturing method of a bionic adhesive structure based on a nickel-based mold with micro-through holes. Background technique [0002] In nature, many organisms have demonstrated the ability to attach to the whole space in their living environment, from creepers in the plant kingdom to viruses in non-cellular life forms; from octopuses and mussels in the ocean to flies, spiders and geckos on land Wait. From the morphology of the terminal units of their adhesion system, it can be found intuitively that "terminal expansion" is the main structural feature of this type of biological functional unit. Many organisms with the ability to adhere to the whole space, their adhesion functional units have the structural characteristics of terminal expansion, showing excellent adhesion performance. Broad application prospects. [0003] In the past 20 years, scholars at...

Claims

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Application Information

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IPC IPC(8): B29C51/10B29C51/36B29C51/26B29C33/38C25D7/04
CPCB29C33/38B29C51/10B29C51/26B29C51/36C25D7/04
Inventor 姬科举戴振东唐义强赵春霞乔元华甘培赟
Owner NANJING ADHESION TECH CO LTD
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