Metamaterial light curing 3D printing method based on holographic optical tweezers

A 3D printing and metamaterial technology, applied in the field of metamaterial manufacturing, can solve the problem that 3D printing technology cannot realize the same structure prepared by two different materials, and achieve the effects of convenient operation, improved production efficiency and high manufacturing precision

Inactive Publication Date: 2016-08-03
XI AN JIAOTONG UNIV
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Problems solved by technology

[0005] Aiming at the shortcomings of the above-mentioned metamaterial manufacturing technology and various limitations of the existing 3D printing technology, the present invention provides a metamaterial light-cured 3D printing method based on holographic optical tweezers, through which the m

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  • Metamaterial light curing 3D printing method based on holographic optical tweezers

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Embodiment 1

[0037] figure 1 It is a schematic diagram of a preparation method of an artificial microstructure metamaterial provided in this embodiment, and the preparation method includes:

[0038] (1) Computer-aided design of 3D models of metamaterials

[0039]Use the finite element program of the computer to numerically calculate the propagation process of electromagnetic waves and sound waves in the metamaterial, so as to obtain the geometric configuration and topological structure of the metamaterial that meets the predetermined function, and obtain the three-dimensional model of the required metamaterial through computer-aided design;

[0040] (2) Generate print files and holographic image files

[0041] After the 3D model is pre-processed and layered, it is imported into the stereolithography 3D printing equipment, the support and process parameters are set, and the printing file is finally generated; at the same time, the output after the layered processing of the 3D model is gene...

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Abstract

The invention provides a metamaterial light curing 3D printing method based on holographic optical tweezers. The method comprises the following steps: choosing liquid photosensitive resin as a raw material of a metamaterial base material and choosing solid particles as artificial micro-structures; designing a geometrical structure and a topological structure of a targeted metamaterial according to a result of finite element computation of a computer; generating a print document and a holographic image document by using source data; respectively transmitting the print document and the holographic image document to 3D printing equipment based on three-dimensional light curing forming and the holographic optical tweezers based on a diffractive optical element; simultaneously generating a plurality of optical potential wells which are distributed in a fixed manner in the liquid photosensitive resin by using the holographic optical tweezers according to the holographic image document; capturing the artificial micro-structures in the various potential wells so that the artificial micro-structures are orderly arranged according to the designed topological structure; setting a print focal distance in the depth of the arranged artificial micro-structures by using the 3D printing equipment based on three-dimensional light curing forming; curing a liquid original base material; and continuously manufacturing in a lamination manner according to the print document so that the three-dimensional complex-curved-surface metamaterial comprising different material base bodies and micro-structures can be produced conveniently.

Description

technical field [0001] The invention belongs to the technical field of metamaterial manufacturing, and in particular relates to a holographic optical tweezers-based photocuring 3D printing method for metamaterials. Background technique [0002] Metamaterials are a kind of artificial composite structures or composite materials with extraordinary physical properties that natural materials do not have. By designing ordered structures on the sub-wavelength material characteristic scale, metamaterials can obtain special properties beyond the limits of the natural laws of inherent materials in nature. Functions have greatly expanded the research scope of electromagnetics, optics, acoustics and other disciplines, and have shown great potential value and application prospects in aerospace, aviation, electronics, communications, Internet of Things, biomedical equipment, military and other fields. The functions endowed by metamaterials come from their internal artificial structures ra...

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Application Information

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IPC IPC(8): B29C67/00B33Y10/00B33Y50/00
CPCB33Y10/00B33Y50/00
Inventor 贾坤王勉王铁军
Owner XI AN JIAOTONG UNIV
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