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A method for manufacture transparent electrically heated glass with high light transmittance and low square resistance

A technology for electrically heating glass and manufacturing methods, applied in the direction of transparent/reflective heating devices, printed circuit manufacturing, copying/marking methods, etc., can solve problems such as difficult to realize, and achieve the effect of large area, high efficiency, and low precision requirements

Active Publication Date: 2019-01-15
QINGDAO TECHNOLOGICAL UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] To sum up, among the current manufacturing technologies of transparent electric heating glass, it is difficult to achieve low square resistance (less than 1Ω / sq), high light transmittance (greater than 90%), and high adhesion (greater than 80N) heating wire at low cost. Manufacturing, it is urgent to develop new technologies to achieve low-cost, mass-produced high-performance electric heating glass with heating line light transmittance greater than 90%, square resistance less than 1Ω / sq, and adhesion greater than 80N

Method used

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  • A method for manufacture transparent electrically heated glass with high light transmittance and low square resistance
  • A method for manufacture transparent electrically heated glass with high light transmittance and low square resistance
  • A method for manufacture transparent electrically heated glass with high light transmittance and low square resistance

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Embodiment 1

[0071] In this embodiment, a large-area master mold structure is manufactured by electric field-driven fused deposition direct writing technology, and then the master mold structure is transferred to the PDMS working mold through a graphic replication process, and then the PDMS working mold is filled with high-temperature sintered silver paste, and finally the PDMS working mold is filled with UV-assisted microtransfer transfers the conductive structure to the target substrate (glass), and the fabricated pattern structure is a wire grid structure. manufacturing process such as figure 2 As shown, the specific preparation steps include:

[0072] (1) Manufacture of the master mold: a large-size master mold (master plate) is manufactured using the electric field-driven fused deposition direct writing technology.

[0073] Ordinary glass is used as the substrate (substrate). Firstly, the glass substrate was cleaned, deionized water was ultrasonically treated for 10 minutes, and th...

Embodiment 2

[0090] In this embodiment, a large-area master mold structure is manufactured by electric field-driven fused deposition direct writing technology, and then the master mold structure is transferred to PDMS through a pattern replication process, and then the PDMS working mold is filled with high-temperature sintered silver paste, and finally UV-assisted Micro-transfer printing transfers the silver wires to the target substrate (glass), and the fabricated conductive structure is a grid structure. manufacturing process such as figure 2 As shown, the specific preparation steps include:

[0091] (1) Manufacture of the master mold: a large-size master mold (master plate) is manufactured using the electric field-driven fused deposition direct writing technology.

[0092] Ordinary glass is used as the substrate (substrate). Firstly, the glass substrate was cleaned, ultrasonically treated with deionized water for 10 min, and then blown dry with nitrogen. Using PMMA as the printing m...

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Abstract

The invention relates to a manufacturing method of transparent electric heating glass with high light transmittance and low square resistance, which combines electric field driven melt deposition direct writing and UV assisted micro-transfer to realize low cost and mass production of transparent electric heating glass with large aspect ratio (0.7-2) and high resolution (1-20 micron) heating wire.This method combines the advantages of electric field driven melt deposition direct writing and UV assisted microtransfer, The invention has the outstanding characteristics and obvious advantages of simple process, low manufacturing cost, high production efficiency and good consistency, in particular, the transparent electrically heated glass with high light transmittance (more than 90%) and low square resistance value (less than 1 omega / sq) can be manufactured at low cost and in batch. The invention has the advantages of simple process, low manufacturing cost, high production efficiency and good consistency. This provides a new solution for the low-cost and large-scale manufacture of large-area, high-performance transparent electrically heated glass.

Description

technical field [0001] The invention belongs to the technical field of transparent electric heating glass manufacturing, and specifically relates to a low-cost and mass-produced transparent electric heating glass that combines electric field-driven fused deposition direct writing and UV-assisted micro-transfer printing technology to achieve high light transmittance and low square resistance Methods. Background technique [0002] Transparent electrically heated glass has a very wide range of applications in many fields and products, and plays an extremely important role in defogging, defrosting and anti-icing in the fields of automobiles, aircraft, construction, display, and military. Especially in cold and humid countries and regions, the application requirements are more prominent and obvious. However, the manufacturing technology of electric heating glass at this stage is difficult to balance the low square resistance and high light transmission characteristics of electri...

Claims

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Application Information

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IPC IPC(8): H05B3/84H05K3/12H05K3/18B41M5/00B41M7/00
CPCB41M5/007B41M7/00H05B3/84H05K3/1275H05K3/1283H05K3/18
Inventor 朱晓阳许权李红珂兰红波杨建军彭子龙王飞
Owner QINGDAO TECHNOLOGICAL UNIVERSITY