Preparation method of laser transparent ceramic optical fiber with waveguide structure based on Isobam gel-state dip-coating technology

A technology of waveguide structure and laser transparency, applied in the direction of optical waveguide light guide, cladding fiber, etc., can solve the problem of missing laser ceramic fiber, and achieve the effect of batch production, simple and efficient process, and satisfying heat dissipation.

Active Publication Date: 2021-02-09
XINYI XIYI ADVANCED MATERIALS RES INST OF IND TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although Japan Ikesue, U.S. Air Force Laboratory Kim, Fair and patents CN 104451953 B, CN111270347 A, CN 110885244 A, etc. have all carried out systematic research on the preparation of ceramic optical fibers, there is no laser ceramic optical fiber with gel injection molding waveguide structure. Related Patent Reports

Method used

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Examples

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Effect test

Embodiment 1

[0029]A method for preparing a waveguide structure laser transparent ceramic optical fiber based on Isobam gel state dip coating technology, which includes the following steps:

[0030]Step 1: Weigh the high purity nano Y according to the stoichiometric ratio of each element in 1% Nd: YAG2O3Powder 33.799g, high purity nano Al2O3Powder 25.692g, high purity Nd2O30.509g powder, impurity removal pretreatment;

[0031]Step two, use sintering aid SiO2 0.2g and MgO 0.1g, high purity Al2O3180g of grinding balls, 72ml of absolute ethanol, fully stirred and put into a ball milling tank, mixed at a rotation speed of 160r / min for 24 hours to obtain a mixed slurry;

[0032]Step 3. After the ball milling, place the mixed slurry in a constant temperature oven at 40℃ for 48h and pass through a 100-mesh sieve. Put the sieved powder into a muffle furnace for calcination, heat up from room temperature to 1000℃, and keep it warm for 8h. Naturally cool to obtain raw material powder for gel injection molding;

[003...

Embodiment 2

[0039]A method for preparing a waveguide structure laser transparent ceramic optical fiber based on Isobam gel state dip coating technology, which includes the following steps:

[0040]Step 1. Weigh the high purity nano Y according to the stoichiometric ratio of each element in 4% Nd: YAG2O3Powder 32.503g, high purity nano Al2O3Powder 25.479g, high purity Nd2O3Powder 2.018g, impurity removal pretreatment;

[0041]Step two, use sintering aid SiO20.25g and MgO 0.05g, high purity Al2O3180g of grinding balls, 72ml of absolute ethanol, fully stirred and put into a ball milling tank, mixed at a speed of 120r / min for 36 hours to obtain a mixed slurry;

[0042]Step 3. After ball milling, place the mixed slurry in a constant temperature oven at 100℃ for 24 hours and pass it through a 150-mesh sieve. Place the sieved powder in a muffle furnace for calcination. The temperature is raised from room temperature to 800℃ and kept for 24h. Naturally cool to obtain raw material powder for gel injection moldin...

Embodiment 3

[0049]A method for preparing a waveguide structure laser transparent ceramic optical fiber based on Isobam gel state dip coating technology, which includes the following steps:

[0050]Step 1. Weigh the high purity nano Y according to the stoichiometric ratio of 2% Nd: YAG2O3Powder 33.364g, high purity nano Al2O3Powder 25.621g, high purity Nd2O31.015g powder, impurity removal pretreatment;

[0051]Step two, use sintering aid SiO2 0.2g and MgO 0.1g, high purity Al2O3180g of grinding balls, 72ml of absolute ethanol, fully stirred and put into a ball milling tank, mixed at a speed of 140r / min for 30h and uniformly mixed to obtain a mixed slurry;

[0052]Step 3. After the ball milling, place the mixed slurry in a constant temperature oven at 60°C for 36 hours and pass it through a 200-mesh sieve. Place the sieved powder in a muffle furnace for calcination. The temperature is raised from room temperature to 900°C and kept for 12 hours. Naturally cool to obtain raw material powder for gel injectio...

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Abstract

The invention discloses a preparation method of a laser transparent ceramic optical fiber with a waveguide structure based on an Isobam gel-state dip-coating technology. The preparation method comprises the following steps: preparing a core layer of an Nd: YAG transparent ceramic optical fiber by using a gel forming technology; conducting coating of cladding YAG transparent gel slurry in a core gel state (at an intersection point of an elastic modulus and a viscous modulus) by using the gel state dip-coating technology, thereby achieving effective adhesion of a core layer and the cladding, wherein coating thickness is adjusted through time; and finally, conducting warm isostatic pressing and vacuum sintering to prepare the laser transparent ceramic optical fiber with the waveguide structure. By accurately controlling a gel point in the gel state, effective bonding of the core layer and a cladding ceramic material is realized, an interface is clear, and the method is simple and efficient in process and capable of realizing batch and industrial production.

Description

Technical field[0001]The invention relates to the technical field of transparent ceramic optical fiber preparation, in particular to a method for preparing a waveguide structure laser transparent ceramic optical fiber based on Isobam gel state dip coating technology.Background technique[0002]At present, fiber lasers generally use rare-earth-doped glass fibers as gain media. The basic principle is that the power density rises in the fiber under the action of the pump light, causing the laser energy level of the laser working substance to "populate population inversion. The laser oscillation output can be formed in the resonant cavity. Fiber lasers have a wide range of applications, including laser fiber communications, laser space telecommunication, industrial shipbuilding, automobile manufacturing, laser engraving, laser cutting, printing rollers, metal and non-metal drilling / cutting / welding, military and national defense security, Medical equipment can also be used as pump sources ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B35/44C04B35/50C04B35/622C04B35/64G02B6/02
CPCC04B35/44C04B35/50C04B35/62231C04B35/64C04B35/62222G02B6/02C04B2235/3225C04B2235/3217C04B2235/3206C04B2235/3418C04B2235/6581C04B2235/6562C04B2235/6567C04B2235/9653C04B2235/6565
Inventor 张乐姚庆刘明源陈东顺邵岑康健程欣周天元李延彬陈浩
Owner XINYI XIYI ADVANCED MATERIALS RES INST OF IND TECH CO LTD
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