Glass forming device and forming method of large-diameter neodymium-doped phosphate laser glass
A technology of glass forming and neodymium phosphate, applied in glass forming, glass manufacturing equipment, manufacturing tools, etc., can solve problems such as glass surface cracks, and achieve the effect of preventing excessive temperature
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Embodiment 1
[0057] A large-diameter neodymium-doped phosphate laser glass is formed, and the process is as follows:
[0058] Firstly, the above-mentioned glass forming device is selected as the equipment for forming large-diameter neodymium-doped phosphate laser glass 800;
[0059] Secondly, the discharge end of the glass leaking tube 700 is penetrated into the forming cavity 600 through the leaking tube hole 410 and corresponds to the rear guide surface of the plug 300; then the annealing furnace is set on the rear side of the glass forming device , and corresponds to the rear end of the molding cavity 600;
[0060] Next, the protective gas is continuously introduced into the molding cavity 600 through the protective gas pipeline 500, and the flow rate of the introduced protective gas is controlled at 40L / h;
[0061] Next, the molten glass at 990°C in the discharge tank is sent into the molding cavity 600 through the glass leaking tube 700, the temperature of the molten glass flowing ou...
Embodiment 2
[0065] A large-diameter neodymium-doped phosphate laser glass is formed, and the process is as follows:
[0066] Firstly, the above-mentioned glass forming device is selected as the equipment for forming large-diameter neodymium-doped phosphate laser glass 800;
[0067] Secondly, the discharge end of the glass leaking tube 700 is inserted into the molding cavity 600 through the leaking tube hole 410 and corresponds to the rear guide surface of the plug 300;
[0068] Next, the protective gas is continuously introduced into the molding cavity 600 through the protective gas pipeline 500, and the flow rate of the introduced protective gas is controlled at 90L / h;
[0069] Then, through the glass leakage pipe 700, the glass liquid at 980°C in the discharge tank is sent into the molding cavity 600, and the temperature of the glass liquid flowing out of the glass leakage pipe 700 is 930°C, and the temperature on the left and right sides of the forming chamber 600 Heating is carried o...
Embodiment 3
[0073] A large-diameter neodymium-doped phosphate laser glass is formed, and the process is as follows:
[0074] Firstly, the above-mentioned glass forming device is selected as the equipment for forming large-diameter neodymium-doped phosphate laser glass 800;
[0075] Secondly, the discharge end of the glass leaking tube 700 is penetrated into the forming cavity 600 through the leaking tube hole 410 and corresponds to the rear guide surface of the plug 300; then the annealing furnace is set on the rear side of the glass forming device , and corresponds to the rear end of the molding cavity 600;
[0076] Next, the protective gas is continuously introduced into the molding cavity 600 through the protective gas pipeline 500, and the flow rate of the introduced protective gas is controlled at 60L / h;
[0077] Next, the molten glass at 990°C in the discharge tank is sent into the molding cavity 600 through the glass leaking tube 700, and the temperature of the molten glass flowin...
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