A kind of preparation method of high-strength silica optical fiber
A quartz optical fiber, high-strength technology, used in glass manufacturing equipment, manufacturing tools, etc., can solve the problem that the strength of the quartz optical fiber cannot meet the needs of high-strength applications, and achieve the purpose of preventing the expansion of micro-cracks, reducing internal stress, and reducing internal stress. Effect
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Embodiment 1
[0027] This embodiment is a comparative example. The polished quartz preform in step 2) is directly left to cool down, instead of gradually reducing the heating temperature in step 3) by gradually reducing the hydrogen flow rate in the oxyhydrogen flame.
[0028] Using 1 in Table 1 # Parameters Quartz preforms are pretreated and drawn.
[0029] Step 1), select a quartz preform with a diameter of 30 mm, firstly perform mechanical polishing on the quartz preform, the surface roughness of the polished quartz preform is 6.5 μm;
[0030] Step 2), carry out flame polishing to quartz prefabricated rod again, wherein H 2 The flow rate is 80L / min, the flame moving speed is 50mm / min, the number of times is 2 times, and the roughness of the polished quartz preform is 4.4μm;
[0031] Step 3), the quartz preform is directly placed at room temperature;
[0032] Step 4), using HF acid and HNO acid mixed solution to pickle the quartz preform for 10 minutes, and then use deionized water to ...
Embodiment 2
[0037] This embodiment is a comparative example. The polished quartz preform in step 2) is directly left to cool down, instead of gradually reducing the heating temperature in step 3) by gradually reducing the hydrogen flow rate in the oxyhydrogen flame.
[0038] Using 2 in Table 1 # Parameters Quartz preforms are pretreated and drawn.
[0039] The wire-drawing temperature in step 5) in this embodiment is 2080° C., and the rest of the methods are the same as in Embodiment 1.
[0040] After the completion, ten optical fiber samples were selected to test the tensile strength of the optical fiber. The results are shown in Table 1. The average tensile strength of the optical fiber is 52.3N.
Embodiment 3
[0042] This embodiment is a comparative example. The polished quartz preform in step 2) is directly left to cool down, instead of gradually reducing the heating temperature in step 3) by gradually reducing the hydrogen flow rate in the oxyhydrogen flame.
[0043] Using 3 in Table 1 # Parameters Quartz preforms are pretreated and drawn.
[0044] The wire-drawing temperature in step 5) in this embodiment is 2160° C., and the other methods are the same as in embodiment 1.
[0045] After completion, select ten optical fiber samples to test the tensile strength of the optical fiber. The results are shown in Table 1. The average tensile strength of the optical fiber is 57.0N.
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