CO2激光加热硅芯光纤预制棒的温场分布

何婷; 赵子文; 程雪丽; 陈娜; 王廷云

doi:10.11884/HPLPB201628.151225

强激光与粒子束

CO2激光加热硅芯光纤预制棒的温场分布

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何婷, 赵子文, 程雪丽, 陈娜, 王廷云. 2016: CO2激光加热硅芯光纤预制棒的温场分布, 强激光与粒子束, 28(9): 091003. doi: 10.11884/HPLPB201628.151225

引用本文:

何婷, 赵子文, 程雪丽, 陈娜, 王廷云. 2016: CO2激光加热硅芯光纤预制棒的温场分布, 强激光与粒子束, 28(9): 091003. doi: 10.11884/HPLPB201628.151225

He Ting, Zhao Ziwen, Cheng Xueli, Chen Na, Wang Tingyun. 2016: Temperature distribution of preform in drawing silicon core optical fiber with CO2 laser heating, High Power Lase and Particle Beams, 28(9): 091003. doi: 10.11884/HPLPB201628.151225

Citation:

He Ting, Zhao Ziwen, Cheng Xueli, Chen Na, Wang Tingyun. 2016: Temperature distribution of preform in drawing silicon core optical fiber with CO2 laser heating, High Power Lase and Particle Beams, 28(9): 091003. doi: 10.11884/HPLPB201628.151225

CO2激光加热硅芯光纤预制棒的温场分布

上海大学特种光纤与光接入网省部共建重点实验室培育基地,上海,200072

Temperature distribution of preform in drawing silicon core optical fiber with CO2 laser heating

摘要: 研究了10.6μm CO 2激光加热硅芯光纤预制棒的温场分布,在考虑预制棒表面热辐射和空气对流的情况下,用有限元软件 COMSOL Multiphysics 建立了激光加热预制棒的传热物理模型,比较了激光功率、激光光斑半径和预制棒直径对温场分布的影响,同时提出 CO 2激光加热与石墨炉加热结合调节温场分布的方法。仿真结果显示,激光参数和预制棒直径都会明显影响预制棒温场分布,且激光光斑半径3 mm,功率达到400 W 的激光器可用于直径10 mm 内的硅芯光纤预制棒制备硅芯光纤。通过 CO 2激光加热和石墨炉加热相结合的加热方式,能更加灵活有效地调节预制棒的温场分布,构建适合硅芯光纤拉丝的温场条件。
- CO 2 激光 /
- 激光功率 /
- 光斑半径 /
- 预制棒直径 /
- 石墨炉加热 /
- 温场分布
Abstract: This paper presents a physical model about the temperature distribution of a silicon preform exposed to a 10.6 μm CO 2 laser in consideration of air convection and environmental radiation heat transfer.In the meantime,an approach of heating the preform by the laser combining with graphite furnace is suggested.Simulation results show that the temperature distribution is strongly dependent on the parameters of the CO 2 laser and the preform,and laser heating is appropriate for preform with diameter less than 10 mm when the laser spot radius is 3 mm and laser power is 400 W.Heating combining with graphite furnace can mod-ulate the temperature gradient effectively and build the correct temperature field for silicon core fiber drawing.

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CO2激光加热硅芯光纤预制棒的温场分布

上海大学特种光纤与光接入网省部共建重点实验室培育基地,上海,200072

关键词:

摘要: 研究了10.6μm CO 2激光加热硅芯光纤预制棒的温场分布,在考虑预制棒表面热辐射和空气对流的情况下,用有限元软件 COMSOL Multiphysics 建立了激光加热预制棒的传热物理模型,比较了激光功率、激光光斑半径和预制棒直径对温场分布的影响,同时提出 CO 2激光加热与石墨炉加热结合调节温场分布的方法。仿真结果显示,激光参数和预制棒直径都会明显影响预制棒温场分布,且激光光斑半径3 mm,功率达到400 W 的激光器可用于直径10 mm 内的硅芯光纤预制棒制备硅芯光纤。通过 CO 2激光加热和石墨炉加热相结合的加热方式,能更加灵活有效地调节预制棒的温场分布,构建适合硅芯光纤拉丝的温场条件。

English Abstract

Temperature distribution of preform in drawing silicon core optical fiber with CO2 laser heating

上海大学特种光纤与光接入网省部共建重点实验室培育基地,上海,200072

Keywords:

Abstract: This paper presents a physical model about the temperature distribution of a silicon preform exposed to a 10.6 μm CO 2 laser in consideration of air convection and environmental radiation heat transfer.In the meantime,an approach of heating the preform by the laser combining with graphite furnace is suggested.Simulation results show that the temperature distribution is strongly dependent on the parameters of the CO 2 laser and the preform,and laser heating is appropriate for preform with diameter less than 10 mm when the laser spot radius is 3 mm and laser power is 400 W.Heating combining with graphite furnace can mod-ulate the temperature gradient effectively and build the correct temperature field for silicon core fiber drawing.

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CO2激光加热硅芯光纤预制棒的温场分布

Temperature distribution of preform in drawing silicon core optical fiber with CO2 laser heating

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CO2激光加热硅芯光纤预制棒的温场分布

English Abstract

Temperature distribution of preform in drawing silicon core optical fiber with CO2 laser heating

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