玻璃包覆纯铜丝快速冷却温度场数值模拟

建立了玻璃包覆纯铜丝快速冷却过程温度场的有限元计算模型，模拟得出了冷却过程丝线横断面的温度分布图及节点温度随时间的变化关系。研究了冷却水温度、水流速度对玻璃包覆纯铜丝冷却效果的影响。结果表明:快冷时玻璃层内的温差最大可达45 K/μm，铜芯内温差最大为0.12 K/μm;随着冷却水流速增大,冷却效果增强，流速达到0.5 m/s时冷却能力饱和;冷却水温在283～303 K范围内变化时,冷却效果基本不变。

Abstract

The calculation model for the distribution of temperature field of fast colding of pure copper wire covered glass, was established. Using the finite analysis software, the temperature distribution in the cool process was simulated. We have obtained how nodal point temperature changed as the temperature decreased. the influence of the temperature of the cooling water and the velocity of the water on copper wire was investigated. The results show that the glass layer has a temperature difference up to 45 K/μm, the copper core has a temperature difference up to 0.12 K/μm; and that as the cooling water flow rate increases, the cooling effect increases, when the flow rate reaches 0.5 m/s, the cooling effect is the best; and that when the cooling water temperature ranges from 283 K to 303 K, the cooling effect almost remains unchanged.

参考文献

[1] 彭先觉，华欣生.快Z箍缩——有前景的聚变能源新途径［J］.中国工程科学，2008,10(1):47-53.(Peng Xianjue,Hua Xinsheng. Fast Z-pinch—a promising new way to fusion energy. Engineering Sciences, 2008,10(1):47-53)

[2] Spielman R B, De Groot J S Z. Pinches—a historical view［J］. Laser and Particle Beams,2001,19(4):509-525.

[3] Sanford T W L, Spielman R B, Allshouse G O, et al. Wire number doubling in high-wire-number regime increases Z-accelerator X-ray power［J］. IEEE Trans on Plasma Sci，1998,26(4):1086-1093.

[4] Chiriac H, Ovari T A. Amorphous glass-covered magnetic wires: preparation, properties, applications［J］. Progress in Materials Science, 1996,40(5):333-407.

[5] Hasegawa R. Magnetic wire fabrication and applications［J］. Journal of Magnetism and Magnetic Materials, 2002,249(1/2):346-350.

[6] Vazquez M, Gomez-Polo C, Chen D X, et al. Magnetic bistability of amorphous wires and sensor applications［J］. IEEE Trans on Magn, 1994, 30(2):907 -912.

[7] 王璟,刘雪峰,谢建新.玻璃包覆纯铜微丝的制备与表征［J］.中国有色金属学报,2005,15(12):1953-1959.(Wang Jing, Liu Xuefeng, Xie Jianxin. Preparation and characterization of glass-coated pure copper microwire. The Chinese Journal of Nonferrous Metal, 2005,15(12):1953-1959)

[8] Naum R B, Vitaly I P, Igor A N, et al. Process for the manufacture of glass-insulated microwires, USA:US1426104［P］. 1973-02-01.

[9] 周秀文,蔡红梅,张继成,等.玻璃包覆铜丝快速凝固感应加热磁场数值模拟［J］.强激光与粒子束,2007,19(10):1643-1648.(Zhou Xiuwen, Cai Hongmei, Zhang Jicheng, et al. Magnetic field simulation of induction heating in glass-coated copper microwire rapid solidification process. High Power Laser and Particle Beams, 2007,19(10):1643-1648)

[10] 葛绍岩,刘登瀛,徐靖中,等.气膜冷却［M］.北京:科学出版社,1985.(Ge Shaoyan, Liu Dengyin, Xu Jinzhong, et al. Film cooling. Beijing: Science Press, 1985)

[11] 严家騄,余小福.水和水蒸气热力性质图表［M］.北京:高等教育出版社,2004.(Yan Jialu, Yu Xiaofu. Thermal properties charts of water and water vapor. Beijing: Higher Education Press, 2004)

[12] 杨世铭,陶文铨.传热学［M］.北京：高等教育出版社,2006.(Yang Shiming, Tao Wenquan. Heat transfer. Beijing: Higher Education Press, 2006)

[13] 陈火红.新编MARC有限元实例教程［M］.北京:机械工业出版社,2007.(Chen Huohong. New MARC finite element example tutorials. Beijing: Mechanical Industry Press, 2007)

[14] 周建兴,刘瑞祥,陈立亮,等.凝固过程数值模拟中的潜热处理方法［J］.铸造,2001,50(7):404-407.(Zhou Jianxing, Liu Ruixiang, Chen Liliang et al. The approaches of latent heat treatment. Foundry, 2001,50(7):404-407)

[15] Larin V S, Torcunov A V, ZhukovA, et al. Preparation and properties of glass-coated microwires［J］. Journal of Magnetism and Magnetic Materials, 2002, 249(1/2):39-45.

高晓锋, 韦建军, 周秀文, 安辛友, 吴卫东. 玻璃包覆纯铜丝快速冷却温度场数值模拟[J]. 强激光与粒子束, 2013, 25(8): 1970. Gao Xiaofeng, Wei Jianjun, Zhou Xiuwen, An Xinyou, Wu Weidong. Temperature field simulation of fast cooling of glass-coated pure copper wire[J]. High Power Laser and Particle Beams, 2013, 25(8): 1970.

玻璃包覆纯铜丝快速冷却温度场数值模拟

关于本站 Cookie 的使用提示

全站搜索

玻璃包覆纯铜丝快速冷却温度场数值模拟

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索