电流脉冲加热瞬态热物性测量技术

The current　pulse-heating technique for thermophysical properties measurement

下载PDF

导出

摘要　对国内外电流脉冲加热技术的发展状况进行了综述评价.针对获取温度方法不同,主要介绍了黑体法、积分球法和激光偏振法三种基本形式的测量系统,进而介绍了扩展参数测量装置.又较为详细地介绍了作者自己研制的测量装置和特点.最后作者展望了电流脉冲加热技术的最新研究动态和发展方向. The technique for the measurement of thermophysical properties has been reviewed in this paper. According to the different methods of temperature measurement, the three methods, namely the classical technique,the reflectometric technique and the laser polarimetry technique, are described briefly. Moreover, the measurement apparatus for the extension to other properties is reviewed. Then, our research work on pulse-heating technique is introduced in detail. At the end, we offer our opinions about the future work in this field.

作者戴景民王青伟萧鹏

机构地区哈尔滨工业大学自动化测试与控制系

出处《中国计量学院学报》 2004年第4期264-272,共9页 Journal of China Jiliang University

基金全国优秀博士论文作者专项基金资助项目(NO.199929)

关键词电流脉冲激光偏振测量技术瞬态黑体积分球参数测量加热技术热物性测量装置 current pulse-heating technique reflectometric techniques measurement of thermophysical properties high-speed pyrometry.

分类号 T-651 [一般工业技术] TG113.2 [金属学及工艺—物理冶金]

引文网络
相关文献

参考文献22

1[1]CEZAIRLIYAN A. Advance in measurements of the thermophysical properties by dynamictechniques [J]. High Temp High Press. 1979.11:9-27.
2[2]RIGHINI F. Pulse calorimetry at high temperatures [J].Thermochimica Acta, 2000.347:93 102.
3[3]HANITZSCH E. Heat capacity determination by the pulsating current method [J]. Thermochimica Acta, 1996,271:115-129.
4[4]CEZAIRLIYAN A, MCCLURE J L, S MORSE M,et al.Measurement of heat capacity of tantalum in the range 1 900-3 000 K by a pulse heating method [J]. ASME Proc 5th Symp on Thermophys Properties, 1970, 2: 385- 390.
5[5]CEZAIRLIYAN A. Simultaneous measurement of specific heat, electrical resistivity, and hemispherical total emittance of niobium-1 zirconium alloy in the range 1 500 to 2700 K by a transient (Subsecond) technique [J]. J Res Nat. Bur Stand,1973,77A: 45-48.
6[6]CEZAIRLIYAN A. Simultaneous measurement of specific heat, electrical resistivity, and hemispherical total emittance by a pulse heating technique: vanadium, 1 500 to 2100 K [J]. J Res Natl Bur Stand, 1974,78A: 143-147.
7[7]RIGHINI F, ROSSO F, RUFFINO G. System for fast high-temperature measurements [J]. High Temp High Press, 1972, 4(5): 597-603.
8[8]RIGHINI F. Measurement of thermophysical properties by a pulse heating method: the phase transformation of zircaloy-2 (800 -1400 K)[A]. Proceeding of 7th Symposium on Thermophysical Properties,1982. 51-61.
9[9]RIGHINI F, SPISIAK J, BUSSOLINO G C, et al. Measurement of thermophysical properties by a pulse heating method: tungsten, 1200-3600 K [J]. High Temp. High Press, 1993,25:193-203.
10[10]RIGHINI F, SPISIAK J, BUSSOLINO G C, et al. Thermophysical properties by a pulse-heating reflectometric techniqueL niobium, 1100 to 2 700 K [J]. Int J. Thermophys, 1999, 20:1107-1116.

1黄金秋,顾剑锋.局部激光热处理对DP1180双相钢成形性能的影响[J].热加工工艺,2014,43(18):194-196. 被引量：1
2李宭.英国在电塑性效应研究中获新进展[J].金属材料研究,2003,29(1):43-43.
3张琳.阻尼合金研究现状及发展[J].现代制造工程,2003(5):87-89. 被引量：8
4黄金秋,顾剑锋.双相钢激光热处理时激光吸收率的测定[J].热处理,2014,29(4):52-55. 被引量：2
5徐根应,安运铮.大功率高频感应脉冲加热特性研究[J].安徽工学院学报,1989,8(1):35-41. 被引量：4
6郑仲渔.脉冲加热浴熔法测定钛及合金中氢的研究[J].理化检验（化学分册）,1994,30(2):99-101. 被引量：1
7张子建.蓄热式加热炉的发展[J].河北冶金,2005(2):16-18. 被引量：10
8陈艳,唐前鹏.内燃机活塞材料及其强化工艺研究现状与展望[J].热加工工艺,2013,42(14):8-10. 被引量：8
9李玲珍,苍大强,崔衡,何鹏,章俊.电流脉冲对普通螺纹钢凝固组织的影响[J].钢铁研究学报,2007,19(3):31-34. 被引量：2
10付永信,王建江,杜心康,张龙,叶明惠.热喷涂技术制备功能梯度材料涂层的发展状况[J].材料保护,2006,39(6):41-44. 被引量：5

中国计量学院学报

2004年第4期

浏览历史

内容加载中请稍等...

电流脉冲加热瞬态热物性测量技术

参考文献22

相关作者

相关机构

相关主题

浏览历史