光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2010年
4期
1141-1145
,共5页
活性剂等离子弧焊%焊接电弧%光谱分析%温度场
活性劑等離子弧銲%銲接電弧%光譜分析%溫度場
활성제등리자호한%한접전호%광보분석%온도장
Activating flux PAW welding%Welding arc%Spectra analysis%Temperature field
针对活性剂等离子弧焊焊接过程,利用光谱分析方法对活性剂等离子弧焊焊接电弧进行光谱分析,采用红外热像伪着色法测定活性剂等离子弧焊焊接电弧温度场,并建立活性剂等离子弧焊焊接电弧热流密度径向分布模型,对焊接电弧的成分及焊接电弧温度场进行了研究.研究结果表明,常规等离子焊焊接电弧以氩原子和氩一次电离离子的谱线为主,金属蒸气谱线不突出,焊接电弧以气体粒子为主,属于气体电弧;活性剂等离子弧焊焊接电弧的光谱中氩原子及氩一次离子谱线的辐射强度增强,Ti,cr,Fe金属谱线大量涌现;活性剂等离子弧焊焊接电弧的温度分布比较紧凑,温度场外形窄,温度分布范围较集中,电弧径向温度梯度较大;电弧径向温度分布呈现正态Gauss分布模式.
針對活性劑等離子弧銲銲接過程,利用光譜分析方法對活性劑等離子弧銲銲接電弧進行光譜分析,採用紅外熱像偽著色法測定活性劑等離子弧銲銲接電弧溫度場,併建立活性劑等離子弧銲銲接電弧熱流密度徑嚮分佈模型,對銲接電弧的成分及銲接電弧溫度場進行瞭研究.研究結果錶明,常規等離子銲銲接電弧以氬原子和氬一次電離離子的譜線為主,金屬蒸氣譜線不突齣,銲接電弧以氣體粒子為主,屬于氣體電弧;活性劑等離子弧銲銲接電弧的光譜中氬原子及氬一次離子譜線的輻射彊度增彊,Ti,cr,Fe金屬譜線大量湧現;活性劑等離子弧銲銲接電弧的溫度分佈比較緊湊,溫度場外形窄,溫度分佈範圍較集中,電弧徑嚮溫度梯度較大;電弧徑嚮溫度分佈呈現正態Gauss分佈模式.
침대활성제등리자호한한접과정,이용광보분석방법대활성제등리자호한한접전호진행광보분석,채용홍외열상위착색법측정활성제등리자호한한접전호온도장,병건립활성제등리자호한한접전호열류밀도경향분포모형,대한접전호적성분급한접전호온도장진행료연구.연구결과표명,상규등리자한한접전호이아원자화아일차전리리자적보선위주,금속증기보선불돌출,한접전호이기체입자위주,속우기체전호;활성제등리자호한한접전호적광보중아원자급아일차리자보선적복사강도증강,Ti,cr,Fe금속보선대량용현;활성제등리자호한한접전호적온도분포비교긴주,온도장외형착,온도분포범위교집중,전호경향온도제도교대;전호경향온도분포정현정태Gauss분포모식.
In activating flux plasma arc welding the welding arc was analyzed by spectra analysis technique, and the welding arc temperature field was measured by the infrared sensing and computer image technique. The distribution models of welding arc heat flow density of activating flux PAW welding were developed. The composition of welding are affected by activated flux was studied, and the welding arc temperature field was studied. The results show that the spectral lines of argon atom and ionized ar-gon atom of primary ionization are the main spectra lines of the conventional plasma welding arc. The spectra lines of weld metal are inappreciable in the spectra lines of the conventional plasma welding arc. The gas particle is the main in the conventional plas-ma welding arc. The conventional plasma welding arc is gas welding arc. The spectra lines of argon atom and ionized argon atom of primary ionization are intensified in the activating flux plasma welding are, and the spectra lines of Ti, Cr and Fe elements are found in the activating flux plasma welding arc. The welding arc temperature distribution in activating flux plasma are welding is compact, the outline of the welding arc temperature field is narrow, the range of the welding arc temperature distribution is con-centrated, the welding arc radial temperature gradient is large, and the welding arc radial temperature gradient shows normal Gauss distribution.