K. Dušek, M. Placek, D. Bušek, K. Dvorakova, A. Rudajevová
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引用次数: 4
摘要
在表面贴装技术过程中,当熔化的焊料合金润湿表面并形成未来的焊点时,组装的PCB暴露在热量中。理想情况下,在焊接过程中,所有组件的PCB应暴露在相同的温度曲线下。尽管温度分布是稳定的,但由于所用材料和组件的热容不同,整个PCB的温度也不同。研究的目的是评估不同热容量的铜材料的可焊性,并考虑不同类型的助焊剂的影响。测量是通过润湿平衡法完成的,其中润湿力是作为时间的函数来测量的,在此期间,试样浸入,保持浸入,然后从焊锡浴中取出。在我们的实验中,我们使用了四种不同直径的铜线(0.7 mm, 1 mm, 1.5 mm),三种焊料-一种铅(Sn63Pb37)和两种无铅(Sn99Cu1, Sn97Cu3)焊料和三种助焊剂。
Study of influence of thermal capacity and flux activity on the solderability
During the surface mount technological process the assembled PCB is exposed to heat when molten solder alloy wets the surfaces and creates future solder joints. The PCB with all components should ideally be exposed to the same temperature profile during the soldering process. The temperatures differ throughout the PCB due to different thermal capacities of used materials and components even though the temperature profile is stable. The aim of the study was to assess the solderability of the copper material with different thermal capacity and to consider the effect of different types of fluxes. The measurement was done by wetting balance method, where the wetting force is measured as a function of time during which the test specimen is immersed into, remains immersed and then it is pulled out from the solder bath. In our experiments we used copper wire of four different diameters (0.7 mm, 1 mm, 1.5 mm), three types of solders - one lead (Sn63Pb37) and two lead free (Sn99Cu1, Sn97Cu3) solders and three types of fluxes.
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