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ZA60合金的金相显微组织研究
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作者 杨杰明 张驰 《煤炭技术》 CAS 北大核心 2016年第6期293-295,共3页
ZA60合金因其独特的强度高、硬度高、流动性好等特点,逐渐地引起了人们广泛关注。指出了ZA60合金中铜、镁元素的重要作用;分别研究了合金熔体过热度、粉末粒度与粉末添加量等工艺参数对ZA60合金金相显微组织的影响。通过对比试验,选择... ZA60合金因其独特的强度高、硬度高、流动性好等特点,逐渐地引起了人们广泛关注。指出了ZA60合金中铜、镁元素的重要作用;分别研究了合金熔体过热度、粉末粒度与粉末添加量等工艺参数对ZA60合金金相显微组织的影响。通过对比试验,选择出了最合适的加工条件。具有重要的推广意义和应用价值。 展开更多
关键词 合金熔体过热度 粉末粒度 粉末添加量
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表面组装用Sn-Ag-Cu无铅焊锡粉末的制备 被引量:2
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作者 许天旱 王党会 姚婷珍 《粉末冶金技术》 CAS CSCD 北大核心 2010年第2期115-119,124,共6页
利用自行设计的超音速雾化制粉装置,研究了导液管突出高度对Sn3Ag2.8Cu无铅焊锡粉末有效雾化率和粒度分布的影响,并在此基础上研究了合金过热度对其有效雾化率及粉末特性的影响。结果表明:随着导液管突出高度的减小,有效雾化率并不是呈... 利用自行设计的超音速雾化制粉装置,研究了导液管突出高度对Sn3Ag2.8Cu无铅焊锡粉末有效雾化率和粒度分布的影响,并在此基础上研究了合金过热度对其有效雾化率及粉末特性的影响。结果表明:随着导液管突出高度的减小,有效雾化率并不是呈单调变化趋势,而是在突出高度1mm和5mm处分别出现峰值,导液管突出高度为4mm,雾化粉末具有较高的有效雾化率和最佳的粒度分布,而且导液管的突出高度决定着雾化过程是否能够顺利进行;当导液管突出高度为4mm时,随着合金过热度的升高,粉末粒度分布明显改善,但氧含量升高,当过热度为150℃时,Sn3Ag2.8Cu雾化粉末具有最佳的综合性能。 展开更多
关键词 Sn-Ag-Cu无铅焊锡粉末 导液管突出高度 合金过热度 有效雾化率 粉末特性
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Sn-Ag-Cu无铅焊锡粉末雾化工艺参数的优化
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作者 许天旱 王党会 《兵器材料科学与工程》 CAS CSCD 2010年第1期45-49,共5页
利用自行设计的超音速雾化制粉装置,通过正交实验法对Sn3Ag2.8Cu无铅焊锡粉末的雾化工艺参数进行优化,研究合金过热度和导液管内径对Sn3Ag2.8Cu无铅焊锡粉末有效雾化率、平均粒径、粒度分布及氧含量的影响。结果表明:过热度对无铅焊锡... 利用自行设计的超音速雾化制粉装置,通过正交实验法对Sn3Ag2.8Cu无铅焊锡粉末的雾化工艺参数进行优化,研究合金过热度和导液管内径对Sn3Ag2.8Cu无铅焊锡粉末有效雾化率、平均粒径、粒度分布及氧含量的影响。结果表明:过热度对无铅焊锡雾化粉末的平均粒径和氧含量影响更大;导液管内径对无铅焊锡雾化粉末有效雾化率和离散度影响更大。当过热度为250℃,导液管内径为3mm,雾化粉末具有更好的综合性能。在与Cu基板的钎焊中,和Sn37Pb粉末相比,利用Sn3Ag2.8Cu粉末配制的焊锡膏与铜基板之间形成的IMC层更厚,且更不规则。 展开更多
关键词 Sn-Ag-Cu无铅焊锡粉末 导液管内径 合金过热度 有效雾化率 粉末特性
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Effects of melt overheating degree on undercooling degree and amorphous forming of Nd_9Fe_(85-x)Ti_4C_2B_x(x=10, 12) magnetic alloys
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作者 杨梦琳 潘晶 +2 位作者 刘新才 肖晓燕 詹玉勇 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2016年第10期2633-2640,共8页
The effectsof melt overheating degree on the undercooling degree and resultant solidification structures of Nd9Fe85-xTi4C2Bx(x=10, 12) glass-forming alloyswerestudied by differential thermal analysis combining with ... The effectsof melt overheating degree on the undercooling degree and resultant solidification structures of Nd9Fe85-xTi4C2Bx(x=10, 12) glass-forming alloyswerestudied by differential thermal analysis combining with solidification structure analysis. The results indicate that the undercooling degree of Nd9Fe85-xTi4C2Bx(x=10, 12) alloys significantly increaseswith the rise of melt overheating degree, and two overheating degree thresholds corresponding to the drastic increase of the mean undercooling degree are found for each of the alloys. The existence of two turning points of the mean undercooling degreescan be linked to the structure transitions inside the overheated melts, which result in the evident increase of volume fraction of amorphous phasein the solidified structures. 展开更多
关键词 magnetic alloy melt overheating undercoolingdegree structure transition glass formability
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Numerical simulation of temperature distribution and heat transfer during solidification of titanium alloy ingots in vacuum arc remelting process 被引量:10
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作者 杨治军 赵小花 +3 位作者 寇宏超 李金山 胡锐 周廉 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第10期1957-1962,共6页
In order to get a better understanding of the vacuum consumable arc remelting(VAR) processes and thus to optimize them,a 3D finite element model was developed for the temperature fields and heat transfer of titanium a... In order to get a better understanding of the vacuum consumable arc remelting(VAR) processes and thus to optimize them,a 3D finite element model was developed for the temperature fields and heat transfer of titanium alloy ingots during VAR process.The results show that the temperature fields obtained by the simulation are well validated through the experiment results.The temperature distribution is different during the whole VAR process and the steady-state molten pool forms at 329 s for d100 mm × 180 mm ingots.At the initial stage of remelting,the heat dissipation of crucible bottom plays an important role in the whole heat dissipation system.At the middle of remelting,the crucible wall becomes a major heat dissipation way.The effect of cooling velocity on the solidification structure of ingots was investigated based on the temperature fields and the results can well explain the macrostructure of titanium alloy ingots. 展开更多
关键词 vacuum arc remelting(VAR) process titanium alloy ingot MACROSTRUCTURE temperature field heat transfer
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Grain refining action of Ti existing in electrolytic low-titanium aluminum with Al-4B addition for superheated Al melt
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作者 王明星 庞金辉 +3 位作者 刘志勇 刘忠侠 宋天福 杨昇 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第6期950-957,共8页
The effects of superheating temperature on the grain refining efficiency of Ti existing in electrolytic low-titanium aluminum(ELTA)without and with the Al-4B addition and the Al-5Ti-1B master alloy in pure Al were com... The effects of superheating temperature on the grain refining efficiency of Ti existing in electrolytic low-titanium aluminum(ELTA)without and with the Al-4B addition and the Al-5Ti-1B master alloy in pure Al were comparatively investigated. The results show that the Ti existing in ELTA without Al-4B addition exhibits a certain grain refining efficiency when the melt superheating temperature is lower,but the efficiency decreases rapidly when the superheating temperature is higher.The grain refining efficiency of the Al-5Ti-1B master alloy is better than that of the Ti existing in ELTA without Al-4B addition at any superheating temperature,but it also decreases obviously with the increase of the superheating temperature.One important reason is that the TiB2 particles coming from the Al-5Ti-1B master alloy can settle down at the bottom of the Al melt easily when the superheating temperature is increased,thus decrease the number of the potent heterogeneous nuclei retained in the Al melt.If the Al-4B master alloy is added to the ELTA melt,the grain refining efficiency of the Ti existing in ELTA can be improved significantly, and does not decrease with the increase of the superheating temperature.This perhaps provides us a possible method to suppress the effect of the superheated melt on the microstructures of aluminum.. 展开更多
关键词 electrolytic low-titanium aluminum grain refining efficiency SUPERHEATING Al-4B Al-5Ti-1B
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