中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2013年
12期
3499-3507
,共9页
张建飞%沈军%商昭%王雷%傅恒志
張建飛%瀋軍%商昭%王雷%傅恆誌
장건비%침군%상소%왕뢰%부항지
NiAl-9Mo%定向凝固%金属间化合物%晶体生长%微观组织
NiAl-9Mo%定嚮凝固%金屬間化閤物%晶體生長%微觀組織
NiAl-9Mo%정향응고%금속간화합물%정체생장%미관조직
NiAl-9Mo%directional solidification%intermetallics%crystal growth%microstructure
采用液态金属冷却法在恒定温度梯度GL=334 K/cm,大生长速率范围内(2~300μm/s)对Ni-45.5Al-9Mo (摩尔分数,%)共晶合金进行定向凝固制备。研究生长速率(v)对纤维间距(λ)、纤维直径(d)和纤维体积分数的影响。在实验中发现平界面和胞界面两类共晶生长界面。在平界面和胞界面组织中,生长速率(v)与纤维间距(λ)和纤维直径(d)的关系经回归分析分别为:λv1/2=5.90μm·μm1/2·s1/2和 dv1/2=2.18μm·μm1/2·s1/2。Mo纤维的体积分数可在一定的范围内随生长速率进行调整,这是由生长过程中界面前沿过冷度的增加及共晶组织中各组成相的生长特性引起的。
採用液態金屬冷卻法在恆定溫度梯度GL=334 K/cm,大生長速率範圍內(2~300μm/s)對Ni-45.5Al-9Mo (摩爾分數,%)共晶閤金進行定嚮凝固製備。研究生長速率(v)對纖維間距(λ)、纖維直徑(d)和纖維體積分數的影響。在實驗中髮現平界麵和胞界麵兩類共晶生長界麵。在平界麵和胞界麵組織中,生長速率(v)與纖維間距(λ)和纖維直徑(d)的關繫經迴歸分析分彆為:λv1/2=5.90μm·μm1/2·s1/2和 dv1/2=2.18μm·μm1/2·s1/2。Mo纖維的體積分數可在一定的範圍內隨生長速率進行調整,這是由生長過程中界麵前沿過冷度的增加及共晶組織中各組成相的生長特性引起的。
채용액태금속냉각법재항정온도제도GL=334 K/cm,대생장속솔범위내(2~300μm/s)대Ni-45.5Al-9Mo (마이분수,%)공정합금진행정향응고제비。연구생장속솔(v)대섬유간거(λ)、섬유직경(d)화섬유체적분수적영향。재실험중발현평계면화포계면량류공정생장계면。재평계면화포계면조직중,생장속솔(v)여섬유간거(λ)화섬유직경(d)적관계경회귀분석분별위:λv1/2=5.90μm·μm1/2·s1/2화 dv1/2=2.18μm·μm1/2·s1/2。Mo섬유적체적분수가재일정적범위내수생장속솔진행조정,저시유생장과정중계면전연과랭도적증가급공정조직중각조성상적생장특성인기적。
Ni-45.5Al-9Mo (mole fraction,%) alloy was directionally solidified with a constant temperature gradient (GL=334 K/cm) and growth rates ranging from 2 to 300 μm/s using a Bridgman type crystal growing facility with liquid metal cooling (LMC) technique. The effect of growth rate (v) on the solidified microstructures such as rod spacing (λ), rod size (d) and rod volume fraction was experimentally investigated. Two types of the solidified interfaces, planar and cellular, were identified. On the condition of both planar and cellular eutectic microstructures, the relationships between λ, d and v were given as: λv1/2=5.90 μm·μm1/2·s1/2 and dv1/2=2.18μm·μm1/2·s1/2, respectively. It was observed that the volume fraction of Mo phase could be adjusted in a certain range. The variation of phase volume fraction was attributed to undercooling increase and the growth characteristics of the individual constituent phases during the eutectic growth.
