摘要
A heat resistant aluminum alloy pipe blank with dimensions of d 700/300 mm×1 200 mm was prepared by the multi layer spray deposition technology. Optical microscopy, X ray diffractometry and transmission electron microscopy were used to analyze its morphologies and microstructures. The results show that the microstructures of the pipe blank are homogeneous and the precipitates are uniformly distributed d 25~70 nm spherical or sphere like Al 12 (Fe,V) 3Si particles, its mechanical properties at room temperature and 350 ℃ after densification by extrusion are σ b=412 MPa, δ =7.6% and σ b=187 MPa, δ =7.6%, respectively. The analyses indicate that the proper match of the motion rates of atomizer and substrate can produce deposited blanks with uniform thickness and relatively high cooling rate.
A heat-resistant aluminum alloy pipe blank with dimensions of d700/300 mm x 1200 mm was prepared by the multi-layer spray deposition technology. Optical microscopy, X-ray diffractometry End transmission electron microscopy were used to analyze its morphologies and microstructures. The results show that the microstructures of the pipe blank are homogeneous and the precipitates are uniformly-distribute d25-70 nm spherical or sphere-like Al-12(Fe,V)(3)Si particles, its mechanical properties at room temperature and 350 degrees C after densification by extrusion are sigma(b) = 412MPa, delta = 7.6% and sigma(b) = 187 MPa, delta = 7.6%, respectively. The analyses indicate that the proper match of the motion rates of at omizer and substrate can produce deposited blanks with uniform thickness and relatively high cooling rate.
出处
《中国有色金属学会会刊:英文版》
EI
CSCD
2000年第4期460-464,共5页
Transactions of Nonferrous Metals Society of China
基金
Project ( 95 YS 0 10 )supportedbytheNationalKeyProgramof 9thFive yearPlan