Z.G.Liu
,
H.Ohi
,
K.Tsuchiya
,
M.Umemoto
,
K.Masuyama
材料科学技术(英文)
Mechanical milling of fullerene C60(C70) was investigated to understand the structural evolution. Mechanical milling could not destroy the molecular structure of C60(C70), while the long range periodicity of the fcc crystalline structure was easily damaged. Longer milling time could result in the formation of C60(C70) polymer, including C60 dimer.
关键词:
Z.G.Liu
,
B.Gabbitas
,
D.L.Zhang
,
J.Liang
,
W.Gao
材料科学技术(英文)
The production and microstructural characterization of two types of ceramic particulate reinforced Ti matrix composites (TMCs): Ti-6Al-4V/10~vol. pct TiB and Ti(Al,O)/58 vol. pct Al2O3 were studied. The Ti-6Al-4V/10 vol. pct TiB composite with refined microstructure has been produced using a combination of high energy mechanical milling and hot isostatic pressing. The Ti(Al,O)/58 vol. pct Al2O3 in-situ composite powder has been produced using a novel powder processing process which involves high energy mechanical milling of a mixture of Al and TiO2 powders to produce an Al/TiO2 composite powder followed by thermal treatment of the composite powder. The Ti(Al,O)/58 vol. pct Al2O3 composite powder has been used to produce coatings. Selected mechanical properties of the Ti-6Al-4V/10 vol. pct TiB composite and the high temperature oxidation resistance have also been evaluated.
关键词:
Ti alloy
,
null
,
null
,
null