|
|
|
| 原子氧环境中聚酰亚胺的质量变化和侵蚀机制 |
| 多树旺(1;2); 李美栓(1); 张亚明(1); 周延春(1) |
| 1.中国科学院金属研究所沈阳材料科学国家(联合)实验室; 2.江西科技师范学院 |
|
引用本文:
多树旺; 李美栓; 张亚明; 周延春 . 原子氧环境中聚酰亚胺的质量变化和侵蚀机制[J]. 材料研究学报, 2005, 19(4): 337-342.
1 A.Julbe,D.Farrusseng,C.Guizard,Porous ceramic mem- branes for catalytic reaction-overview and new idea,J. Membr.Sci.,181(1),3(2001)
2 LI Fayong,LI Yangchu,KONG Ying,Status and de- velopment of inorganic membranes and inorganic mem- brane reactors,Membrane Science and Technology,22(6), 48(2002) (李发永,李阳初,孔瑛,无机膜及无机膜反应器研究进展,膜科学与技术,22(6),48(2002))
3 P.A.Terry,M.Aderson,I.Tejedor,Catalytic dehydrogena- tion of cyclohexane using coated silica oxide ceramic mem- brane,Journal of Porous Materials,6(4),267(1999)
4 LIAO Chuanhua,XU Nanping,SHI Jun,Researching progress and application of inorganic membrane in gas separation,China Ceramics,39(2),15(2003) (廖传华,徐南平,时钧,气体分离无机膜的应用及研究进展,中国内瓷,39(2),15(2003))
5 R.J.R.Uhlhorn,M.H.B.J.,H.I.Veld,K.Keizer,High permselectivities of microporous silicamodinedγ- alumina membranes,Journal of Materials Science Letters, 8(10),1135(1989)
6 C.Y.Tsai,S.Y.Tam,Y.Lu,C.J.Brinker,Dual-layer asym- metric microporous silica membranes,J.Membr.Sci., 169(2),255(2000)
7 G.P.Fotou,Y.S.Lin,S.E.Pratsinis,Hydrothermal stabil- ity of pure and modified microporous silica membranes,J. Mater.Sci.,30(11),803(1995)
8 J.Dong,Y.S.Lin,M.Z.Hu,R.A.Peascoe,E.A.Payzant, Template removal associated microstructural development of ceramic supported MFI zeolite membranes,Microp- orous and Mesoporous Materials,34(3),241(2000)
9 M.S.A.Heikkinen,N.H.Harley,Heikkinen,Naomi H.Harky,Experimental investigation of sintered porous metal filters,J.Aerosol Sci.,31(6),721(2000)
10 D.Nguyen-Manh,M.J.Cawkwell,R.Gr(?)ger,M.Mrovec, R.Porizek,D.G.Pettifor,V.Vitek,Dislocations in mate- rials with mixed covalent and metallic bonding,Materials Science and Engineering A,401(25),68(2005)
11 K.S.Chan,P.Wang,N.Bhate,K.S.Kumar,Intrinsic and extrinsic fracture resistance in lamellar TiAl alloys,Acta Materialia.,52(15),4601(2004)
12 S.A.Kekare,P.B.Aswath,Oxidation of TiAl based inter- metallics,Journal of Materials Science,9,2485(1997)
13 Q.Gao,R.Y.Liu,J.S.Zhang,J.T.Guo,Corrosion behavior of intermetallic compound of TiAl-5Nb in molten LiCl- Li_2O,Materials Letters,59(16),2052(2005)
14 T.K.Lee,E.I.Mosunov,S.K.Hwang,Consolidation of a gamma TiAl-Mn-Mo alloy by elemental powder met- allurgy,Materials Science and Engineering A,239, 540(1997)
15 S.Zghal,M.Thomas,S.Naka,A.Finel,A.Couret,Phase transformations in TiAl based alloys,Acta Materialia, 53(9),2653(2005)
16 H.Gilbert,G.Anne-Lise,Fatigue properties of TiAl alloys, Intermetallic,13(5),543(2005)
17 HUANG Peiyun,The Principle on Powder Metallurgy, 2nd edition,(Beijing,Metallurgical Industry Press,1997) p.232 (黄培云,粉末冶金原理,第二版(北京,冶金工业出版社,1997) p.232)
18 F.J.J.Van Loo,G.D.Rieck,Diffusion in the titanium- aluminium system,part 2:interdiffusion in the composi- tion range between 25 and 100 at% Ti,Acta Met.,21(1), 73(1973)
19 F.J.J.Van Loo,G.D.Rieck,Diffusion in the titanium- aluminium system,part 1:interdiffusion between solid Al and Ti or Ti-Al Alloys,Acta Met.,21(1),61(1973)
20 G.X.Wang,M.Dahms,An effective method for reduc- ing porosity in the titanium aluminide alloy Ti52Al48 prepared by elemental powder metallurgy,Scripta, Met.Mater.,26(9),1469(1992)
21 G.X.Wang,M.Dahms,TiAl-based alloys prepared by el- emental powder metallurgy,Powder Metallurgy Interna- tional,24(4),219(1992) |
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
| |
Shared |
|
|
|
|
| |
Discussed |
|
|
|
|
