- 1. Diffusion bonding of Ti3AlC2
ceramic via a Si interlayer
X. H. Yin, M. S. Li, T. P. Li, Y. C. Zhou J Mater Sci
(2007) 42:7081–7085
- 2. Transient of alumina oxide scale on β-NiAl
coated on M38G alloy at 950oC
G.M. Liu, M.S. Li, M. Zhu, Y.C. Zhou Intermetallics 15
(2007) 1285-1290
- 3. Structure stability of Ti3AlC2
in Cu and microstructure evolution of Cu–Ti3AlC2
composites
J. Zhang, J.Y. Wang, Y.C. Zhou Acta Materialia 55
(2007) 4381–4390
- 4. γ-Y2Si2O7,
a Machinable Silicate Ceramic: Mechanical Properties and Machinability
Z.Q. Sun, Y.C. Zhou, J.Y. Wang and M.S. Li J. Am. Ceram.
Soc., 90 [8] 2535–2541 (2007)
- 5. Physical and Mechanical Properties of Bulk
Ta4AlC3 Ceramic Prepared by an In Situ Reaction
Synthesis/Hot-Pressing Method
C.F. Hu, Z.J.Lin, L.F. He, Y.W Bao, J.Y. Wang, M.S. Li, Y.C. Zhou,
J. Am. Ceram. Soc., 90 [8] 2542–2548 (2007)
- 6. Nb4AlC3: A new compound
belonging to the MAX phases
C.F. Hu, F.Z. Li, J. Zhang, J.M. Wang, J.Y. Wang, Y.C. Zhou Script.
Mater., 57 (2007) 893–896
- 7. Phase segregation and its effect on the adhesion
of Cr–Al–N coatings on K38G alloy prepared by magnetron sputtering
method
T.P. Li, M.S. Li, Y.C. Zhou Surface & Coatings Technology
201 (2007) 7692–7698
- 8. Improvement on the Oxidation Resistance of
a Ti3Al Based Alloy by Cr1-xAlxN
(0≤x≤0.47) Coatings
M. Zhu, M.S. Li, S.W. Duo and Y.C. Zhou J. Mater. Sci. Technol.,
Vol.23 No.3:373-378,2007
- 9. Microstructure and mechanical strength of transient
liquid phase bonded Ti3SiC2 joints using
Al interlayer
X.H. Yin, M.S. Li, Y.C. Zhou J. Europ. Ceram. Soc.,
90 [4] 1164–1170 (2007)
- 10. Elastic and thermal properties of Zr2Al3C4:
Experimental investigations and ab initio calculations
L. F. He, J. Y. Wang, Y. W. Bao, and Y. C. Zhou J. APPL.
PHYS., 102, 043531 2007
- 11. Oxidation Resistance of a Cr0.5Al0.5N
Coating Prepared by Magnetron Sputtering on Alloy K38G
T. P. Li, X. H. Yin, M. S. Li, Y. C. Zhou Oxid Met (2007)
68:193–210
- 12. Mechanical properties and atomistic deformation
mechanism of γ-Y2Si2O7 from first-principles
investigations
J.Y. Wang , Y.C. Zhou, Z.J. Lin Acta Materialia 55
(2007) 6019–6026
- 13. TEM investigation on layered ternary ceramics
(Review)
Z. J. Lin, M. S. Li and Y. C. Zhou J. Mater.Sci. & Technol.
23(2):145-165 (2007)
- 14. Strengthening of Soft Ceramics by Forming
Sandwich Composites with Strong Interfaces: A Combination of Analytical
Study and Experimental Procedure
D.T. Wan, Y.C. Zhou, Y.W. Bao, L.Z. Liu J. Am. Ceram. Soc.,90
[2] 553–558 (2007)
- 15. Improved strength-impairing contact damage
resistance of Ti3Si(Al)C2/SiC composites
D. T. Wan, Y. C. Zhou, C. F. Hu, Y. W. Bao J. Europ. Ceram.
Soc.,27(4)2069-2076(2007)
- 16. Effect of SiC particles on the friction and
wear behavior of Ti3Si(Al)C2-based composites
D.T. Wan, C.F. Hu , Y.W. Bao, Y.C. Zhou Wear., 262(7-8):826-832(2007)
- 17. Synthesis and oxidation of Zr3Al3C5
powders
L.F. He, Y.C. Zhou, Y.W. Bao, J.Y. Wang , M.S. Li Inter.
J. Mater. Res. 98(2):1-9(2007)
- 18. Theoretical elastic stiffness, structure stability
and thermal conductivity of La2Zr2O7
pyrochlore
B. Liu , J.Y. Wang, Y.C. Zhou, T. Liao, F.Z. Li Acta Materialia
55 (2007) 2949–2957
- 19. Improving the surface hardness and wear resistance
of Ti3SiC2 by boronizing treatment
C. Li, M.S. Li, Y.C. Zhou Surface & Coatings Technology
201 (12) 6005–6011 (2007)
- 20. Synthesis of AlN nanowires by nitridation
of Ti3Si0.9Al0.1C2
solid solution
H.B. Zhang, J. Zhang, Y.C. Zhou, Y.W. Bao, and M.S. Li J. Mater.
Res., Vol. 22, No. 3, Mar 2007:561-564
- 21. Synthesis, Physical, and Mechanical Properties
of Bulk Zr3Al3C5 Ceramic
L.F. He, Y.C. Zhou, Y.W. Bao, Z.J. Lin, J.Y. Wang J. Am.
Ceram. Soc., 90 [4] 1164–1170 (2007)
- 22. Synthesis and microstructure of layered-ternary
Ti2AlN ceramic
Z.J. Lin, M.J. Zhuo, M.S. Li, J.Y. Wang and Y.C. Zhou Scripta
Materialia 56 (2007) 1115–1118
- 23. Investigation on reliability of nanolayer-grained
Ti3SiC2 via Weibull statistics
Y. W. Bao, Y. C. Zhou, H. B. Zhang J Mater Sci (2007)
42:4470–4475
- 24. Evaluating elastic modulus and strength of
hard coatings by relative method
Y. W. Bao, Y.C. Zhou, X. X. Bu, Y. Qiu Mater. Sci. &
Engin. A 458 (2007) 268–274
- 25. Low-temperature synthesis/densification and
properties of Si2N2O prepared with Li2O
additive
Q. F. Tong, J. Y. Wang, Z. P. Li, Y. C. Zhou J. Europ. Ceram.
Soc., 27 (2007) 4767–4772
- 26. Trend in crystal structure of layered ternary
T-Al-C carbidesc(T = Sc, Ti, V, Cr, Zr, Nb, Mo, Hf, W, and Ta)
J.Y.Wang, Y.C. Zhou, T. Liao, Z.J. Lin J. Mater. Res.,
Vol. 22, No. 10, Oct 2007:2685-2690
- 27. Synthesis, Microstructure, and Property of
Cr2AlC Review
Z.J. Lin, Y.C. Zhou, M.S. Li J. Mater. Sci. Technol.,
Vol.23 No.6, 2007:751-746
- 28. High-temperature oxidation and hot corrosion
of Cr2AlC
Z.J. Lin, M.S. Li, J.Y. Wang, Y.C. Zhou Acta Materialia
55 (2007) 6182–6191
- 29. Improved Cr2O3 adhesion
by Ce ion implantation in the presence of interfacial sulfur segregation
M.S. Li, P.Y. Hou Acta Materialia 55 (2007) 443–453
- 30. Layered stacking characteristics of ternary
zirconium aluminum carbides
Z.J. Lin, L.F. He, M.S. Li, J.Y. Wang, Y.C. Zhou J. Mater.
Res., Vol. 22, No. 11, Nov 2007
- 31. Synthesis and Characterization of Bulk Zr2Al3C4
Ceramic
L.F. He, Z.J. Lin, J.Y. Wang,Y.W. Bao, M.S. Li,Y.C. Zhou J.
Am. Ceram. Soc., 90 [11] 3687–3689 (2007)
- 32. In Situ Synthesis and Properties of Ti3AlC2/TiB2
Composites
C. Li, M.S. Li, Y.C. Zhou, J. Zhang, L.F. He, J. Am. Ceram.
Soc., 90 [11] 3615–3620 (2007)
- 33. Microstructure and High-Temperature Corrosion
Behavior of a Cr–Al–C Composite
Z.J. Lin, M.S. Li, J.Y. Wang, Y.C. Zhou J. Am. Ceram. Soc.,
90 [12] 3930–3937 (2007)
- 34. Transient oxidation behavior of nanocrystalline
CoCrAlY coating at 1050 ℃
G.M. Liu, M.S. Li, J.H. Ma, N. Du, Y.C. Zhou Trans. Nonferrous
Met. Soc. China., 17(2007):595-599
- 35. Effects of CeO2 applied to preformed
oxide scales on subsequent oxidation of Fe–20Cr at 1000oC
M. Zhu, M.S. Li, Y.C. Zhou Corro. Engin, Sci & Technol.,
42(1)2007:73-79
- 36. Thermal stability of Ti3AlC2/Al2O3
composites in high vacuum
J.X. Chen, Y.C. Zhou, H.B. Zhang, D.T. Wan, M.Y. Liu Mater.
Chem. & Phys., 104 (2007) 109–112
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