[1]
|
HUANG X, LI Zh X, HUANG H. Recent development of new high-temperature titanium alloys for high thrust-weight ratio aero-engines[J]. Materials China,2011,30(6):20-27(in Chinese). |
[2]
|
BI X G, BU F L, KANG J. Titanium alloy drilling and new development[J]. Tool Engineering,2008,42(12):19-22(in Chinese). |
[3]
|
HACKEL L A, CHEN H L. Laser peening-A processing tool to strengthen metals or alloys to improve fatigue lifetime and retard stress-induced corrosion cracking[M]. Berlin,Germany:Springer-Verlag,2003:1058-1061. |
[4]
|
LI L, SUN J K, MENG X J. Development and application of titanium alloy[J]. Titanium Industry Progress,2004,21(5):19-23(in Chinese). |
[5]
|
MONTROSS C S, TAO W, LIN Y, et al. Laser shock processing and its effects on micro-structure and properties of metal alloys:a review[J]. International Journal of Fatigue, 2002, 24(2):1021-1036. |
[6]
|
ZHANG Y K, CHEN J F, XU R J. Experimental research of laser shock strengthening AM50 magnesium alloy[J]. Chinese Journal of Lasers, 2008, 35(7):1068-1072(in Chinese). |
[7]
|
REN X D, ZHANG T, ZHANG Y K, et al. Improving fatigue properties of 00Cr12 alloy by laser shock processing[J]. Chinese Journal of Lasers,2010, 37(8):2111-2115(in Chinese). |
[8]
|
PEI X, REN A G, GU Y Y, et al. Effects of laser shock processing on mechanical properties of AZ91 magnesium alloy[J]. Laser Technology, 2010, 34(4):552-556(in Chinese). WANG D Sh, TIAN Z J, SHEN L D, et al. Research states of laser surface modification technology on titanium alloys.Laser Optoelectronics Progress,2008,45(6):24-32(in Chinese). SUN Z C, SUN H L, HUANG Z W, et al. Research progress on surface oridation resistant modification technology of tanium alloy.Materials Review,2011,5(17):507-509(in Chinese). |
[9]
|
YU K G, XIANG B L, QING X Y. Influence of surface integrity on fatigue strength of 40CrNi2Si2MoVA steel[J].Material Letters, 2007, 61(1/2):466-469. |
[10]
|
HUANG Sh, ZHOU J Zh, SUN Y Q, et al. Study on surface integrity of 6061-T6 aluminum alloy sheet after laser shot peening[J]. Applied Laser,2007,27(6):450-455(in Chinese). |
[11]
|
LIU X L, AN Zh X, DING Zh M, et al. Effect of high temperature oxidation treatment on the surface morphology and properties of valve steel[J]. Locomotive Rolling Stock Technology, 2007,18(1):8-12(in Chinese). |
[12]
|
GUO B G, LIANG J, CHEN J M, et al. Effects of oxidation time on micro-structure and performance of micro-arc oxidation coatings formed on Ti-6Al-4V alloy[J]. Chinese Journal of Nonferrous Metals, 2005, 15(6):982-984(in Chinese). |
[13]
|
REN X D, RUAN L, HUANG F Y, et al. Experimental research of laser shock processing 6061-T651 aluminum alloy during elevated temperature[J]. Chinese Journal of Lasers,2012, 39(3):1231-1234(in Chinese). |
[14]
|
ELIEZER S, RAICHER N N E, MARTINEZ-VAL J M. Relativistic shock waves induced by ultra-high laser pressure[J]. Laser and Particle Beams, 2014, 32(2):243-251. |
[15]
|
LU Ch L, HU F Y, HUANG X R, et al. Numerical simulation of temperature and stress field of metal plates irradiated by pulsed laser[J]. Laser Technology, 2012,36(6):754-758(in Chinese). |
[16]
|
JUIJERM P, ALTENBERGER I. Residual stress relaxation of deep-rolled Al-Mg-Si-Cu alloy during cyclic loading at elevated temperatures[J]. Scripta Materialia, 2006,55(12):1111-1114. |
[17]
|
WANG X F, PAN A X. Experimental study of residual stress with laser shock on TC4 alloy[J]. Inner Mongolia Science Technology Economy, 2010, 222(20):106-108(in Chinese). |
[18]
|
REN X D, ZHANG Y K, ZHOU J Zh, et al. Laser shock processing effects on mechanical properties of Ti6A14V alloy[J]. Functional Materials, 2006, 37(11):1781-1783(in Chinese). |