Non-continuous particle-reinforced titanium matrix composites
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Zhang Di , Zhang , Li zhiqiang . Metal Base complex the current status and development trend of materials J]. China Materials Progress , (4): 1-7.
Zhang Di, Zhang Guoding, LI Zhiqiang. The current state and trend of metal matrix Composites[j]. Materials, 2010, 29 (4): 1-7.
MIRACLE D. Metal Matrix Composites-from Science to technological significancej]. Composites science and Technology, 2526-2540.
MIRACLE D. Aeronautical applications of Metal-matrix COMPOSITESJ]. ASM
Handbook, 2001, 21:1043-1049.
tjong S C, MAI Y W. Processing-structure-property aspects of Particulate-and whisker-reinforced Titanium matrix composites [J]. Composites science and Technology, 2008,
(3) : 583-601.
Lu Viche . In- situ Titanium matrix composites research Review Overview [J]. China Materials Progress , , (4): 41-48.
LU Weijie. An overview on the In-situ Titanium matrix Composites[j]. Materials
, 29 (4): 41-48.
Lin Lin , Guddingry , Zheng . In -place self-not Research status and prospect of continuous reinforced titanium matrix composites [J]. Journal of Composite Materials ,2006,23 (1): 1-11.
Geng Lin, NI Dingrui, ZHENG Zhenzhu. Current status and outlook for in situ discontinuously reinforced titanium matrix Composites[j]. Acta materiae Compositae Sinica, 2006, 23 (1): 1-11.
Huang Lujun , Lin Lin . non-continuous enhanced titanium base complex Materials Research Progress [J]. Journal of Aeronautical Materials , 2014
(4) : 126-138.
HUANG Lujun, Geng Lin. Progress on dis-continuously reinforced Titanium matrix Composites[j]. Journal of Aeronau-tical materials, 2014, 34 (4): 126-138.
Huang Lujun . Enhanced body quasi-continuous mesh distribution Titanium Base Composite research [D]. Harbin : Harbin Industrial Large Learn ,,
HUANG Lujun. The titanium matrix composites with a quasi-continuous network reinforcement distribution[d]. Har-bin:
Harbin Institute of Technology, .
Lu Viche , Zhangxiaolong , Zhang Di , , and so on . Granular reinforced Titanium Matrix Composites Research Progress [J]. material leader , 1999 (6): 15-18.
LU Weijie, Zhang Xiaolong, Zhang Di, et al. The progress in particulate-reinforced Titanium Matrix Composites[j]. Materials Review, 1999, 13 (6): 15-18.
Ma Zongyi , Zheng . In-place TiB Whisker and TiC particle composite Enhancement Ti compression properties of composites and Micro-structure [J]. Materials Science and technology , 2002, 2: 189-191.
MA Zongyi, ZHENG Zhenzhu. Compressive properties and microstructure of in situ TiB whisker and TiC particulate mixture-reinforced Ti composite[j]. Materials Science & Technology, 2002, 2:189-191.
Chandran KSR, PANDA KB, Sahay S. tibw-reinforced Ti composites:processing, properties, application prospects and needs [J]. The Journal of the minerals, Metal & Materials Society, (5): 42-48.
PANDA k B, CHANDRA K S R.
Synthesis of ductile Titanium-titanium boride (TI-TIB) composites with a beta titanium matrix:the nature of TiB for-mation and composite properties[j]. Metallurgical and Materials Transactions A, 2003, 34 (6): 1371-1385.
suryanarayana C. Mechanical alloying and Milling[j]. Progress in Materials, 2001 (1): 1-184.
FU Z Y, Wang H, Wang W M, et
Al. Composites fabricated by Self-propagating High-temperature Synthesis[j]. Journal of materials processing Tech-nology, 2003, 137 (1): 3034.
ZHANG E, ZENG S, ZHU Z. microstructure of Xdtm ti-6al/tic Composites[j]. Journal of materials science, 5989-5994.
FAN Z, Miodownik AP.
Microstructural evolution in rapidly solidified ti-7.5mn-0.5b alloy[j]. Acta Materialia, 1996, 44 (1): 93-110.
Rangarajan S, Aswath P B, Soboyejo W O microstructure Development and fracture of In-situ reinforced ti-8.5al- 1b-1si [J]. Scripta Materialia, 1996, (2): 239-245.
LIU D, ZHANG S Q, LI A, et al.
Microstructure and tensile properties of laser melting deposited tic/ta15 titanium matrix Composites[j]. Journal of al-loys and compounds,
, 485 (1): 156-162.
BANERJEE R, COLLINS P C, FRASER H L. Laser deposition of In situ Ti-tib composites[j]. Advanced Engi-neering Materials, 2002,4 (one): 847-851.
BANERJEE R, Genc A, COLLINS
PC, et al. Comparison of microstructural Evolution in laser-deposited and arc-melted in situ Ti-tib]. Metallurgical and Materials Transactions A, 2004, 35 (7): 2143-2152.
LI B, SHANG J L, GUO J J, et al.
In situ observation of fracture behavior of in situ TiBw/ti composites[j]. Materials science and Engineering A, 2004, 383 (2): 316-322.
BANERJEE D, WILLIAMS J
C. Perspectives on Titanium and technology[j]. Acta Materialia, 2013, 61 (3): 844879.
Zhu Shou . New high-performance Titanium for aeronautical structures Alloy Materials technology research and development [J]. Aviation Science and technology , (1): 5-9.
ZHU Zhishou. Advanced new type Titanium alloys for aeronautical applications[j]. Aeronautical science and Tech-nology, (1): 5-9.
Shangguoqiang , Zhu Shou , Changhui , , and so on . up High Strength Titanium Research Progress [J]. Rare Met-al , , 2:286-291.
SHANG Guoqiang, ZHU Zhishou, CHANG Hui, et al Development of ultra-high strength titanium alloy[j]. Chinese Journal of Rare Metals, , 2:286-291.
Guo Ping , Hong Kuan , Zhaoqingqing , , and so on . Ti600 high temperature Titanium alloy mechanical Proper-ties [J ]. Chinese Journal of Nonferrous Metals ,
, 1:36-39.
GUO Ping, Quan, ZHAO yongqing, et al. mechanical properties of Ti600 high temperature titanium alloy[j]. The Chi-nese Journal of nonferrous Metals, (1): 36-39.
Zhu Shou . China Aerospace Titanium alloy technology research Review status and development [J]. Journal of Aeronautical Materials , 2014 (4): 44-50.
ZHU Zhishou. Recent and development of titanium alloys for aviation application in CHINA[J]. Journal of Aeronauti-cal materials, 2014, 34 (4): 44-50.
APPEL F, Brossmann u, CHRISTOPH u, et al. Recent progress in the development of Gamma titanium aluminide alloys [J]. Advanced Engineering Materials, 2 (one):
DOI: https://doi.org/10.1828/cmr.v6i1.183
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