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Keyword [Self-propagating High-temperature Synthesis]
Result: 81 - 100 | Page: 5 of 6
81. Thermoelectric Properties Of Cu2Se Prepared By Self-propagating High-temperature Synthesis
82. The Effect Of Raw Materials On Self-propagating Hightemperature Synthesis Of ZrB2
83. Development And Performance Evaluation Of The Diamond Carving Grinding Head By Self-propagating High Temperature Synthesis
84. Self-propagating High-temperature Synthesis Of Functionalized Carbon Nanomaterials And Their Properties
85. Study On Technology And Performance Of Self-propagating High-temperature Synthesis SiAION Powders
86. Research On Process And Mechanism Of The Self-propagating Joining Between C_f/Al Composites And TiAl Alloys
87. Self-propagating High-temperature Synthesis And Thermoelectric Performance Of N-type CoSb3-based And P-type SnTe Intermediate Temperature Materials
88. The Study On Novel Synthesize Technique And Thermoelectric Performance Of SnSe-based Materials
89. Self-propagating High-temperature Synthesis And Thermoelectric Performances Of Cu2SnSe3 Based Compounds
90. Preparation And Toughening Of Mg And Al Co-alloyed MoSi2
91. Self-propagating High-temperature Synthesis Of Al-based Intermetallics And Study Of The Reaction Activity
92. BiCuSeO-based Oxychalcogenide And Its Thermoelectric Properties
93. Study On Microstructure And Properties Of Fe-Cr-M Alloy And Coatings Prepared By Laser Modification
94. Growth Mechanism And Oxidation Behavior Of Self-propagating High Temperature Synthesis Ti2Al(C,N)
95. Preparation Of Al/CuO Ceramic-lined Composite Pipe By Self-propagating Method And Its Properties
96. Study On The Preparation And Properties Of Nano-TiCp Reinforced(Mo,W)(Si,Al)2 Composite Ceramics
97. Study On Preparation And Properties Of TiC Particle Reinforced Surface Composites By SHS And V-EPC
98. Research On Microstructures And Mechanism Of Self-propagating Joining Between TC4 And C_f/Al Using Al-Ni-Ti
99. Preparation Of TiC-Fe Based Composite Coating By Lost Foam Casting And Self-propagating High-temperature Synthesis
100. Production of ceramic nanoparticles through self-propagating high-temperature synthesis (SHS) and their introduction into a metallic matrix to form metal matrix composites (MMC)
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