nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
1 |
Advanced ceramics based on aluminum, silicon, chromium, and lanthanum oxides: Preparation and applications (an overview)
|
Gorshkov, V. A. |
|
2011 |
|
4 |
p. 273-276 |
artikel |
2 |
AlON powders by aluminothermic SHS under pressure: Synthesis and characterization
|
Gorshkov, V. A. |
|
2017 |
|
4 |
p. 240-243 |
artikel |
3 |
AlON powders by SHS under nitrogen pressure with KClO4 as a booster
|
Akopdzhanyan, T. G. |
|
2017 |
|
4 |
p. 244-247 |
artikel |
4 |
A low-temperature combustion synthesis process for production of Ti from TiO2
|
Kamali, A. R. |
|
2008 |
|
4 |
p. 233-236 |
artikel |
5 |
A novel method for synthesis of low-cost Ti-Al-C-based cermets
|
Hendaoui, A. |
|
2009 |
|
4 |
p. 267-272 |
artikel |
6 |
Boron Combustion in CO2 Atmosphere
|
Akopdzhanyan, T. G. |
|
|
|
4 |
p. 276-278 |
artikel |
7 |
Call for papers
|
|
|
2008 |
|
4 |
p. 275 |
artikel |
8 |
Cast NiAl/Ni20Al3B6 composites by centrifugal SHS
|
Sanin, V. N. |
|
2014 |
|
4 |
p. 232-239 |
artikel |
9 |
Catalytic Pd–Ag nanoparticles immobilized on fiber glass by surface self-propagating thermal synthesis
|
Kotolevich, Y. S. |
|
2017 |
|
4 |
p. 234-239 |
artikel |
10 |
Cellular modes of filtration combustion: Phenomenological features
|
Kostin, S. V. |
|
2011 |
|
4 |
p. 215-219 |
artikel |
11 |
Centrifugal SHS of cast Ti–Al–Nb–Cr alloys
|
Yukhvid, V. I. |
|
2015 |
|
4 |
p. 177-181 |
artikel |
12 |
Centrifugal SHS of High Cr Composite Materials
|
Kubanova, A. N. |
|
|
|
4 |
p. 279-282 |
artikel |
13 |
Centrifugal SHS Surfacing of Titanium Substrate with MoSiB
|
Vdovin, Yu. S. |
|
|
|
4 |
p. 269-270 |
artikel |
14 |
Charge emission during nitridation of a metal particle
|
Filimonov, I. A. |
|
2007 |
|
4 |
p. 175-183 |
artikel |
15 |
Co-Based Composite by Centrifugal SHS: Impact of Alloying Agents
|
Zakharov, K. V. |
|
|
|
4 |
p. 271-272 |
artikel |
16 |
Combustion and structure formation in the Ti-Ta-C-Ca3(PO4)2 system
|
Levashov, E. A. |
|
2007 |
|
4 |
p. 218-224 |
artikel |
17 |
Combustion of Ferrosilicon–Zircon Mixtures in Nitrogen Gas: Impact of Aluminum Additives
|
Kryukova, O. G. |
|
|
|
4 |
p. 236-240 |
artikel |
18 |
Combustion of gasless systems in conditions of uniaxial loading
|
Prokof’ev, V. G. |
|
2014 |
|
4 |
p. 208-212 |
artikel |
19 |
Combustion of Inhomogeneous Titanium + Carbon Black Powder Mixture
|
Kostin, S. V. |
|
|
|
4 |
p. 254-257 |
artikel |
20 |
Combustion of Nb—Si powder blends: Interrupted mechanical activation
|
Shkoda, O. A. |
|
2011 |
|
4 |
p. 224-228 |
artikel |
21 |
Combustion of Ni–Al Twisted-Pair Wires in Oxygen
|
Salamatov, V. G. |
|
|
|
4 |
p. 257-260 |
artikel |
22 |
Combustion of Powdered and Granulated 5Ti + 3Si Mixtures: Impact of Reagents’ Particle Size
|
Seplyarskii, B. S. |
|
|
|
4 |
p. 261-264 |
artikel |
23 |
Combustion of Ti–Si–C Mixtures: Impact of Medium Structure and Impurity Gas Release
|
Seplyarskii, B. S. |
|
|
|
4 |
p. 258-263 |
artikel |
24 |
Combustion of Transition Metal–Boron Mixtures in Argon Gas
|
Kochetov, N. A. |
|
|
|
4 |
p. 225-230 |
artikel |
25 |
Combustion synthesis and characterization of Cu—Nb3Sn superconducting monofilamentary composite wires
|
Bendjemil, B. |
|
2011 |
|
4 |
p. 229-235 |
artikel |
26 |
Combustion Synthesis and Characterization of Ultra-High-Temperature NbB2–HfB2 Solid Solutions
|
Kurbatkina, V. V. |
|
|
|
4 |
p. 313-325 |
artikel |
27 |
Combustion synthesis of electrical contact materials
|
Martinez Pacheco, M. |
|
2007 |
|
4 |
p. 184-188 |
artikel |
28 |
Combustion synthesis of hetero-modulus SiAlON–BN composites
|
Smirnov, K. L. |
|
2015 |
|
4 |
p. 220-226 |
artikel |
29 |
Combustion Synthesis of KMg2.75Si3.5Al0.5O10F2–Na4Mg6Si4Al4O20F4 Composite from SiO2–Mg–MgO–Al–Na3AlF6–KClO4 Mixtures in Open Air: Influence of MgO Addition
|
Kachin, A. R. |
|
|
|
4 |
p. 246-248 |
artikel |
30 |
Combustion synthesis of nanocrystalline nickel ferrite using hexamine as a fuel
|
Parthasarathi, R. |
|
2011 |
|
4 |
p. 236-240 |
artikel |
31 |
Combustion synthesis of nanosized iron oxides: The effect of precursor composition
|
Barinova, T. V. |
|
2010 |
|
4 |
p. 276-280 |
artikel |
32 |
Combustion Synthesis of PrBa2Cu3O7−δ and YBa2Cu3O7−δ cuprate materials
|
Sehab, N. |
|
2009 |
|
4 |
p. 235-240 |
artikel |
33 |
Composite W–Cu powders by joint reduction of oxides in combustion mode
|
Kirakosyan, H. V. |
|
2016 |
|
4 |
p. 215-223 |
artikel |
34 |
Continuous dynamically controlled low-temperature combustion synthesis of ultrafine Co3O4 powders: Experiment and theoretical analysis
|
Wu, C. H. |
|
2012 |
|
4 |
p. 217-223 |
artikel |
35 |
Controlled Oxidant-to-Fuel Ratios for Synthesis of Inorganic Hematite Pigment (α-Fe2O3) Using Solution Combustion Method with 6-Aminohexanoic Acid as Fuel
|
Chavarriaga, E. A. |
|
|
|
4 |
p. 271-277 |
artikel |
36 |
Convection-Driven Combustion of (Ti + C) + xNi (x ≤ 20 wt %) Granules in the Absence of External Gas Flow
|
Seplyarskii, B. S. |
|
|
|
4 |
p. 237-239 |
artikel |
37 |
Copper-Doped Nickel Zinc Nanoferrites by Solution-Combustion Synthesis Using Sucrose as a Fuel
|
Shweta, G. M. |
|
|
|
4 |
p. 208-212 |
artikel |
38 |
Counterflow infiltration combustion in conditions of fluid-dynamic instability: Fingering in low gas flow
|
Aldushin, A. P. |
|
2015 |
|
4 |
p. 182-186 |
artikel |
39 |
Cryo-Milled Nickel–Aluminum Nanostructured Composites: Bifurcated Ignition Mode
|
Pauls, J. M. |
|
|
|
4 |
p. 236-246 |
artikel |
40 |
Crystallite Size and Compressive Lattice Strain in NiFe2O4 Nanoparticles as Calculated in Terms of Various Models: Influence of Annealing Temperature
|
Qayoom, M. |
|
|
|
4 |
p. 213-219 |
artikel |
41 |
Cu-Matrix Composites by Reactive Spark Plasma Sintering of Mechanoactivated Cu–Si–C Powder Mixtures
|
Nepapushev, A. A. |
|
|
|
4 |
p. 233-236 |
artikel |
42 |
Decomposition combustion synthesis of calcium phosphate powders for bone tissue engineering
|
Vollmer, N. |
|
2012 |
|
4 |
p. 189-201 |
artikel |
43 |
Detonation parameters as inferred from shock adiabats of reaction products
|
Trofimov, V. S. |
|
2014 |
|
4 |
p. 240-241 |
artikel |
44 |
Dielectric Properties of B–N and B–N–xSiO2 Nitride Ceramics by SHS
|
Loryan, V. E. |
|
|
|
4 |
p. 273-275 |
artikel |
45 |
Direct interaction of high-temperature melt with water
|
Kobyakov, V. P. |
|
2013 |
|
4 |
p. 189-192 |
artikel |
46 |
Discrete Model of Combustion in a Sample Consisting of Activated and Nonactivated Cells Separated by Gas Dispersed Interlayers
|
Lapshin, O. V. |
|
|
|
4 |
p. 247-253 |
artikel |
47 |
Dynamics of phase formation during combustion of Zr and Hf in air
|
Kovalev, D. Yu. |
|
2007 |
|
4 |
p. 169-174 |
artikel |
48 |
Effect of carbon nanotube addition on morphology of SHS synthesized materials
|
Groven, L. J. |
|
2007 |
|
4 |
p. 189-198 |
artikel |
49 |
Effect of mechanical activation on SHS: Physicochemical mechanism
|
Khina, B. B. |
|
2008 |
|
4 |
p. 211-217 |
artikel |
50 |
Elaboration of platinum-modified NiAl coatings by combustion synthesis: Simultaneous repairing and coating of Ni-based superalloys
|
Record, M. C. |
|
2007 |
|
4 |
p. 199-206 |
artikel |
51 |
Electrothermographic study of reactive multilayer nanofoils
|
Rogachev, A. S. |
|
2008 |
|
4 |
p. 222-226 |
artikel |
52 |
Erratum to: Mechanochemical Synthesis of Ni–Cr3C2 Nanocomposite
|
Asgharzadeh, S. |
|
|
|
4 |
p. 292 |
artikel |
53 |
Erratum to: “Spark Plasma Sintering of ZrB2- and HfB2-Based Ultra High Temperature Ceramics Prepared by SHS”
|
Licheri, R. |
|
2010 |
|
4 |
p. 292 |
artikel |
54 |
Eutectic TiB2–Ti(C,N) Alloy by SHS Method from Ti–B–C Powder Blends in a Coflow of Nitrogen Gas
|
Tarasov, A. G. |
|
|
|
4 |
p. 265-268 |
artikel |
55 |
Evolution of gases during SHS of TiC
|
Shchukin, A. S. |
|
2015 |
|
4 |
p. 227-230 |
artikel |
56 |
Explanation of Increase in Combustion Velocity of Ti + C Powder Mixture upon Dilution with Nickel Using Convective–Conductive Combustion Model
|
Seplyarskii, B. S. |
|
|
|
4 |
p. 195-207 |
artikel |
57 |
Explosive solid-state synthesis in the Al-S system: Influence of dispersity and duration of shock loading
|
Ivanova, O. V. |
|
2014 |
|
4 |
p. 192-197 |
artikel |
58 |
Fabrication of Narrow-Fraction Micropowders of NiAl-Based Refractory Alloy CompoNiAl-M5-3
|
Kurbatkina, V. V. |
|
2018 |
|
4 |
p. 236-244 |
artikel |
59 |
Facile Auto-Combustion Synthesis and Characterization of Stable Amorphous Nanoscale Zero-Valent Iron (nZVI)
|
Pillai, R. |
|
|
|
4 |
p. 251-256 |
artikel |
60 |
FeAlPCBGa metallic glasses by heavy current annealing/electrothermal explosion: Structural and soft magnetic properties
|
Bendjemil, B. |
|
2010 |
|
4 |
p. 281-284 |
artikel |
61 |
Fine-grained Co–Cr–Mo alloy by combined use of SHS and thermomechanical treatment
|
Kolobov, Yu. R. |
|
2015 |
|
4 |
p. 231-235 |
artikel |
62 |
Fine structure of SHS-produced Co–Cr–Mo alloy
|
Manokhin, S. S. |
|
2015 |
|
4 |
p. 236-240 |
artikel |
63 |
Flame synthesis of carbon nanomaterials: An overview
|
Mansurov, Z. A. |
|
2011 |
|
4 |
p. 266-268 |
artikel |
64 |
Forced SHS Compaction of NiTi
|
Bogatov, Yu. V. |
|
|
|
4 |
p. 247-252 |
artikel |
65 |
Formation of nanolaminate structures in the Ti-Si-C system: A crystallochemical study
|
Konovalikhin, S. V. |
|
2014 |
|
4 |
p. 217-221 |
artikel |
66 |
Frontal combustion in heterogeneous systems: Influence of varied heat losses
|
Krishenik, P. M. |
|
2014 |
|
4 |
p. 175-179 |
artikel |
67 |
Fused TiC by electrothermal explosion under pressure
|
Shcherbakov, V. A. |
|
2015 |
|
4 |
p. 251-252 |
artikel |
68 |
Gas emission during combustion of mechanically activated Ni–Al mixtures
|
Vadchenko, S. G. |
|
2016 |
|
4 |
p. 210-214 |
artikel |
69 |
Gasless Combustion in Partially Mechanoactivated Binary Mixtures: Mathematical Model
|
Lapshin, O. V. |
|
|
|
4 |
p. 187-190 |
artikel |
70 |
Gasless combustion in Ti-xSi powder mixtures
|
Baras, F. |
|
2009 |
|
4 |
p. 252-262 |
artikel |
71 |
Granulation Effect on Chemically Activated SHS of MgAlON
|
Abzalov, D. I. |
|
|
|
4 |
p. 338-343 |
artikel |
72 |
High-Temperature Interaction between Carbon Fibers and Cu–Ag Eutectic Alloy
|
Sytschev, A. E. |
|
|
|
4 |
p. 188-194 |
artikel |
73 |
High-Temperature Synthesis of (Cr/Ti)C–FeAl Cast Alloys
|
Miloserdov, P. A. |
|
|
|
4 |
p. 347-353 |
artikel |
74 |
Historical retrospective of SHS: An autoreview
|
Merzhanov, A. G. |
|
2008 |
|
4 |
p. 242-265 |
artikel |
75 |
Hybrid TPS: A novel hybrid thermal protection system for atmospheric entry space probes based on SHS-Produced MgO/spinel refractories
|
Vekinis, G. |
|
2010 |
|
4 |
p. 258-275 |
artikel |
76 |
Hydrogenation of CO2 on Co–Ni Catalysts Produced by Low-Temperature Combustion Using Modified Silica Fabric
|
Borshch, V. N. |
|
|
|
4 |
p. 302-312 |
artikel |
77 |
Infiltration-mediated cellular combustion of Ti powder in an inclined rectangular straight-through air flow reactor: Combustion wave patterning
|
Kostin, S. V. |
|
2014 |
|
4 |
p. 180-186 |
artikel |
78 |
Influence of Fuel on the SCS Temperature of Lithium Aluminate
|
Zhuravlev, V. D. |
|
|
|
4 |
p. 253-260 |
artikel |
79 |
Influence of Preheating Temperature on Solution Combustion Synthesis of Ni–NiO Nanocomposites: Mathematical Model and Experiment
|
Thoda, O. |
|
2018 |
|
4 |
p. 207-215 |
artikel |
80 |
International Conference on historical aspects of SHS in different countries dedicated to the 40th Anniversary of SHS
|
Grigoryan, H. |
|
2007 |
|
4 |
p. 256-258 |
artikel |
81 |
Inverse problem for SHS in multilayer nanofoils: Prediction of process parameters for single-stage SHS reaction
|
Zaporozhets, T. V. |
|
2013 |
|
4 |
p. 222-231 |
artikel |
82 |
Kinetics of fast reactions in condensed systems: Some recent results (an autoreview)
|
Shteinberg, A. S. |
|
2011 |
|
4 |
p. 259-265 |
artikel |
83 |
Magnesiothermic SHS of boron carbide in conditions of temperature gradients
|
Ponomarev, V. I. |
|
2015 |
|
4 |
p. 216-219 |
artikel |
84 |
Main recent contributions to SHS from France
|
Nièpce, J. -C. |
|
2007 |
|
4 |
p. 235-255 |
artikel |
85 |
Mechanochemical treatment of silicon dioxide as an effective tool for regulating the SHS of composites
|
Mofa, N. N. |
|
2011 |
|
4 |
p. 241-247 |
artikel |
86 |
Mesoporous Silica by Solution-Combustion Synthesis Followed by Etching
|
Salehtash, F. |
|
2018 |
|
4 |
p. 221-227 |
artikel |
87 |
Microwave energy application to combustion synthesis: A comprehensive review of recent advancements and most promising perspectives
|
Rosa, R. |
|
2017 |
|
4 |
p. 221-233 |
artikel |
88 |
Multilayer coatings on Ti substrate by SHS method
|
Kamynina, O. K. |
|
2016 |
|
4 |
p. 238-242 |
artikel |
89 |
Multilayer Ti–Ta–Ni–TiC–TiB Composite by Combustion-Aided Joining
|
Kamynina, O. K. |
|
|
|
4 |
p. 220-224 |
artikel |
90 |
Nanoporous Yttrium-Based Ceramic Materials for Filtration Processes in Conditions of Aggressive Environments and Radiation
|
Kapustin, R. D. |
|
|
|
4 |
p. 215-219 |
artikel |
91 |
New Mn+1AXn compounds by thermal explosion in the Al-Cr-Si-C system
|
Li, M. |
|
2009 |
|
4 |
p. 273-275 |
artikel |
92 |
Nickel-Doped Cobalt Zinc Ferrites Co0.8 – xNixZn0.2Fe2O4 (x = 0.0–0.56) by Solid-State Reaction: Synthesis and Characterization
|
Kolekar, R. Y. |
|
|
|
4 |
p. 196-201 |
artikel |
93 |
Ni0.4CoxCd0.6 − xFe2O4 ferrites as prepared by autocombustion synthesis
|
Patil, N. D. |
|
2012 |
|
4 |
p. 212-216 |
artikel |
94 |
Nitride-based materials SHS-produced from ferroalloys: II. Silicon nitride as a support for Ag-Containing catalysts for partial oxidation of ethylene glycol
|
Chukhlomina, L. N. |
|
2015 |
|
4 |
p. 203-210 |
artikel |
95 |
Ni0.4Zn0.6Fe2O4 Nanopowders by Solution-Combustion Synthesis: Influence of Red/Ox Ratio on their Morphology, Structure, and Magnetic Properties
|
Martinson, K. D. |
|
|
|
4 |
p. 202-207 |
artikel |
96 |
Novel synthesis of cerium hexaboride by hexamine route
|
Amalajyothi, K. |
|
2008 |
|
4 |
p. 218-221 |
artikel |
97 |
On detonation in Zn-S blends
|
Trofimov, V. S. |
|
2014 |
|
4 |
p. 187-191 |
artikel |
98 |
One-step synthesis and densification of Ti-Al-C-based cermets by ETEPC
|
Hendaoui, A. |
|
2009 |
|
4 |
p. 263-266 |
artikel |
99 |
On the Nature of the Multidirectional Change in Combustion Velocity of Ti-based Powder Mixtures When Diluted with Inert Additives
|
Seplyarskii, B. S. |
|
|
|
4 |
p. 283-287 |
artikel |
100 |
On the Nature of the Pyrophoricity of Metal Nanopowders
|
Alymov, M. I. |
|
|
|
4 |
p. 288-291 |
artikel |
101 |
Phase evolution during mechanochemical coreduction of V2O5 and TiO2 with A
|
Mukherjee, A. |
|
2010 |
|
4 |
p. 237-243 |
artikel |
102 |
Polycrystalline silicon nitride fibers by combustion synthesis
|
Barinova, T. V. |
|
2016 |
|
4 |
p. 224-228 |
artikel |
103 |
Preparation of Molybdenum–Copper Pseudoalloy
|
Barinov, V. Yu. |
|
|
|
4 |
p. 344-346 |
artikel |
104 |
Preparation of Mo–Si–B Alloy via Centrifugal SHS of MoO3/Al/Si/B/Al2O3 mixture: Effect of Al
|
Vdovin, Yu. S. |
|
|
|
4 |
p. 354-356 |
artikel |
105 |
Preparation of ZnO filters via SHS of ZnS monoliths
|
Rouessac, F. |
|
2009 |
|
4 |
p. 283-286 |
artikel |
106 |
Pressure-Assisted Electrothermal Explosion of Titanium Nickelide
|
Bogatov, Yu. V. |
|
|
|
4 |
p. 335-337 |
artikel |
107 |
Production of NiTi Alloys by MA–SHS Consolidation
|
Bogatov, Yu. V. |
|
|
|
4 |
p. 332-334 |
artikel |
108 |
Professor Alexander Grigor’Evich Merzhanov 27/11/1931-31/07/2013
|
|
|
2013 |
|
4 |
p. 177-179 |
artikel |
109 |
Professor Alexander Grigor’Evich Merzhanov 27/11/1931-31/07/2013
|
|
|
|
|
4 |
p. 177-179 |
artikel |
110 |
Quasi-crystalline Al70Cu20Fe10 by thermal explosion: Effect of AlCu doping on magnetic properties
|
Bendjemil, B. |
|
2007 |
|
4 |
p. 225-230 |
artikel |
111 |
Reactive nanofoils for joining refractory and dissimilar materials
|
Rogachev, A. S. |
|
2016 |
|
4 |
p. 234-237 |
artikel |
112 |
Reactivity of mechanically activated powder blends: Role of micro and nano structures
|
Rogachev, A. S. |
|
2013 |
|
4 |
p. 210-216 |
artikel |
113 |
Recognition of Belousov-Zhabotinsky-type oscillations in autosynthetic micropyretic reactions
|
Li, H. P. |
|
2009 |
|
4 |
p. 219-234 |
artikel |
114 |
Relay of Combustion Wave through a Thin Wedge-Shaped Obstacle
|
Krishenik, P. M. |
|
|
|
4 |
p. 191-195 |
artikel |
115 |
Self-Propagating High-Temperature Synthesis for Disposal of Radioactive Waste
|
Barinova, T. V. |
|
|
|
4 |
p. 179-187 |
artikel |
116 |
Self-sustaining reactions induced by ball milling: An overview
|
Takacs, L. |
|
2009 |
|
4 |
p. 276-282 |
artikel |
117 |
SHS and Study of Ni/TiC Catalysts for CO2 Hydrogenation to Methane
|
Pugacheva, E. V. |
|
|
|
4 |
p. 230-235 |
artikel |
118 |
SHS hydrogenation of group IV metals as studied by time-resolved XRD
|
Kovalev, D. Yu. |
|
2014 |
|
4 |
p. 198-202 |
artikel |
119 |
SHS in conditions of rotation: Thermal and concentration combustion limits for oxide systems taken as an example
|
Ksandopulo, G. I. |
|
2011 |
|
4 |
p. 220-223 |
artikel |
120 |
SHS in microgravity: Analysis of combustion products formed in the Ti-Al-C system
|
Sytschev, A. E. |
|
2012 |
|
4 |
p. 224-230 |
artikel |
121 |
SHS in preliminary structured compacts: II. Ti-2B and Ti-Al blends
|
Ponomarev, M. A. |
|
2013 |
|
4 |
p. 202-209 |
artikel |
122 |
SHS in preliminary structured compacts: I. Ni-Al blends
|
Ponomarev, M. A. |
|
2013 |
|
4 |
p. 193-201 |
artikel |
123 |
SHS in the Al-SiO2-C system: The effect of additives
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Podbolotov, K. B. |
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2010 |
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4 |
p. 244-252 |
artikel |
124 |
SHS in the UK: Past, present, and future directions
|
Parkin, I. P. |
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2008 |
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4 |
p. 266-274 |
artikel |
125 |
SHS of Co and Co–V Catalysts for Deep Oxidation/Hydrogenation Processes
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Pugacheva, E. V. |
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4 |
p. 231-235 |
artikel |
126 |
SHS of composite ceramics from mechanochemically treated and thermally carbonized SiO2 powders
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Mansurov, Z. A. |
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2007 |
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4 |
p. 213-217 |
artikel |
127 |
SHS of fine-grained ceramics containing carbides, nitrides, and borides
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Oniashvili, G. Sh. |
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2013 |
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4 |
p. 185-188 |
artikel |
128 |
SHS of graded Ti-Al-C ceramics: Composition of transition layers
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Sytschev, A. E. |
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2012 |
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4 |
p. 231-235 |
artikel |
129 |
SHS of TiC-TiNi composites: Effect of initial temperature and nanosized refractory additives
|
Pogozhev, Yu. S. |
|
2012 |
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4 |
p. 202-211 |
artikel |
130 |
SHS Pressing of (Ti–Al–Mn)/Ti Metal–Intermetallic Layered Material
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Lazarev, P. A. |
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4 |
p. 164-168 |
artikel |
131 |
SHS-Produced Al–Ti–B Master Alloys: Performance in Commercial Al Alloy
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Pourbagheri, H. |
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2018 |
|
4 |
p. 245-254 |
artikel |
132 |
SHS-produced catalytically active porous membranes containing nickel nanoparticles
|
Uvarov, V. I. |
|
2013 |
|
4 |
p. 232-233 |
artikel |
133 |
SHS-produced cobalt-alumina catalysts for dry reforming of methane
|
Karanasios, K. |
|
2014 |
|
4 |
p. 222-231 |
artikel |
134 |
SHS-produced Co2+Ti4+-doped barium and strontium hexaferrites: Static and dynamic magnetic properties
|
Naiden, E. P. |
|
2016 |
|
4 |
p. 203-209 |
artikel |
135 |
SHS-Produced Polymetallic Co–Cu–La Catalysts for Deep Oxidation/Hydrogenation Processes
|
Pugacheva, E. V. |
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4 |
p. 240-242 |
artikel |
136 |
SHS quenching as a route to bulk glassy Fe34Co34B10Si14Nb8 alloys
|
Bendjemil, B. |
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2007 |
|
4 |
p. 231-234 |
artikel |
137 |
SHS reactions in nanosized multilayers: Analytical model versus numerical one
|
Zaporozhets, T. V. |
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2010 |
|
4 |
p. 227-236 |
artikel |
138 |
SHS surfacing: Influence of Al powder brand
|
Kachin, A. R. |
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2011 |
|
4 |
p. 248-251 |
artikel |
139 |
SHS under high pressure of nitrogen gas: Feasibility of nitrides melting
|
Loryan, V. E. |
|
2014 |
|
4 |
p. 203-207 |
artikel |
140 |
Sintering mechanisms for crystalline powders: Comparative analysis
|
Alymov, M. I. |
|
2013 |
|
4 |
p. 234-235 |
artikel |
141 |
Solution Combustion Synthesis of Nanostructured NiCr2O4 Spinel and Its Catalytic Activity in CO Oxidation
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Novikov, V. A. |
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4 |
p. 246-250 |
artikel |
142 |
Solution Combustion Synthesis of ZnO Undoped and Doped with Fe, Co, Cu, and Mg Using Citric Acid as a Fuel for Photocatalytic Decomposition of Phenol
|
Amosov, A. P. |
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4 |
p. 288-301 |
artikel |
143 |
Some advanced applications of SHS: An overview
|
Xanthopoulou, G. |
|
2011 |
|
4 |
p. 269-272 |
artikel |
144 |
Some tribological properties of SHS-produced chromium sulfide
|
Tomoshige, R. |
|
2009 |
|
4 |
p. 287-292 |
artikel |
145 |
Spark plasma sintering of β-SiAlON–BN composites from combustion-synthesized powders
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Nefedova, E. V. |
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2016 |
|
4 |
p. 229-233 |
artikel |
146 |
Spreading of Ti over the surface of burning Ti + 2B films
|
Vadchenko, S. G. |
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2014 |
|
4 |
p. 213-216 |
artikel |
147 |
Structural and IR study of Ni0.5–xCdxZn0.5Fe2O4
|
Patil, M. R. |
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2015 |
|
4 |
p. 241-245 |
artikel |
148 |
Structural and mechanical properties of Sr+2-doped bismuth manganite thick films
|
Mathad, S. N. |
|
2013 |
|
4 |
p. 180-184 |
artikel |
149 |
Structural characterization and superconducting properties of MgB2 prepared by SHS-method
|
Ramdane, W. |
|
2007 |
|
4 |
p. 207-212 |
artikel |
150 |
Structural, Dielectric, and Magnetic Properties of SCS-Produced Copper Zinc Nanoferrites
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Bharamagoudar, R. C. |
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4 |
p. 241-245 |
artikel |
151 |
Structural heredity of alloys produced by centrifugal SHS: Influence of remelting temperature
|
Sanin, V. V. |
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2015 |
|
4 |
p. 211-215 |
artikel |
152 |
Structure, Phase Composition, and Hardness of Ni3Al–TiC Composite Fabricated by Thermal Explosion of Nickel, Aluminum, and Titanium Carbide Powder Mixture
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Ivanov, K. V. |
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4 |
p. 278-287 |
artikel |
153 |
Synthesis and characterization of in-situ reinforced Fe-TiC steel FGMs
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Gowtam, D. S. |
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2008 |
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4 |
p. 227-232 |
artikel |
154 |
Synthesis and heat treatment of sprayed high-temperature NiAl–Ni3Al coatings by in-flight combustion synthesis (CAFSY)
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Marinou, A. |
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2015 |
|
4 |
p. 192-202 |
artikel |
155 |
Synthesis and Study of Highly Porous Nature Gadolinium Doped CoCr2O4: Focus on the Structural, Microstructural, Electric, and Humidity Sensing Properties
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Ramprasad, N. |
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4 |
p. 169-178 |
artikel |
156 |
Synthesis and Study of Structural, Microstructural, and Magnetic Properties of Europium and Scandium 1 Mol % Doped CuFe2O4 Prepared by Self-Propagating High Temperature Synthesis Method
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Yousef, E. S. |
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4 |
p. 159-163 |
artikel |
157 |
Synthesis, Characterization, and Applications of CoFe2O4 and M-CoFe2O4 (M = Ni, Zn, Mg, Cd, Cu, RE) Ferrites: A Review
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Kakati, S. |
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4 |
p. 189-219 |
artikel |
158 |
Synthesis of Copper Based Pigments
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Radishevskaya, N. I. |
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4 |
p. 326-331 |
artikel |
159 |
Synthesis of Nanosized FeS, CoS and NiS Crystals in a Wave of Flameless RDX Combustion
|
Mikhailov, Yu. M. |
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4 |
p. 220-224 |
artikel |
160 |
Synthesis of silicon oxynitride by infiltration-mediated combustion
|
Studenikin, I. A. |
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2008 |
|
4 |
p. 237-241 |
artikel |
161 |
Synthesis of Ti-Al-based materials by thermal explosion
|
Boyarchenko, O. D. |
|
2010 |
|
4 |
p. 285-291 |
artikel |
162 |
Synthesis of Ti–5Al–2.5Fe Alloy and Its Hydride by HC and SHS Methods
|
Mayilyan, D. |
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4 |
p. 264-270 |
artikel |
163 |
Synthesis of TiС–ZrC Composite with Submicron Structure by Electro-Thermal Explosion under Pressure
|
Shcherbakov, V. A. |
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4 |
p. 261-267 |
artikel |
164 |
Synthesis of TiZrHfVNb Multi-Principal Element Alloy using SHS Hydrides by “Hydride Cycle” Method
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Mayilyan, D. G. |
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4 |
p. 268-272 |
artikel |
165 |
The Effect of Correlation between Starting Reagent Size/Ratio and Structural Parameters on the Permeability of Porous Al2O3 Ceramics
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Uvarov, V. I. |
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4 |
p. 220-229 |
artikel |
166 |
Thermal decomposition of TiH2: A TRXRD study
|
Kovalev, D. Yu. |
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2010 |
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4 |
p. 253-257 |
artikel |
167 |
Thermal Explosion in Mechanochemically Treated Mixtures of Natural Sand with Aluminum Powder
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Mansurov, Z. A. |
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2018 |
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4 |
p. 216-220 |
artikel |
168 |
Thermal explosion in Ti–Ni blends: Role of inner mechanocomposite structure
|
Shkoda, O. A. |
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2015 |
|
4 |
p. 246-250 |
artikel |
169 |
Thermal Explosion in Ti + Zr + Hf + Nb + Ta + 5С System: Effect of Mechanical Activation
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Vadchenko, S. G. |
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4 |
p. 208-214 |
artikel |
170 |
Thermite-Related Technologies for Use in Extreme Geothermal Environments
|
Odawara, O. |
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2018 |
|
4 |
p. 228-235 |
artikel |
171 |
TiB2 and TiC single crystals by plasma-arc remelting of SHS products
|
Ponomarev, M. A. |
|
2011 |
|
4 |
p. 252-258 |
artikel |
172 |
TiC–Al interpenetrating composites by SHS pressing
|
Amosov, A. P. |
|
2015 |
|
4 |
p. 187-191 |
artikel |
173 |
To the Theory of Macrostructural Transformations during Gasless Combustion
|
Smolyakov, V. K. |
|
2018 |
|
4 |
p. 201-206 |
artikel |
174 |
Ultrafine and nanosized MoSi2 powders by SHS process with a reduction stage
|
Vershinnikov, V. I. |
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2013 |
|
4 |
p. 217-221 |
artikel |
175 |
Uranothermic reaction as an efficient shs process to synthesize severe accident nuclear materials
|
Piluso, P. |
|
2009 |
|
4 |
p. 241-251 |
artikel |
176 |
ZnFe2 –xCrxO4 Ferrites (x = 0.0–2.0) by Solution-Combustion Synthesis Using Glycine as a Fuel: Influence of Cr3+ Doping
|
Montoya, J. F. |
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4 |
p. 243-245 |
artikel |
177 |
ZrN/ZrSi2/Co Cermet by Combustion Synthesis under Pressure: Influence of Co Addition
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Zaki, Z. I. |
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4 |
p. 225-232 |
artikel |