| 1 - 5 |
Some issues in sintering science and technology
Upadhyaya GS |
| 6 - 11 |
Inhomogeneously distributed defects in solids
Kornyushin Y |
| X - X |
Special issue - Sintering 2000 - Proceedings of the 7(th) International Conference on Sintering, New Delhi, India, 22-25 February 2000 - Preface
Upadhyaya GS |
| 12 - 16 |
Three-dimensional computer modeling of grain growth and pore shrinkage during sintering
Tomandl G, Varkoly P |
| 17 - 24 |
Computer-aided control of the evolution of microstructure during sintering
Subbanna M, Kapur PC, Pradip |
| 25 - 31 |
Gravitational effects during liquid phase sintering
Upadhyaya A, German RM |
| 32 - 36 |
Liquid-phase sintering from the high-temperature corrosion process standpoint
Medvedovski E |
| 37 - 42 |
Structure property relationships in porous sintered steels
Beiss P, Dalgic M |
| 43 - 48 |
Processing of P/M T15 high speed steels by mould casting using thermosetting binders
Varez A, Portuondo J, Levenfeld B, Torralba JM |
| 49 - 55 |
Processes in PM steel compacts during the initial stages of sintering
Danninger H, Gierl C |
| 56 - 65 |
Sintering of powder mixtures and the growth of ferrous powder metallurgy
Narasimhan KS |
| 66 - 71 |
Study of sinterability of bronze and phosphorus bronze steels
Candela N, Quesada A, Velasco F, Torralba JM |
| 72 - 77 |
Dissolution of different graphite grades during sintering of PM steels
Danninger H, Frauendienst G, Streb KD, Ratzi R |
| 78 - 84 |
Machinability of phosphorous containing sintered steels
Hamiuddin M, Murtaza Q |
| 85 - 91 |
Liquid phase sintering of aluminium alloys
Schaffer GB, Sercombe TB, Lumley RN |
| 92 - 100 |
The liquid phase sintering of molybdenum with Ni and Cu additions
Hwang KS, Huang HS |
| XI - XI |
Message from Academician Momcilo M. Ristic
[Anonymous] |
| 101 - 110 |
Processing strategy for consolidating tungsten heavy alloys for ordnance applications
Upadhyaya A |
| 111 - 119 |
Problem solving in sintering of tungsten heavy alloy product - a case study
Bagchi TP, Kumar NA, Sarma B, Maitra N |
| 120 - 132 |
A mechanistic approach of the sintering of nuclear fuel ceramics
Lechelle J, Boyer R, Trotabas M |
| 133 - 139 |
Dopant incorporation in ceramics prepared by binder coagulation casting
Walker WJ, Chatterjee DK, Ghosh SK, Amarakoon VRW |
| 140 - 145 |
Thermal anisotropy in sintered cordierite monoliths
Saha BP, Johnson R, Ganesh I, Rao GVN, Bhattacharjee S, Mahajan YR |
| 146 - 150 |
Sintering behavior of alumina rich cordierite porous ceramics
Senguttuvan T, Kalsi HS, Sharda SK, Das BK |
| 151 - 156 |
Sintering of Al-Zr based oxide ceramics using thermal plasma
Roul BK, Sahu DR, Mohanty S, Mohanty BC, Singh SK |
| 157 - 164 |
Hydrothermal corrosion of nitride and carbide of silicon
Somiya S |
| 165 - 174 |
Microstructures and mechanical properties of liquid-phase sintered seeded silicon carbide
Baud S, Thevenot F |
| 175 - 179 |
Gas pressure sintering of silicon nitride - current status
Biswas SK, Riley FL |
| 180 - 191 |
Liquid phase sintering and microstructure-property relationships of silicon carbide ceramics with oxynitride additives
Biswas K, Rixecker G, Wiedmann I, Schweizer M, Upadhyaya GS, Aldinger F |
| 192 - 198 |
Graded ceramic preforms: various processing approaches
Dariel MP, Levin L, Frage N |
| 199 - 202 |
Growth of SiC particles in reaction sintered SiC
Chakrabarti OP, Das PK, Mukerji J |
| 203 - 208 |
Development of the microstructure during gradient sintering of a cemented carbide
Frykholm R, Andren HO |
| 209 - 213 |
Microstructure development during sintering and heat-treatment of cemented carbides and cermets
Andren HO |
| 214 - 219 |
High tough boride base cermets produced by reaction sintering
Takagi K |
| 220 - 225 |
Compaction and sintering behaviour of glass-alumina composites
Ray A, Tiwari AN |
| 226 - 233 |
Sintered porous cermets based on TiB2 and TiB2-TiC-Mo2C
Singh M, Rai KN, Upadhyaya GS |
| 234 - 242 |
Sintered duplex stainless steels from premixes of 316L and 434L powders
Datta P, Upadhyaya GS |
| 243 - 248 |
Net-shape forming of bi-continuous Al2O3/Al composite by displacement reaction
Banerjee S, Roy SK |
| 249 - 255 |
Low-temperature processing of B4C-Al composites via infiltration technique
Lee BS, Kang S |
| 256 - 262 |
Multilayer composites in Al2O3/MoSi2 system
Watanabe T, Zhang GJ, Yue XM, Zeng YP, Shobu K, Bahlawane N |
| 263 - 266 |
Densification of mullite-SiC nanocomposite sol-gel precursors by pressureless sintering
Warrier KGK, Anilkumar GM |
| 267 - 271 |
Effect of high temperature sintering schedule for enhanced CMR properties of La0.67Ca0.33MnO3 close to room temperature
Roul BK, Sahu DR, Mohanty S, Pradhan AK |
| 272 - 281 |
Recent developments in the sintering of NdFeB
Davies BE, Mottram RS, Harris IR |
| 282 - 287 |
Synthesis and characterization of 9.5/65/35 PLZT prepared from the polymeric precursors
Stojanovic BD, Zaghete MA, Foschini CR, Cavalheiro AA, Paiva-Santos CO, Cilense M, Longo E |
| 288 - 290 |
Synthesis of Bi-based superconducting powders through the freeze drying
Mancic L, Marinkovic Z, Milosevic O |
| 291 - 293 |
Synthesis, characterization and properties of [RE1-xRE'(x)]TiNbO6 dielectric ceramics
Solomon S, Kumar M, Surendran KP, Sebastian MT, Mohanan P |
| 294 - 297 |
A novel method of doping PTC thermistor sensor elements during sintering through diffusion by vapour phase
Chatterjee S, Maiti HS |
| 298 - 306 |
Present state and future prospects of powder metallurgy parts for automotive applications
Fujiki A |
| 307 - 310 |
Sintered component production in Asia-Oceania
Sundaram SR |
