| 429 - 433 |
Combustion of niobium in hydrogen and nitrogen. Synthesis of niobium hydrides and hydridonitrides
Aleksanyan AG, Dolukhanyan SK |
| 435 - 440 |
The nanocrystalline forming by combustion synthesis of Ti (Zr) hydrides
Shekhtman VS, Dolukhanyan SK, Abrosimova GE, Abrahamyan KA, Aleksanyan AG, Aghajanyan NN, Ter-Galstyan OP |
| 441 - 448 |
The use of metal hydride powder blending in the production of NdFeB-type magnets
Mottram RS, Davis B, Yartys VA, Harris IR |
| 449 - 452 |
Hydrides ScFe(Ni)(2)H-x: preparation and properties
Fokin VN, Fokina EE, Tarasov BP, Korobov II, Shilkin SP |
| 453 - 456 |
The effect of hydrogen on the electronic structure and cohesive properties of iron-based alloys doped by chromium and nickel
Vakhney AG, Yaresko AN, Antonov VN, Nemoshkalenko VV |
| 457 - 460 |
Permeation of hydrogen through amorphous ferrum membrane
Evard EA, Kurdumov AA, Berseneva FN, Gabis IE |
| 461 - 463 |
Effect of mechanical stresses on hydrogen distribution in VA subgroup of the periodical table of elements
Primakov NG, Rudenko VA, Kazarnikov VV |
| 465 - 468 |
System for investigation of hydrogen isotopes - solid body interaction at 500 MPa
Golubkov AN, Grishechkin SK, Yukhimchuk AA |
| 469 - 475 |
Interaction of interstitial hydrogen atoms within h.c.p. metals and distribution of diffuse radiation-scattering intensity in reciprocal space
Tatarenko VA |
| 477 - 481 |
X-ray spectroscopy investigation of hydrogen-containing phases based on the compounds of tungsten with VI group elements
Dobrovolsky VD, Kopylova EI, Kulikov LM, Semjonov-Kobzar AA, Solonin YM, Akselrud LG |
| 483 - 488 |
Effect of annealing at argon pressure up to 1.2 GPa hydrogen-plasma-etched and hydrogen-implanted single-crystalline silicon
Misiuk A, Bak-Misiuk J, Barez A, Romano-Rodriguez A, Antonova IV, Popov VP, Londos CA, Jun J |
| 489 - 491 |
Microstructure evolution of fine-grain Fe-Cu composites during heat treatment in hydrogen
Radchenko OG, Getman OI |
| 493 - 501 |
Study of Mg-M (M = Co, Ni and Fe) mixture elaborated by reactive mechanical alloying: hydrogen sorption properties
Bobet JL, Akiba E, Darriet B |
| 503 - 505 |
The effect of hydrogen incorporation in the nanocrystalline iron particles on their magnetic properties
Novakova AA, Kiseleva TY, Agladze OV, Perov NS, Tarasov BP |
| 507 - 509 |
Hydrogen isotopes behavior in nickel in nuclear fusion reactor conditions
Constantinescu B, Vasiliu F, Alexandru G |
| 511 - 513 |
The electrical resistance of the tantalum-hydrogen system at low temperatures
Khadzhai G |
| 515 - 520 |
The role of hydrogen in microbiologically influenced corrosion and stress corrosion cracking
Biezma MV |
| 521 - 526 |
Hydrogen effect on enhancement of defect reactions in semiconductors: example for silicon and vacancy defects
Nazarov AN, Pinchuk VM, Yanchuk TV, Lysenko VS, Vovk YN, Rangan S, Ashok S, Kudoyarova V, Terukov EI |
| 527 - 529 |
A method for production of amorphous powders of hydrogen-absorbing alloys
Lytvynenko YM, Kucheriava SV, Grigoriev ON |
| 531 - 536 |
Development of new corrosion-resistant and wear-resistant materials for use in agressive hydrogen medium
Slys IG, Berezanskaya VI, Kossko IA, Pomytkin AP |
