The self-propagating high-temperature synthesis (SHS) of 0-40 wt.% ZrB(2) or 40 wt.% TiB(2) reinforced Ni-Al matrix composite powders has been investigated. The SHS reactions were conducted starting from elemental powders of Zr, Ti, Ni, Al, and amorphous B. For all initial compositions, the product contained only the NiAl and ZrB(2) or TiB(2) compounds without any trace of cross-reaction phases. The powder, obtained by grinding the reacted pellet, contained ZrB(2) or TiB(2) homogeneously dispersed in the NiAl matrix. The dimension and distribution of the reinforcement phase make the powder suitable as precursor for thermal spray applications. After sintering of the composite powder up to 85% of theoretical density, microhardness was measure...
Self-propagating high-temperature synthesis (SHS) is a flexible process to produce novel materials w...
Synthesis of a ZrB2-Al2O3 in-situ composite powder by the self-propagating, high-temperature synthes...
Borides and carbides attract the attention of developers of heat-resistant and super hard structural...
Intermetallic matrix composites are a new class of engineering materials for high temperature struct...
FeAl–TiB2 composites have been produced from mixtures of Fe, Al, Ti and B powders using the Self-pro...
TiC–20 wt% Ni3Al and TiC–40 wt% Ni3Al composite materials were produced by self-propagating high-tem...
TiC–20 wt% Ni3Al and TiC–40 wt% Ni3Al composite materials were produced by self-propagating high-tem...
Nickel aluminide intermetallic alloy and NiAl–ZrO2 composites were synthesized in a hot press by sin...
Nickel aluminide intermetallic alloy and NiAl–ZrO2 composites were synthesized in a hot press by sin...
TiB2 particles (5 vol% and 10 vol%) reinforced NiAl matrix composites were fabricated in-situ from T...
Nickel aluminide intermetallic alloy and NiAl–ZrO2 composites were synthesized in a hot press by sin...
A powder metallurgy route combining high-energy ball-milling (HEBM) of elemental powders and reactiv...
Available online 01 February 2018TiB₂ particles (5 vol% and 10 vol%) reinforced NiAl matrix composit...
Mechanical activation assisted self-propagating high-temperature synthesis (MA-SHS) in air was succe...
Self-propagating high-temperature synthesis (SHS) is a flexible process to produce novel materials w...
Self-propagating high-temperature synthesis (SHS) is a flexible process to produce novel materials w...
Synthesis of a ZrB2-Al2O3 in-situ composite powder by the self-propagating, high-temperature synthes...
Borides and carbides attract the attention of developers of heat-resistant and super hard structural...
Intermetallic matrix composites are a new class of engineering materials for high temperature struct...
FeAl–TiB2 composites have been produced from mixtures of Fe, Al, Ti and B powders using the Self-pro...
TiC–20 wt% Ni3Al and TiC–40 wt% Ni3Al composite materials were produced by self-propagating high-tem...
TiC–20 wt% Ni3Al and TiC–40 wt% Ni3Al composite materials were produced by self-propagating high-tem...
Nickel aluminide intermetallic alloy and NiAl–ZrO2 composites were synthesized in a hot press by sin...
Nickel aluminide intermetallic alloy and NiAl–ZrO2 composites were synthesized in a hot press by sin...
TiB2 particles (5 vol% and 10 vol%) reinforced NiAl matrix composites were fabricated in-situ from T...
Nickel aluminide intermetallic alloy and NiAl–ZrO2 composites were synthesized in a hot press by sin...
A powder metallurgy route combining high-energy ball-milling (HEBM) of elemental powders and reactiv...
Available online 01 February 2018TiB₂ particles (5 vol% and 10 vol%) reinforced NiAl matrix composit...
Mechanical activation assisted self-propagating high-temperature synthesis (MA-SHS) in air was succe...
Self-propagating high-temperature synthesis (SHS) is a flexible process to produce novel materials w...
Self-propagating high-temperature synthesis (SHS) is a flexible process to produce novel materials w...
Synthesis of a ZrB2-Al2O3 in-situ composite powder by the self-propagating, high-temperature synthes...
Borides and carbides attract the attention of developers of heat-resistant and super hard structural...
Add to ORKG