Add to ORKGAbstract In order to reduce intermetallic compound formations in brazed joints, a CoFeCrNiCu high entropy alloy was invented and employed to braze SiC ceramics. Results show that SiC ceramics were tightly and strongly brazed with the CoFeCrNiCu filler. Microstructure, phase and shear strength were systematically studied for joints brazed at different temperature. Main compositions were identified as high-entropy FCC, Cu(s, s), Si(s, s), and Cr23C6 phases, regardless the brazing temperature differences. After being brazed at 1453 K, the joint reached a maximum shear strength of 60 MPa, much higher than those brazed with conventional AgCuTi filler. Thanks to high entropy effect of CoFeCrNiCu filler, random solid solution turned out in the se...
High entropy alloys have been proposed as novel binder phases in cemented carbides and cermets. Many...
High-entropy alloy (HEA) is a multicomponent alloy material that contains five or more principal ele...
In this work a traditional high entropy alloy (FeCoNiCrAl) was reinforced by uniformly distributed r...
Abstract CoCrFeNi is a well-studied face centered cubic (fcc) high entropy alloy (HEA) that exhibits...
The paper presents the results of the development of a brazing technique for monolithic SiC and SiCf...
In this work, (Au79Ni17Pd4)96Ti4 (wt.%) filler alloy was designed and employed to join SiC ceramics....
International audienceHigh-entropy alloys represent a new class of materials exhibiting attractive p...
Abstract The TiAl alloy and ZrB₂-SiC ceramic are promising materials used at high temperature. One ...
With the improvement of alloy manufacturing level and the complexity of performance requirements, hi...
A high-quality joint of pressureless sintered SiC ceramic (PS-SiC) and stainless steel brazed by AgC...
Abstract In this work, the Ti-6Al-4V alloy and ZrB₂-SiC ultra-high temperature ceramic joint was br...
High-entropy alloys are known to show exceptionally high mechanical properties, both compression and...
Today’s emerging technologies in high temperature applications are placing difficult demands on stru...
Ceramic materials are widely used for extreme temperature conditions. The sucessful integration of c...
Ceramics and metals have large differences in thermal expansion coefficients, which can easily lead ...
High entropy alloys have been proposed as novel binder phases in cemented carbides and cermets. Many...
High-entropy alloy (HEA) is a multicomponent alloy material that contains five or more principal ele...
In this work a traditional high entropy alloy (FeCoNiCrAl) was reinforced by uniformly distributed r...
Abstract CoCrFeNi is a well-studied face centered cubic (fcc) high entropy alloy (HEA) that exhibits...
The paper presents the results of the development of a brazing technique for monolithic SiC and SiCf...
In this work, (Au79Ni17Pd4)96Ti4 (wt.%) filler alloy was designed and employed to join SiC ceramics....
International audienceHigh-entropy alloys represent a new class of materials exhibiting attractive p...
Abstract The TiAl alloy and ZrB₂-SiC ceramic are promising materials used at high temperature. One ...
With the improvement of alloy manufacturing level and the complexity of performance requirements, hi...
A high-quality joint of pressureless sintered SiC ceramic (PS-SiC) and stainless steel brazed by AgC...
Abstract In this work, the Ti-6Al-4V alloy and ZrB₂-SiC ultra-high temperature ceramic joint was br...
High-entropy alloys are known to show exceptionally high mechanical properties, both compression and...
Today’s emerging technologies in high temperature applications are placing difficult demands on stru...
Ceramic materials are widely used for extreme temperature conditions. The sucessful integration of c...
Ceramics and metals have large differences in thermal expansion coefficients, which can easily lead ...
High entropy alloys have been proposed as novel binder phases in cemented carbides and cermets. Many...
High-entropy alloy (HEA) is a multicomponent alloy material that contains five or more principal ele...
In this work a traditional high entropy alloy (FeCoNiCrAl) was reinforced by uniformly distributed r...