Add to ORKGThe aim of this experiment was to study the origin and formation of microporosities in a Ni-5% Ti-0.2% C alloy which has been solidified and quenched, and to compare it to the previously developed mathematical model. In the selected alloy, the porosity may result from gases formed during solidification (for example by chemical reaction). The results show that solidification conditions influence microporosity formation through the fraction eutectic and this suggests that it is possible to relate susceptibility to microporosity formation to the fraction eutectic. The results also confirm that for solid solution alloys such as Ni-5% Ti0.2% C, the fraction eutectic increases when the ratio G/R decreases
Recently the application of rapid solidification (RS) techniques to Ti alloy systems has received in...
Rapid solidification of Ti-7.3wt.%Cu (near-eutectoid composition), Ti-36.2wt.%Ni and Ti-34.3wt.% Ni-...
Recently the application of rapid solidification (RS) techniques to Ti alloy systems has received in...
peer reviewedThe aim of this experiment was to examine the formation of micropores during directiona...
In this work we have developed two criteria which can characterize the susceptibility to microporosi...
peer reviewedThe susceptibility of nickel-base superalloys to microporosity formation is studied exp...
peer reviewedMicroporosity formation in nickel-base superalloys is studied experimentally and theore...
Microporosity in the body and platform of the three different compositions complex nickel-based sing...
Microporosity in the body and platform of the three different compositions complex nickel-based sing...
The Ti-Ni binary system under non-equilibrium conditions offers an exciting range of metastable micr...
The Ti-Ni binary system under non-equilibrium conditions offers an exciting range of metastable micr...
It is now well established that three different eutectic solidification mechanisms may occur in Al-S...
The Ti-Ni binary system under non-equilibrium conditions offers an exciting range of metastable micr...
In earlier work the authors examined the sintering of Ti-Ni alloys by means of dilatometry of mixed ...
The occurrence of porosity during alloy solidification is a significant factor in evaluating the qua...
Recently the application of rapid solidification (RS) techniques to Ti alloy systems has received in...
Rapid solidification of Ti-7.3wt.%Cu (near-eutectoid composition), Ti-36.2wt.%Ni and Ti-34.3wt.% Ni-...
Recently the application of rapid solidification (RS) techniques to Ti alloy systems has received in...
peer reviewedThe aim of this experiment was to examine the formation of micropores during directiona...
In this work we have developed two criteria which can characterize the susceptibility to microporosi...
peer reviewedThe susceptibility of nickel-base superalloys to microporosity formation is studied exp...
peer reviewedMicroporosity formation in nickel-base superalloys is studied experimentally and theore...
Microporosity in the body and platform of the three different compositions complex nickel-based sing...
Microporosity in the body and platform of the three different compositions complex nickel-based sing...
The Ti-Ni binary system under non-equilibrium conditions offers an exciting range of metastable micr...
The Ti-Ni binary system under non-equilibrium conditions offers an exciting range of metastable micr...
It is now well established that three different eutectic solidification mechanisms may occur in Al-S...
The Ti-Ni binary system under non-equilibrium conditions offers an exciting range of metastable micr...
In earlier work the authors examined the sintering of Ti-Ni alloys by means of dilatometry of mixed ...
The occurrence of porosity during alloy solidification is a significant factor in evaluating the qua...
Recently the application of rapid solidification (RS) techniques to Ti alloy systems has received in...
Rapid solidification of Ti-7.3wt.%Cu (near-eutectoid composition), Ti-36.2wt.%Ni and Ti-34.3wt.% Ni-...
Recently the application of rapid solidification (RS) techniques to Ti alloy systems has received in...