Superior mechanical and thermal properties, high wear resistance and a competitive price of compacted graphite iron (CGI) have made it an integral part of industry worldwide. In its applications in automotive engines, high-temperature environments cause thermal expansion that can result in emergence of interfacial damage in CGI. Although graphite-matrix interfacial damage is considered the main damage mechanism that can lead to total fracture of CGI, extensive research on CGI has not yet fully investigated this phenomenon at the microscale, especially under pure thermal loading. This paper focuses on the high-temperature performance of CGI and the onset of damage in graphite in thermal cycles. Three-dimensional numerical models are develope...
A major driving force for the industry to simulate various manufacturing processes is the incorporat...
Cast iron is an important engineering material, used extensively in industrial applications. Despite...
In this work, a microstructure-based modelling approach is employed to investigate the performance o...
Superior mechanical and thermal properties, high wear resistance and a competitive price of compacte...
Compacted graphite iron (CGI) has gained significant attention in automotive industry applications t...
This paper focuses on investigation of the interaction effect of graphite inclusions on failure of c...
This paper investigates graphite decohesion as the primary fracture mechanism of compacted graphite ...
In this work, graphite debonding under thermal loading in compacted graphite iron (CGI) is investiga...
Compacted graphite iron (CGI) is used in numerous applications, e.g., in the automotive industry, in...
In this paper, a multiscale modelling approach is followed for the modelling of time and temperature...
The impact wear mechanism of compacted graphite cast iron (CGI) at different temperatures (room temp...
Fracture modeling and experimental validation of Compacted Graphite Iron (CGI) specimens loaded unde...
Compacted graphite iron (CGI) is a cast iron material that has gained much attention due to its attr...
This work presents a multi-scale modelling framework for thermo-mechanical behaviour of Compacted Gr...
Cast iron components in combustion engines, such as cylinder blocks and heads of trucks, are exposed...
A major driving force for the industry to simulate various manufacturing processes is the incorporat...
Cast iron is an important engineering material, used extensively in industrial applications. Despite...
In this work, a microstructure-based modelling approach is employed to investigate the performance o...
Superior mechanical and thermal properties, high wear resistance and a competitive price of compacte...
Compacted graphite iron (CGI) has gained significant attention in automotive industry applications t...
This paper focuses on investigation of the interaction effect of graphite inclusions on failure of c...
This paper investigates graphite decohesion as the primary fracture mechanism of compacted graphite ...
In this work, graphite debonding under thermal loading in compacted graphite iron (CGI) is investiga...
Compacted graphite iron (CGI) is used in numerous applications, e.g., in the automotive industry, in...
In this paper, a multiscale modelling approach is followed for the modelling of time and temperature...
The impact wear mechanism of compacted graphite cast iron (CGI) at different temperatures (room temp...
Fracture modeling and experimental validation of Compacted Graphite Iron (CGI) specimens loaded unde...
Compacted graphite iron (CGI) is a cast iron material that has gained much attention due to its attr...
This work presents a multi-scale modelling framework for thermo-mechanical behaviour of Compacted Gr...
Cast iron components in combustion engines, such as cylinder blocks and heads of trucks, are exposed...
A major driving force for the industry to simulate various manufacturing processes is the incorporat...
Cast iron is an important engineering material, used extensively in industrial applications. Despite...
In this work, a microstructure-based modelling approach is employed to investigate the performance o...