The recent search for extremely efficient spark-ignition engines has implied a great increase of in-cylinder pressure and temperature levels, and knocking combustion mode has become one of the most relevant limiting factors. This paper reports the main results of a specific project carried out as part of a wider research activity, aimed at modelling and real-time controlling knock-induced damage on aluminum forged pistons. The paper shows how the main damage mechanisms (erosion, plastic deformation, surface roughness, hardness reduction) have been identified and isolated, and how the corresponding symptoms may be measured and quantified. The second part of the work then concentrates on understanding how knocking combustion characteristics a...
This paper reviews the literature which identifies the causes, consequences and cures for engine kno...
Specific power and efficiency of gasoline engines are influenced by factors such as compression rati...
This PhD thesis reports the main activities carried out during the 3 years long “Mechanics and advan...
The recent search for extremely efficient spark-ignition engines has implied a great increase of in-...
Abnormal combustion leads to a significant increase in combustion speed, pressure and temperature at...
none6noIn the present study, a systematic and deep examination of knocking damage on Al pistons is c...
Due to the stringent regulations in terms of CO2 emissions, in order to increase engine efficiency, ...
Knocking combustions limit Spark Ignition engines efficiency, preventing the achievement of the opti...
An experimental study was conducted to investigate combustion and in-cylinder heat transfer characte...
Knock in SI engines limits both power density and fuel conversion efficiency. The main mechanisms wi...
This study stems from the need to increase knowledge regarding the phenomenon of knocking, which has...
The occurrence of knock is the most limiting hindrance for modern Spark-Ignition (SI) engines. In or...
The objectives of this thesis were to identify, explain and quantify the damage caused by knocking c...
none6noIn this paper, a pre-ignition sequence with detrimental effects on the engine has been analys...
The paper aims at defining a methodology for the prediction and understanding of knock tendency in i...
This paper reviews the literature which identifies the causes, consequences and cures for engine kno...
Specific power and efficiency of gasoline engines are influenced by factors such as compression rati...
This PhD thesis reports the main activities carried out during the 3 years long “Mechanics and advan...
The recent search for extremely efficient spark-ignition engines has implied a great increase of in-...
Abnormal combustion leads to a significant increase in combustion speed, pressure and temperature at...
none6noIn the present study, a systematic and deep examination of knocking damage on Al pistons is c...
Due to the stringent regulations in terms of CO2 emissions, in order to increase engine efficiency, ...
Knocking combustions limit Spark Ignition engines efficiency, preventing the achievement of the opti...
An experimental study was conducted to investigate combustion and in-cylinder heat transfer characte...
Knock in SI engines limits both power density and fuel conversion efficiency. The main mechanisms wi...
This study stems from the need to increase knowledge regarding the phenomenon of knocking, which has...
The occurrence of knock is the most limiting hindrance for modern Spark-Ignition (SI) engines. In or...
The objectives of this thesis were to identify, explain and quantify the damage caused by knocking c...
none6noIn this paper, a pre-ignition sequence with detrimental effects on the engine has been analys...
The paper aims at defining a methodology for the prediction and understanding of knock tendency in i...
This paper reviews the literature which identifies the causes, consequences and cures for engine kno...
Specific power and efficiency of gasoline engines are influenced by factors such as compression rati...
This PhD thesis reports the main activities carried out during the 3 years long “Mechanics and advan...