In order to accurately predict the power loss generated by a meshing gear pair the gear loss factor must be properly evaluated. Several gear loss factor formulations were compared, including the author's approach. <br><br> A gear loss factor calculated considering the load distribution along the path of contact was implemented. <br><br> The importance of the gear loss factor in the power loss predictions was put in evidence comparing the predictions with experimental results. It was concluded that the gear loss factor is a decisive factor to accurately predict the power loss. Different formulations proposed in the literature were compared and it was shown that only few were able to yield satisfactory correlations with experimental results. ...
The first part of the report proposes a methodology for gear windage loss evaluation using CFD analy...
The increasing demand of more and more efficient gearboxes implies the need of predictive models. Mo...
The model for estimation of spur and helical gear sliding loss with load distribution pattern on gea...
Efficiency improvement is one of the main challenges in all fields of design. The reduction of power...
To explore the impacts of gear churning power losses, a research was conducted to achieve the intern...
A simple method for predicting the part- and full-load power loss of a steel spur gearset of arbitra...
The main cause of power loss or dissipation of heat in case of meshed gears is due to friction exist...
Energy savings and efficient design are the new global trends. Gears are the main components in many...
This paper provides a review of experimental investigations and available models of gear load-indepe...
The paper proposes a calculation method for determination of losses in involute gearing designed wit...
The results of an analysis of the effects of spur gear size, pitch, width, and ratio on total mesh p...
To improve the efficiency of geared transmissions, prediction models are required. Literature provid...
Lately the discussion on how big impact vehicles has on the environment has grown bigger and bigger....
Abstract: A model to predict friction-related mechanical efficiency losses of hypoid gear pairs is p...
© 2018 Institute of Physics Publishing. All rights reserved. In this paper are presented the power l...
The first part of the report proposes a methodology for gear windage loss evaluation using CFD analy...
The increasing demand of more and more efficient gearboxes implies the need of predictive models. Mo...
The model for estimation of spur and helical gear sliding loss with load distribution pattern on gea...
Efficiency improvement is one of the main challenges in all fields of design. The reduction of power...
To explore the impacts of gear churning power losses, a research was conducted to achieve the intern...
A simple method for predicting the part- and full-load power loss of a steel spur gearset of arbitra...
The main cause of power loss or dissipation of heat in case of meshed gears is due to friction exist...
Energy savings and efficient design are the new global trends. Gears are the main components in many...
This paper provides a review of experimental investigations and available models of gear load-indepe...
The paper proposes a calculation method for determination of losses in involute gearing designed wit...
The results of an analysis of the effects of spur gear size, pitch, width, and ratio on total mesh p...
To improve the efficiency of geared transmissions, prediction models are required. Literature provid...
Lately the discussion on how big impact vehicles has on the environment has grown bigger and bigger....
Abstract: A model to predict friction-related mechanical efficiency losses of hypoid gear pairs is p...
© 2018 Institute of Physics Publishing. All rights reserved. In this paper are presented the power l...
The first part of the report proposes a methodology for gear windage loss evaluation using CFD analy...
The increasing demand of more and more efficient gearboxes implies the need of predictive models. Mo...
The model for estimation of spur and helical gear sliding loss with load distribution pattern on gea...