Due to the complicated tooth geometry of worm gears, their design to achieve high capacity and favourable performance is a tedious task, and the optimum design is hardly to obtain. In order to overcome this problem, the authors developed an integrated approach which consists of three modules: numerical analysis, three-dimensional simulation and finite element analysis. It provides a powerful tool for optimum design of worm gears and is a general approach applicable for various types of worm gears. As case studies, two designs using the approach have been conducted, one for cylindrical involute worm gearing and the other for double enveloping worm gearing
Transmission mechanism of the plastic worm meshed with steel helical gear is applied to achieve powe...
A method is presented for designing worm gear sets to meet torque multiplication requirements. First...
A method for the design sizing task of cylindrical worm gearsets is presented that gives an estimate...
Due to the complicated tooth geometry of worm gears, their design to achieve high capacity and favou...
This research has developed a new approach to the design of worm gear drives with localised tooth co...
A new approach has been developed by the authors to estimate the load share of worm gear drives, and...
The aim of this study is the comparative finite element analysis of the tooth roots of one tooth on ...
New geometry of face worm gear drives with conical and cylindrical worms is proposed. The generation...
This study describes the methodology for modelling a worm and worm wheel of a double enveloping worm...
Cylindrical worm gear with screw worm and involute helical gear wheel teeth have continuing to be us...
The manufacturing of the exact geometry of the worm gear toothing is a complicated issue since the f...
The cylindrical worm gear drives are widely used in different mechanical construction such as in the...
A new approach has been developed to estimate the load share and distribution of worm gear drives, a...
AbstractThis paper aims to present the mathematical model for the generating kinematic and numerical...
The objectives of this publication are geometric establishment and creation of computer geometric ...
Transmission mechanism of the plastic worm meshed with steel helical gear is applied to achieve powe...
A method is presented for designing worm gear sets to meet torque multiplication requirements. First...
A method for the design sizing task of cylindrical worm gearsets is presented that gives an estimate...
Due to the complicated tooth geometry of worm gears, their design to achieve high capacity and favou...
This research has developed a new approach to the design of worm gear drives with localised tooth co...
A new approach has been developed by the authors to estimate the load share of worm gear drives, and...
The aim of this study is the comparative finite element analysis of the tooth roots of one tooth on ...
New geometry of face worm gear drives with conical and cylindrical worms is proposed. The generation...
This study describes the methodology for modelling a worm and worm wheel of a double enveloping worm...
Cylindrical worm gear with screw worm and involute helical gear wheel teeth have continuing to be us...
The manufacturing of the exact geometry of the worm gear toothing is a complicated issue since the f...
The cylindrical worm gear drives are widely used in different mechanical construction such as in the...
A new approach has been developed to estimate the load share and distribution of worm gear drives, a...
AbstractThis paper aims to present the mathematical model for the generating kinematic and numerical...
The objectives of this publication are geometric establishment and creation of computer geometric ...
Transmission mechanism of the plastic worm meshed with steel helical gear is applied to achieve powe...
A method is presented for designing worm gear sets to meet torque multiplication requirements. First...
A method for the design sizing task of cylindrical worm gearsets is presented that gives an estimate...