Up to Date Mathematical Model for Analysing of Cylindrical Worm Power with Bevel-Gear

Zsuzsa Balajti; Maria Nandorine Toth

doi:10.4028/www.scientific.net/KEM.581.451

Paper Titles

Verification of Manufacturing Accuracy of Mathematically Defined Shaped Surfaces on 3D CNC Milling Machine
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Finite Element Investigation of Acetabular Cups Used During Revisionist Surgery
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Contact Measurement of Flatness of Parts with Low Rigidity
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Dependence of Shape Deviations and Surface Roughness in the Hardened Steel Turning
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Up to Date Mathematical Model for Analysing of Cylindrical Worm Power with Bevel-Gear
p.451

Mathematical Simulation of Kinematics of Vibrating Boiling Granular Medium at Treatment in the Oscillating Reservoir
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Tool Profile Generation by Boolean Operations on Ball Nuts
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ANFIS Building Methodology for the Task of Cutting Tool Condition Diagnosis Using Matlab Software
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Determination of the Mechanical Properties of Thermally Treated Recycled Glass Based on Nano-Indentation Measurement and FEM Supported Simulation
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Up to Date Mathematical Model for Analysing of Cylindrical Worm Power with Bevel-Gear

Abstract:

The developed general mathematical-kinematical model for examination of mating of cylindrical and conical helicoids and their tools - furthermore the helicoids surfaces are on identical axis -, which is suitable to deal with examination at the same time. This paper shows the newest mathematical-kinematical model to analyzing the mating of cylindrical worm gear with bevel gear.

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Periodical:

Key Engineering Materials (Volume 581)

Pages:

451-455

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.581.451

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Online since:

October 2013

Authors:

Zsuzsa Balajti, Maria Nandorine Toth

Keywords:

Driving, Mathematical Models, Worm Gear

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References

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