All articles by "Barbashov N.N."
Analysis of Existing Errors in Double-Flank Wave Engagement
| Authors: Timofeev G.A., Barbashov N.N. | Published: 14.02.2017 |
| Published in issue: #1(112)/2017 | |
| DOI: | |
| Category: Mechanical Engineering and Machine Science | Chapter: Theory of Mechanisms and Machines | |
| Keywords: wave gears, kinematic error, backlash, double-flank wave engagement, flexible and rigid gears | |
Designing the intermittent motion mechanism on the basis of wave gear with the internal deformation waves generator
| Authors: Timofeev G.A., Barbashov N.N., Tsibrovskiy A.N. | Published: 29.03.2016 |
| Published in issue: #2(107)/2016 | |
| DOI: | |
| Category: Mechanical Engineering and Machine Science | Chapter: Machine Science | |
| Keywords: intermittent motion mechanism, wave gear, a disk wave generator, flexible and hard gear wheels, wave engagement, wave gear coupling | |
Using the Inductive Linear Transducer for Investigation of Reducer Efficiency
| Authors: Barbashov N.N., Baryshnikova O.O. | Published: 29.05.2014 |
| Published in issue: #3(96)/2014 | |
| DOI: | |
| Category: Design | |
| Keywords: reducer, efficiency, inductive transducer, experiment planning, mathematical model, factorial experiment, gauging, analysis of experiment results | |
Energy Model of Transmission Mechanism with Flywheel Energy Storage
| Authors: Barbashov N.N., Leonov I.V. | Published: 08.10.2013 |
| Published in issue: #4(81)/2010 | |
| DOI: | |
| Category: Power-generating and Transport Machine Building | |
| Keywords: regime of speeding-up and braking, energy recuperation, mathematical model, transmission gear, flywheel energy storage, economy increase | |
Selection of Optimal Power of Internal Combustion Engine of Hybrid Power Plant
| Authors: Barbashov N.N., Leonov I.V. | Published: 08.10.2013 |
| Published in issue: #4(81)/2010 | |
| DOI: | |
| Category: Power-generating and Transport Machine Building | |
| Keywords: internal combustion engines, fuel consumption, hybrid power plant, design, speeding-up, braking, energy recuperation, simulation, cycle efficiency | |