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All articles by "Romanenkov V.A."
A Technique for Analyzing Rheological Properties of Fast-Curing Aluminoborophosphate Binder Based on Test Results Using a Brookfield CAP 2000+ Viscometer
| Authors: Nelyub V.A., Tarasov V.A., Romanenkov V.A., Gerasimov N.V. | Published: 31.05.2018 |
| Published in issue: #5(698)/2018 | |
| Category: Mechanical Engineering and Machine Science | Chapter: Manufacturing Engineering | |
| Keywords: rheological properties, fast-curing binder, kinematic factors, composite structures, inorganic binders |
Justification of the Technological Modes of Repeated Impregnation-Drying and the Subsequent Autoclave Processing to Provide the Required Composition of the Thermal Protection Material and its Minimal Production Time
| Authors: Nelyub V.A., Tarasov V.A., Romanenkov V.A., Komkov M.A., Boyarskaya R.V. | Published: 19.12.2017 |
| Published in issue: #12(693)/2017 | |
| Category: Aviation, Rocket and Technology | |
| Keywords: thermal protection, composite material, fibrous filler, binder, phenol-formaldehyde resin, volatile constituents |
The Methodology of Selection of an Autoclave Barothermal Processing Mode for the Heat-Shield of Re-Entering Spacecraft
| Authors: Tarasov V.A., Romanenkov V.A., Komkov M.A., Boyarskaya R.V. | Published: 28.09.2015 |
| Published in issue: #9(666)/2015 | |
| Category: Aviation, Rocket and Technology | |
| Keywords: autoclave, heat-shielding, composite design, polymerization and viscosity binding, relationship between the continuous temperature change of a product and step change of the nitrogen pressure |
Technological principles of reducing the cycle time and improving the manufacturing safety of the thermal protection system for spacecraft reentry
| Authors: Tarasov V.A., Romanenkov V.A., Komkov M.A. | Published: 01.08.2014 |
| Published in issue: #8(653)/2014 | |
| Category: Calculation and Design of Machinery | |
| Keywords: reentry spacecraft, thermal protection system, woven filler, phenolformaldehyde binder, porous material impregnation time, modification of a binder by carbon nanotubes, complex autoclave |