Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles

Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles

The present article is concerned with numerical schemes of the radial Py and the tangential Pz components of the grinding pressure and with the average contact temperature T, °С. These characteristics give an opportunity to assess the level of the thermal power strain at every path of the operationa...

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Main Authors: Vetkasov Nikolai, Ulitin Sergey, Krupennikov Oleg, Sapunov Valeriy, Ankilov Andrey
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2019/47/matecconf_icmtmte18_00022.pdf
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spelling doaj-d70f48f43d124752b482e72e33fb6e092021-02-02T08:09:44ZengEDP SciencesMATEC Web of Conferences2261-236X2019-01-012980002210.1051/matecconf/201929800022matecconf_icmtmte18_00022Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circlesVetkasov Nikolai0Ulitin Sergey1Krupennikov Oleg2Sapunov Valeriy3Ankilov Andrey4Ulyanovsk State Technical University, Machine building facultyUlyanovsk State Technical University, Machine building facultyUlyanovsk State Technical University, Machine building facultyUlyanovsk State Technical University, Machine building facultyUlyanovsk State Technical University, Machine building facultyThe present article is concerned with numerical schemes of the radial Py and the tangential Pz components of the grinding pressure and with the average contact temperature T, °С. These characteristics give an opportunity to assess the level of the thermal power strain at every path of the operational cycle of the flat pendulum grinding using a standard grinding wheel (SW), an intermittent grinding wheel (IGW) and a composite grinding wheel (CGW). Value forecasting of forces Py,pz and the temperature T will make it possible to manage the grinding process and will give the opportunity to avoid the defects precipitation at the grinding finish of the workpiece.https://www.matec-conferences.org/articles/matecconf/pdf/2019/47/matecconf_icmtmte18_00022.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Vetkasov Nikolai
Ulitin Sergey
Krupennikov Oleg
Sapunov Valeriy
Ankilov Andrey
spellingShingle Vetkasov Nikolai
Ulitin Sergey
Krupennikov Oleg
Sapunov Valeriy
Ankilov Andrey
Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles
MATEC Web of Conferences
author_facet Vetkasov Nikolai
Ulitin Sergey
Krupennikov Oleg
Sapunov Valeriy
Ankilov Andrey
author_sort Vetkasov Nikolai
title Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles
title_short Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles
title_full Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles
title_fullStr Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles
title_full_unstemmed Simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles
title_sort simulation of thermal strength of the process of flat grinding of workpieces in intermittent circles
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2019-01-01
description The present article is concerned with numerical schemes of the radial Py and the tangential Pz components of the grinding pressure and with the average contact temperature T, °С. These characteristics give an opportunity to assess the level of the thermal power strain at every path of the operational cycle of the flat pendulum grinding using a standard grinding wheel (SW), an intermittent grinding wheel (IGW) and a composite grinding wheel (CGW). Value forecasting of forces Py,pz and the temperature T will make it possible to manage the grinding process and will give the opportunity to avoid the defects precipitation at the grinding finish of the workpiece.
url https://www.matec-conferences.org/articles/matecconf/pdf/2019/47/matecconf_icmtmte18_00022.pdf
work_keys_str_mv AT vetkasovnikolai simulationofthermalstrengthoftheprocessofflatgrindingofworkpiecesinintermittentcircles
AT ulitinsergey simulationofthermalstrengthoftheprocessofflatgrindingofworkpiecesinintermittentcircles
AT krupennikovoleg simulationofthermalstrengthoftheprocessofflatgrindingofworkpiecesinintermittentcircles
AT sapunovvaleriy simulationofthermalstrengthoftheprocessofflatgrindingofworkpiecesinintermittentcircles
AT ankilovandrey simulationofthermalstrengthoftheprocessofflatgrindingofworkpiecesinintermittentcircles
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