Stressed state simulation of discrete abrasive disk cutting surface-Reference-Cited by-同舟云学术

Stressed state simulation of discrete abrasive disk cutting surface

Published:2017-10-04 Issue:10 Volume:2 Page:18-23
ISSN:2223-4608
Container-title:Science intensive technologies in mechanical engineering
language:en
Short-container-title:

Author:

Морозов Алексей¹,Morozov Aleksey²,Гусев Владимир¹,Gusev Vladimir²

Affiliation:

1. Владимирский государственный университет имени Александра Григорьевича и Николая Григорьевича Столетовых

2. Vladimir State University named after Alexander and Nikolay Stoletovs

Abstract

Grinding disks with high frequency discretization of a cutting surface allow not only breaking a cutting process and de-creasing its thermal intensity, but decreasing a vibration level of a technological system which has a positive effect upon quality of a surface worked. But, for realization of intensive grinding modes these tools should possess a mechanical strength not only in the central hole, but that of a discrete cutting surface. In this connection in modern CAE-complex CosmosWorks a computer simulation of a stressed state of a cutting surface and a central hole of the grinding disk subjected to a high-frequency discretization is carried out. On the basis of the simulation results there is developed a durable tool allowing the fulfillment of discrete grinding in intensive modes.

Publisher

Bryansk State Technical University BSTU

Reference9 articles.

1. Пат. № 2520169 РФ. Способ дискретизации абра-зивного инструмента // Гусев В.Г., Морозов А.В., Метелкин О.Ю., заявл. 02.11.2012, опубл. 20.04.2014. Бюл. №9., Pat. No.2520169 the RF. Method for Abrasive Tool Discretization // Gusev V.G., Morozov A.V., Metelkin O.Yu., applied 02.11.2012, published 20.04.2014. Bull. No. 9.

2. Пат. № 2589993 РФ. Способ дискретизации режу-щей поверхности шлифовального инструмента /Морозов А.В, Гусев В.Г., заявл. 05.12.2014, опубл. 14.06.2016 Бюл. № 19., Pat. No.2589993 the RF. Method for Discretization of Grinding Tool Cutting Surface // Morozov A.V., Gusev V.G., applied 05.12.2014, published 14.06.2016. Bull. No. 19.

3. Гусев, В.Г., Морозов, А.В. Технология дискретизации рабочих поверхностей шлифовальных кругов лазером и гидрообразивной струей // Наукоемкие технологии в машиностроении. ‒ 2017. ‒ №9(73). ‒ С. 20‒27., Gusev, V.G., Morozov, A.V. Tehnologiya diskretizacii rabochih poverhnostey shlifoval'nyh krugov lazerom i gidroobrazivnoy struey // Naukoemkie tehnologii v mashinostroenii. ‒ 2017. ‒ №9(73). ‒ S. 20‒27.

4. Пат. № 2582841 РФ. Шлифовальный инструмент с дискретной режущей поверхностью // Морозов А.В., Гусев В.Г., Швагирев П.С., заявл. 05.12.2014, опубл.27.04.2016. Бюл. №12., Pat. No.2582841 the RF. Polishing Tool with Discrete Cutting Surface// Morozov A.V., Gusev V.G., Shvagirev P.S., applied 05.12.14, published 27.04.2016. Bull. No.12.

5. Gusev V.G., Morozov A.V., Shvagirev P.S. Evaluating discrete wheels and their influence on grinding dynamics (2009). Russian Engineering Research, 29(8), pp.835 – 837., Gusev V.G., Morozov A.V., Shvagirev P.S. Evaluating discrete wheels and their influ-ence on grinding dynamics (2009). Russian Engineering Research, 29(8), pp.835 – 837.