Cargando…

An Improved Approach to Direct Simulation of an Actual Almen Shot Peening Intensity Test with a Large Number of Shots

In existing simulations of the Almen intensity test, arc height is indirectly obtained by an equivalent method including a representative cell, a few shots and equivalent loading. Most of these equivalent methods cannot consider the transverse deformation of the strip, the complex stress state of th...

Descripción completa

Detalles Bibliográficos
Autores principales: Wang, Chengyu, Li, Weigang, Jiang, Jianjun, Chao, Xin, Zeng, Weikui, Xu, Jiang, Yang, Jie
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7697728/
https://www.ncbi.nlm.nih.gov/pubmed/33187269
http://dx.doi.org/10.3390/ma13225088
_version_ 1783615664717561856
author Wang, Chengyu
Li, Weigang
Jiang, Jianjun
Chao, Xin
Zeng, Weikui
Xu, Jiang
Yang, Jie
author_facet Wang, Chengyu
Li, Weigang
Jiang, Jianjun
Chao, Xin
Zeng, Weikui
Xu, Jiang
Yang, Jie
author_sort Wang, Chengyu
collection PubMed
description In existing simulations of the Almen intensity test, arc height is indirectly obtained by an equivalent method including a representative cell, a few shots and equivalent loading. Most of these equivalent methods cannot consider the transverse deformation of the strip, the complex stress state of the plastic hardening layer and process parameters, resulting in deviation from the actual test. This paper introduces an improved and experimentally validated discrete element model (DEM)-finite element model (FEM) to predict the actual Almen intensity. The improvement of this model is mainly reflected in the large and real number of shots involved in the actual Almen intensity test, shot–shot interactions, and real-size solid finite element model of the Almen strip. A new method for calculating the shot stream is proposed based on the test and considering test process parameters such as the mass flowrate, nozzle movement speed and nozzle–workpiece distance. The shot stream impacting the strip with a fully restrained underside was first simulated in improved DEM-FEM to bring the forming energy. As a second step, an implicit solver of the Almen strip FEM calculates the spring-back to simulate strip removal from the holder. The results achieved by the present approach are compared with the results obtained by the experimental results and those in the literature. The results show that the arc height and Almen intensity obtained by the present approach match much better with the literature than the traditional method. Some new results obtained by the improved coupling DEM-FEM method are presented. The influences of the transverse deformation and surface plastic layer on the deformation of the Almen strip are discussed. This improved method provides an alternative characterization method for precision peen forming simulation.
format Online
Article
Text
id pubmed-7697728
institution National Center for Biotechnology Information
language English
publishDate 2020
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-76977282020-11-29 An Improved Approach to Direct Simulation of an Actual Almen Shot Peening Intensity Test with a Large Number of Shots Wang, Chengyu Li, Weigang Jiang, Jianjun Chao, Xin Zeng, Weikui Xu, Jiang Yang, Jie Materials (Basel) Article In existing simulations of the Almen intensity test, arc height is indirectly obtained by an equivalent method including a representative cell, a few shots and equivalent loading. Most of these equivalent methods cannot consider the transverse deformation of the strip, the complex stress state of the plastic hardening layer and process parameters, resulting in deviation from the actual test. This paper introduces an improved and experimentally validated discrete element model (DEM)-finite element model (FEM) to predict the actual Almen intensity. The improvement of this model is mainly reflected in the large and real number of shots involved in the actual Almen intensity test, shot–shot interactions, and real-size solid finite element model of the Almen strip. A new method for calculating the shot stream is proposed based on the test and considering test process parameters such as the mass flowrate, nozzle movement speed and nozzle–workpiece distance. The shot stream impacting the strip with a fully restrained underside was first simulated in improved DEM-FEM to bring the forming energy. As a second step, an implicit solver of the Almen strip FEM calculates the spring-back to simulate strip removal from the holder. The results achieved by the present approach are compared with the results obtained by the experimental results and those in the literature. The results show that the arc height and Almen intensity obtained by the present approach match much better with the literature than the traditional method. Some new results obtained by the improved coupling DEM-FEM method are presented. The influences of the transverse deformation and surface plastic layer on the deformation of the Almen strip are discussed. This improved method provides an alternative characterization method for precision peen forming simulation. MDPI 2020-11-11 /pmc/articles/PMC7697728/ /pubmed/33187269 http://dx.doi.org/10.3390/ma13225088 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Wang, Chengyu
Li, Weigang
Jiang, Jianjun
Chao, Xin
Zeng, Weikui
Xu, Jiang
Yang, Jie
An Improved Approach to Direct Simulation of an Actual Almen Shot Peening Intensity Test with a Large Number of Shots
title An Improved Approach to Direct Simulation of an Actual Almen Shot Peening Intensity Test with a Large Number of Shots
title_full An Improved Approach to Direct Simulation of an Actual Almen Shot Peening Intensity Test with a Large Number of Shots
title_fullStr An Improved Approach to Direct Simulation of an Actual Almen Shot Peening Intensity Test with a Large Number of Shots
title_full_unstemmed An Improved Approach to Direct Simulation of an Actual Almen Shot Peening Intensity Test with a Large Number of Shots
title_short An Improved Approach to Direct Simulation of an Actual Almen Shot Peening Intensity Test with a Large Number of Shots
title_sort improved approach to direct simulation of an actual almen shot peening intensity test with a large number of shots
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7697728/
https://www.ncbi.nlm.nih.gov/pubmed/33187269
http://dx.doi.org/10.3390/ma13225088
work_keys_str_mv AT wangchengyu animprovedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT liweigang animprovedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT jiangjianjun animprovedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT chaoxin animprovedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT zengweikui animprovedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT xujiang animprovedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT yangjie animprovedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT wangchengyu improvedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT liweigang improvedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT jiangjianjun improvedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT chaoxin improvedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT zengweikui improvedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT xujiang improvedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots
AT yangjie improvedapproachtodirectsimulationofanactualalmenshotpeeningintensitytestwithalargenumberofshots