Influencing Factor Analysis on the Surface Quality of Incremental Forming Parts

Surface quality control of incremental sheet forming is currently one of the hot topics. Aiming at the in-depth investigation on how the process parameters affect the surface quality of incremental forming, typical cone part is selected as the typical case to build the relationship model between sca...

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Veröffentlicht in:	Ji xie gong cheng xue bao 2013-04, Vol.49 (8), p.84-90
Hauptverfasser:	Song, Xiucheng, Lu, Bin, Chen, Jun, Wang, Yule
Format:	Artikel
Sprache:	chi
Schlagworte:	Abrasion Abrasion resistance Construction Forming Mathematical analysis Mathematical models Roughness Scallops
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creator	Song, Xiucheng Lu, Bin Chen, Jun Wang, Yule
description	Surface quality control of incremental sheet forming is currently one of the hot topics. Aiming at the in-depth investigation on how the process parameters affect the surface quality of incremental forming, typical cone part is selected as the typical case to build the relationship model between scallop height and step size under different shapes of scallop field. A mathematical model is also proposed to evaluate the abrasion effect, which is the function of scallop height, forming angle and tool radius. Investigations have been made on surface profile measurement, roughness analysis under different pre-set scallop heights, original sheet roughness values and frictional conditions, the sensitive level and the mechanisms. The experimental results demonstrate that the main reasons affecting the surface quality of incremental forming parts are ploughing effect and abrasion effect, which can be reduced by rolling friction rather sliding friction.
doi_str_mv	10.3901/JME.2013.08.084
format	Article
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Aiming at the in-depth investigation on how the process parameters affect the surface quality of incremental forming, typical cone part is selected as the typical case to build the relationship model between scallop height and step size under different shapes of scallop field. A mathematical model is also proposed to evaluate the abrasion effect, which is the function of scallop height, forming angle and tool radius. Investigations have been made on surface profile measurement, roughness analysis under different pre-set scallop heights, original sheet roughness values and frictional conditions, the sensitive level and the mechanisms. 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Aiming at the in-depth investigation on how the process parameters affect the surface quality of incremental forming, typical cone part is selected as the typical case to build the relationship model between scallop height and step size under different shapes of scallop field. A mathematical model is also proposed to evaluate the abrasion effect, which is the function of scallop height, forming angle and tool radius. Investigations have been made on surface profile measurement, roughness analysis under different pre-set scallop heights, original sheet roughness values and frictional conditions, the sensitive level and the mechanisms. 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Aiming at the in-depth investigation on how the process parameters affect the surface quality of incremental forming, typical cone part is selected as the typical case to build the relationship model between scallop height and step size under different shapes of scallop field. A mathematical model is also proposed to evaluate the abrasion effect, which is the function of scallop height, forming angle and tool radius. Investigations have been made on surface profile measurement, roughness analysis under different pre-set scallop heights, original sheet roughness values and frictional conditions, the sensitive level and the mechanisms. The experimental results demonstrate that the main reasons affecting the surface quality of incremental forming parts are ploughing effect and abrasion effect, which can be reduced by rolling friction rather sliding friction.</abstract><doi>10.3901/JME.2013.08.084</doi><tpages>7</tpages></addata></record>
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subjects	Abrasion Abrasion resistance Construction Forming Mathematical analysis Mathematical models Roughness Scallops
title	Influencing Factor Analysis on the Surface Quality of Incremental Forming Parts
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