Influence of Friction Coefficient on the Performance of Cold Forming Tools

The automotive industry has undergone significant advancements and changes over time, resulting in the use of more complex parts in modern vehicles. As a consequence, the parts used in the manufacturing process are subject to higher stress levels, which reduce their service life. To mitigate this is...

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Published inMetals (Basel ) Vol. 13; no. 5; p. 960
Main Authors Barba, Eneko, Salcedo, Daniel, Claver, Adrian, Luri, Rodrigo, Garcia, Jose A.
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.05.2023
Subjects
Automobile industry
Automobiles
coatings
Coefficient of friction
Cold
Cold working
Cost control
Deformation
Field tests
finite element method
forming
Friction
friction coefficient
Friction reduction
Manufacturing
Mathematical analysis
Mechanical properties
Metal forming
Service life
Shear strength
Shear stress
Simulation
Stress (Psychology)
Stress analysis
Surface treatment
Tool life
Tool wear
Tooling
wear
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ISSN2075-4701
2075-4701
DOI10.3390/met13050960

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Abstract The automotive industry has undergone significant advancements and changes over time, resulting in the use of more complex parts in modern vehicles. As a consequence, the parts used in the manufacturing process are subject to higher stress levels, which reduce their service life. To mitigate this issue, surface treatments can be applied to improve the mechanical properties of the tools. In this study, we examined the impact of surface treatments on reducing tool stress during a cold forming process. The process involved reducing the thickness of a sheet from 6 mm to 2.5 mm, which generated high stresses in the tooling. We used finite element stress calculations to analyze the process and found that by reducing the friction coefficient to 0.1, tool stresses can be reduced by 20%, leading to an increase in tool life. Moreover, the press force and tool wear were also reduced by 18%. To validate the theoretical calculations, we performed field tests in a real manufacturing process.
AbstractList The automotive industry has undergone significant advancements and changes over time, resulting in the use of more complex parts in modern vehicles. As a consequence, the parts used in the manufacturing process are subject to higher stress levels, which reduce their service life. To mitigate this issue, surface treatments can be applied to improve the mechanical properties of the tools. In this study, we examined the impact of surface treatments on reducing tool stress during a cold forming process. The process involved reducing the thickness of a sheet from 6 mm to 2.5 mm, which generated high stresses in the tooling. We used finite element stress calculations to analyze the process and found that by reducing the friction coefficient to 0.1, tool stresses can be reduced by 20%, leading to an increase in tool life. Moreover, the press force and tool wear were also reduced by 18%. To validate the theoretical calculations, we performed field tests in a real manufacturing process.
Audience Academic
Author Barba, Eneko
Salcedo, Daniel
Claver, Adrian
Garcia, Jose A.
Luri, Rodrigo
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CitedBy_id crossref_primary_10_3390_coatings14020159
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Snippet The automotive industry has undergone significant advancements and changes over time, resulting in the use of more complex parts in modern vehicles. As a...
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StartPage 960
SubjectTerms Automobile industry
Automobiles
coatings
Coefficient of friction
Cold
Cold working
Cost control
Deformation
Field tests
finite element method
forming
Friction
friction coefficient
Friction reduction
Manufacturing
Mathematical analysis
Mechanical properties
Metal forming
Service life
Shear strength
Shear stress
Simulation
Stress (Psychology)
Stress analysis
Surface treatment
Tool life
Tool wear
Tooling
wear
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Title Influence of Friction Coefficient on the Performance of Cold Forming Tools
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