Fundamentals and characterizations of scratch resistance on automotive clearcoats

Fundamentals and characterizations of scratch resistance on automotive clearcoats

[Display omitted] •Disclosed the advances in the method development on multi-scale instrumented scratch tests from light to severe scratches.•Delivered understanding on scaling behaviors of scratch responses and root-causes.•Connected mechanical/viscoelastic properties with scratch behaviors.•Establ...

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Bibliographic Details
Published in:Progress in organic coatings Vol. 125; pp. 339 - 347
Main Authors: Feng, Linqian, Benhamida, Beatrice (Nadia), Lu, Chen-Yuan, Sung, Li Piin, Morel, Pierre, Detwiler, Andrew T., Skelly, Jon M., Baker, Leslie T., Bhattacharya, Deepanjan
Format: Journal Article
Language:English
Published: Switzerland Elsevier B.V 01-12-2018
Elsevier BV
Subjects:
Automobile industry
Automotive clearcoats
Automotive engineering
Balances (scales)
Coefficient of friction
Contact stresses
Corrosion resistance
Deformation mechanisms
Elasto-plastic behavior
Failure analysis
Failure mechanisms
Industry standards
Innovations
Isocyanates
Mechanical properties
Nano-scratch
Physical properties
Plastic deformation
Product development
Protective coatings
Scaling behavior
Scratch resistance
Service life
Strain
Tensile tests
Test procedures
Thermal analysis
Viscoelasticity
Viscoelasticity
Automotive clearcoats
Nano-scratch
Elasto-plastic behavior
Scaling behavior
Scratch resistance
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Summary:[Display omitted] •Disclosed the advances in the method development on multi-scale instrumented scratch tests from light to severe scratches.•Delivered understanding on scaling behaviors of scratch responses and root-causes.•Connected mechanical/viscoelastic properties with scratch behaviors.•Established correlation between the industrial test method (Amtec-Kistler carwash) vs. nano-scratch test. As original equipment manufacturers (OEMs) strive to deliver improved coating performance with a sustainable footprint, opportunities for innovation are emerging, particularly on improving mechanical properties, appearance, and solids content. Resistance to scratch and mar damage is one of the key performance attributes that has been emphasized by both OEMs and consumers to maintain a vehicle’s appearance and corrosion resistance over its service lifetime. Fundamental methodologies including instrumented scratch measurements at multiple size scales are used in this work as part of a product development strategy to better understand the scratch and mar behavior of automotive topcoats. This study compares physical properties of several melamin-formaldehyde and isocyanate cured clearcoats over the appropriate basecoats. Micro- and nano-scratch techniques were employed in combination with industry standard method, Amtec-Kistler carwash to identify performance differences under different scratch conditions. Mechanical and viscoelastic properties of the coatings were studied using tensile tests and dynamic mechanical thermal analysis (DMTA) to better understand the failure mechanisms associated with plastic deformation and fracture at different scratch scales. The information gathered from the above testing protocols is used to analyze coating performance in terms of the contact strain, transitions between elastic – plastic behavior, coefficient of friction and stress localization.
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ISSN:0300-9440
1873-331X
DOI:10.1016/j.porgcoat.2018.09.011