Weathering, salt spray corrosion and mar resistance mechanism of clay (nano-platelet) reinforced polyurethane nanocomposite coatings

TRADELABOR has more than 20 years of experience in the control and treatment of air, working with an experienced and qualified technical staff and with the most advanced technology in this area, which together guarantee the quality of the services provided.

 

 

In an current work physical, structural and chemical aspects have been investigated for PU and PU-nanoclay coatings. Nanoclay protects PU chains and functional groups against degradation.

Performance properties like weathering and corrosion resistance are critical for automotive top coats. Using two types of clays Cloisite 30B(C30B) and Cloisite 20 A(C20 A), a 2 K polyurethane (PU) pack coating formulation was modified at nanoscale.

These coatings show better resistance to salt spray (500 h) and accelerated weathering conditions (1000 h). When observed under atomic force microscopy (AFM) nanoscale morphology of these nanocomposite coatings show globular (C30B) and rod-like (C20 A) hard segment formation of size200 nm, which compared to pristine PU coatings are more uniformly formed and evenly distributed across the microscale surface (surface texturing).

Better performance of nanocomposite coatings

Visual, spectroscopic and chemical analysis confirmed better performance of nanocomposite coatings under ultraviolet/humidity and salt cycles. Dry film thickness and gloss; dft1000(G[1000]) was reduced by 25% (32%) for pure PU, 14.03% (16.7%) for PU-3C30B and 20% (22.7%) for PU-3C20 A respectively. The overall colour difference in CIELab values ΔE* was 9.794, 7.623 and 8.450 for PU, PU-3C30B and PU-3C20 A.

Salt spray (500 h) rusted about 35% area of mild steel (ms panels) for PU, while for PU-3C30B and PU-3C20 A it was only 5% and 10% respectively. Fourier transform infrared (FTIR) shows better retention of functional groups in aged and corroded nanocomposite coatings versus pristine coatings. This proves that two dimensional clay particles when duly exfoliated interact with hard segments and play a significant role in resisting weathering forces, salt spray corrosion and even mar.

Continue at: https://www.european-coatings.com/Raw-materials-technologies/Technologies/Weathering-salt-spray-corrosion-and-mar-resistance-mechanism-of-clay-nano-platelet-reinforced-polyurethane-nanocomposite-coatings/(cpg)/LA0093?cpg=LA0093&utm_source=newsletter&utm_medium=email&utm_campaign=EC-NL-2019-04-24&utm_content=Weathering-salt-spray-corrosion-and-mar-resistance-mechanism-of-clay-nano-platelet-reinforced-polyurethane-nanocomposite-coatings&uid=678731

Manostaxx
Manostaxx

 

http://www.manostaxx.com

 

 

Leave a Reply

Your email address will not be published. Required fields are marked *