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Smart Coatings Boost High-Performance Building Enclosures

WEDNESDAY, JULY 6, 2022

By Karine Galla


What could be better than a high-performance coating for a building enclosure? How about a finish or coating system that delivers responsiveness and functionality for exterior surfaces over the life of the building? These coatings would sense and react to various stimuli such as weather, ultraviolet (UV) light, pressure, heat and the like, bringing new and active capabilities such as corrosion resistance, antimicrobial action, self-cleaning and self-healing, among others.

Fortunately, these “smart coatings” do exist and are viable and available for commercial use today. While most regular building coatings are formulated to be inert, highly stable and resistant, research and development initiatives are driving a wave of innovations in exterior finishes and engineering products that are far smarter than ever seen before. Many of these valuable functions mirror scientific principles found in nature. In fact, the increased development of materials using biomimicry is leading to a range of new, smart coatings and some reflect advances in materials chemistry and nano-scale fabrication seen over the last two decades. Smart coating functionality typically becomes activated in some way by sensing environmental stimuli. These triggers may be of a physical nature, such as impact, or of a chemical nature, such as pH changes.

Courtesy of Sto. Corp.

In fact, the increased development of materials using biomimicry is leading to a range of new, smart coatings and some reflect advances in materials chemistry and nano-scale fabrication seen over the last two decades.

Using lifecycle costing and other methods, project teams and building scientists have evaluated the positive economic impact of using smart coatings. One group of researchers, for example, used a comparative feasibility study of self-cleaning coatings and ordinary coatings “to see which one could be more feasible and reduce the annual cost over the long run and be more eco-friendly as a smart finishing material for buildings.” Over a two-decade installation, they found the smart coating would save almost 80% in total cost of ownership over a standard coating product.

What’s the best way to assess the need for smart coatings and the potential benefits of the products and coating systems considered? Building project teams should begin by considering six factors that impact the exterior of a building.

These include:

  • Mechanical action, such as hail on the outside and swelling on the inside, as well as building movement;
  • Air pollution, including organics such as Nitrogen Oxides and mineralic materials like dust;
  • Biological contaminants, such as mildew or fungal growth;
  • Bulk water—rain and dew—as well as snow, humidity and other moisture and water vapor;
  • Temperature effects due to climate and fire; and
  • Light impacts, including UV, visible, and infrared rays.

After this analysis, it is valuable for project teams including the owner, designer and contractor to evaluate available coating materials, including smart coatings, and their ability to increase performance and both enhance long-term value by extending enclosure life and by reducing maintenance needs, operational costs, and replacement or reapplication needs.

Smart coatings offer two areas of value for building owners and investors. First is an enhanced protection from external forces and degradation actions, such as icing, microbial incursion, fouling, corrosion and general damage and soiling. Second is a range of active properties that boost effectiveness, such as hydrophobicity, self-healing qualities, liquid-infused formulas, or self-altering micro-structures that adjust for tension or porosity. The most effective or smart attributes include sensing, switchable friction, dynamic adhesion and controllable hydrophobicity, according to architectural engineer Abdelaziz Mohamed, PhD.

Coatings can activate when exposed to various environmental stimuli or threshold levels of those stimuli. One example is an increased ability to shed water seen in some smart coatings, allowing the surfaces to remain cleaner for a longer period of time thanks to the movement or beading of moisture and rain. Others have been devised so these properties allow for faster drying of building enclosure surfaces, which in some circumstances can add performative and sustainable qualities. Similarly, formulations with surface reactions triggered by UV radiation have been designed to improve self-cleaning and resistance to dulling or streaking.

More than protective, smart coatings are designed with predefined properties that sense and respond to environmental and other external stimuli. This represents an advance over traditional functional coatings because these active materials change in tailored and predictable ways that have been engineered to lead to enhanced performance.

The responsive qualities of intelligent coatings have led to significant building enclosure benefits. Examples include a growing array of products for sustainable building design and operations stemming from the application of biomimetic microtechnologies in finish materials, sealants and coatings. One established advance is a highly water-repellent coating designed to function similar to a lotus leaf. As rain and moisture impact a building façade, this smart coating allows dirt particles to simply run off with the water, while the facade remains dry and attractive.

Called the “lotus effect,” by some, this technology works effectively even on the building exposures that take the brunt of weather impact. Yet the formulations are vapor-permeable, allowing the substrate to breathe naturally and resist blisters caused by trapped water vapor. The resulting coating is also UV-resistant, which improves color retention dramatically over time, further extending the product lifecycle and return on investment.

Another product category with properties similarly based on biomimetric principles can deliver rapid-drying surfaces that protect buildings better against the effects of rain, fog and dew. The environmentally friendly coatings also add a long-term safeguard against algae and fungal incursion. These performance benefits have been confirmed in comparison studies of façade paints and their drying properties by groups including Germany’s Fraunhofer Institute. Drying properties under typical environmental conditions were found to improve significantly with the smart coatings formulations.

Any review of smart coatings should incorporate these life-cycle considerations and then be supplemented by a review of sustainability prerogatives. The project team begins by considering the most essential attributes of coatings, their decorative and functional attributes. For the latter, smart coatings should offer uniquely protective features as well as enhanced durability over conventional products. For the former, decorative qualities are only valuable as long as they last -- and smart materials boost the longevity of façade cleanliness and attractiveness. Advanced coatings should also improve a building’s efficiency, including through reflectance and emissivity measures but also by cutting maintenance costs and downtime.

In addition, variables such as reliability and improvements to building lifecycle can be considered, including performance proven to meet or exceed established benchmarks. For example, savvy building owners and specifiers call for references to key ASTM standards for accelerated weathering, tensile strength and tensile bond, mold resistance, vapor permeability and flame spread, among others. The most important performance measures, such as durability and resiliency, are vital for contributing to more reliable enclosure systems and buildings. In this way, they also extend building lifecycle to boost overall investment value.

ABOUT THE BLOGGER

Karine Galla

Karine Galla is Senior Product Manager for Sto Corp. She has more than 17 years of experience in product marketing in EIFS, stucco, air and moisture barriers, and other materials. Karine has a master’s degree from the University of Lyon, France. She is multilingual and holds AWCI’s EIFS Doing it Right and Building Envelope Doing it Right certifications, as well as the ISO Internal Lead Auditor certification from Georgia Tech.

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Tagged categories: Asia Pacific; Building design; Building design software; Building envelope; Building facades; Building materials; Coating performance; Color + Design; Commercial / Architectural; EMEA (Europe, Middle East and Africa); Exterior coatings; High-performance coatings; Latin America; North America; Performance testing; Z-Continents; Coatings technology; Smart coatings

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