Doni Riddle, Vice President, Industrial and Marine
Marketing, The Sherwin-Williams Company
Industrial
facilities of all kinds in the United States are required to adhere to numerous
federal government standards, and the food processing industry is certainly no
exception. Because of the nature of the products they produce, food processing
plants are under closer scrutiny by regulators than many other industries.
In warehouses and light industrial areas, and in industries not involved with consumable products, having uncoated concrete floors may be a perfectly acceptable choice. But in food and beverage plants, where cleanliness and purity are paramount, it is non-negotiable that concrete floors be covered with an appropriate protective coating, very often provided by seamless, hygienic floor coating system.
The floor of a food processing facility is typically exposed to all sorts of food byproducts, including fats, hot oils, blood, sugar solutions, and natural food acids. Some of these substances can cause serious damage to concrete because of their corrosive nature. In addition, these contaminants can infiltrate uncoated concrete, resulting in uncontrolled growth of bacteria, ultimately degrading the processed food’s purity.
Consequently, coatings selected for application to food and beverage processing facility floors must be durable enough and thick enough to create a protective barrier that prevents contaminants from permeating the concrete substrate and ensures a hygienic surface.
In warehouses and light industrial areas, and in industries not involved with consumable products, having uncoated concrete floors may be a perfectly acceptable choice. But in food and beverage plants, where cleanliness and purity are paramount, it is non-negotiable that concrete floors be covered with an appropriate protective coating, very often provided by seamless, hygienic floor coating system.
The floor of a food processing facility is typically exposed to all sorts of food byproducts, including fats, hot oils, blood, sugar solutions, and natural food acids. Some of these substances can cause serious damage to concrete because of their corrosive nature. In addition, these contaminants can infiltrate uncoated concrete, resulting in uncontrolled growth of bacteria, ultimately degrading the processed food’s purity.
Consequently, coatings selected for application to food and beverage processing facility floors must be durable enough and thick enough to create a protective barrier that prevents contaminants from permeating the concrete substrate and ensures a hygienic surface.
What kind of coating?
That is the
big question that plant operators and industrial maintenance managers must
answer in order to meet government requirements and ensure a safe and sanitary
processing facility. Processors of foodstuffs face demands for hygienic
surfaces across a variety of plant areas, all with differing corrosive conditions,
such as for dry storage areas, cold storage rooms, and mixing, canning and
slaughtering areas.
Floor coating systems have been developed to meet this range of service conditions, and frequently, there are a number of systems that can be used for an application. As a result, the type of floor coating used is one of the most important product specifications a food processing plant manager can make.
Floor coating systems have been developed to meet this range of service conditions, and frequently, there are a number of systems that can be used for an application. As a result, the type of floor coating used is one of the most important product specifications a food processing plant manager can make.
Floor coating options
For years,
plant managers have come to rely on a range of specialty floor coating products
to fulfill any number of requirements. These floor coatings are available in
several formulations.
Epoxies
The FDA and
USDA have approved a broad range of epoxy flooring systems, including
high-solids or 100% solids epoxy flooring products. Epoxies may be blended with
aggregates such as marble or quartz, particularly for non-processing areas,
such as lobbies and entryways, where a clean, well-maintained look is part of
an overall plan regarding company image. These coatings are typically
trowel-applied, two-component systems. A wide variety of textures and colors
may be achieved by broadcasting aggregates to create non-slip or skid-resistant
floors.
High-solid epoxies provide outstanding protection against acids and alkalis. Fast-drying, odorless epoxy mastics, epoxy primer sealers and surfacers are among the formulations currently available. These coatings offer a number of key benefits including outstanding adhesion; an excellent ability to withstand abrasive cleaning procedures and cleaning chemicals; fast curing properties for minimized downtime of the area being treated; plus compatibility with textured, anti-slip additives. Additionally, high-solids formulations are low in Volatile Organic Compounds (VOCs).
A popular choice suitable even for clean-room floors is a self-leveling epoxy system utilizing a 100% solids binder resin with a blended aggregate, which is easily applied with a notched trowel or squeegee and back rolled with a texture roller. The system comprises a penetrating primer, an epoxy resin glaze as the binder resin, a filler with dry silica sand as the slurry aggregate and a topcoat which may be a polyamide epoxy, a stipple epoxy, a high performance pigmented epoxy or a polyurethane enamel.
When a rapid return to service is one of the paramount factors in order to minimize plant downtime, 100% solids epoxies are a wise choice for coating floors. Many operators of meat processing facilities select 100% epoxy coatings because these coatings offer strong bonding characteristics, resistance to thermal and mechanical shock, and the ability to endure frequent cleaning with hot water at high pressure. They also may be used in areas where highly acidic products are processed.
For a greater amount of chemical and heat resistance, novolacs are a good choice. Novalac is a type of epoxy that has a higher aromatic structure which gives it these qualities. Epoxy novolacs also stand up to aggressive chemical contaminants like sulfuric acid and harsh cleaning solutions.
In less demanding environments like food packaging, waterborne epoxies are a good fit since these areas don’t have the same high protection demands. In general, though, the use of waterborne epoxies for this industry is limited.
High-solid epoxies provide outstanding protection against acids and alkalis. Fast-drying, odorless epoxy mastics, epoxy primer sealers and surfacers are among the formulations currently available. These coatings offer a number of key benefits including outstanding adhesion; an excellent ability to withstand abrasive cleaning procedures and cleaning chemicals; fast curing properties for minimized downtime of the area being treated; plus compatibility with textured, anti-slip additives. Additionally, high-solids formulations are low in Volatile Organic Compounds (VOCs).
A popular choice suitable even for clean-room floors is a self-leveling epoxy system utilizing a 100% solids binder resin with a blended aggregate, which is easily applied with a notched trowel or squeegee and back rolled with a texture roller. The system comprises a penetrating primer, an epoxy resin glaze as the binder resin, a filler with dry silica sand as the slurry aggregate and a topcoat which may be a polyamide epoxy, a stipple epoxy, a high performance pigmented epoxy or a polyurethane enamel.
When a rapid return to service is one of the paramount factors in order to minimize plant downtime, 100% solids epoxies are a wise choice for coating floors. Many operators of meat processing facilities select 100% epoxy coatings because these coatings offer strong bonding characteristics, resistance to thermal and mechanical shock, and the ability to endure frequent cleaning with hot water at high pressure. They also may be used in areas where highly acidic products are processed.
For a greater amount of chemical and heat resistance, novolacs are a good choice. Novalac is a type of epoxy that has a higher aromatic structure which gives it these qualities. Epoxy novolacs also stand up to aggressive chemical contaminants like sulfuric acid and harsh cleaning solutions.
In less demanding environments like food packaging, waterborne epoxies are a good fit since these areas don’t have the same high protection demands. In general, though, the use of waterborne epoxies for this industry is limited.
Urethanes
Polyurethane
coatings continue to be popular for flooring applications in the food industry.
These coatings typically come in slurry form and tend to be somewhat more
costly up front, but their service life often outlasts other product
categories. In fact, these systems are making significant gains on epoxy and
vinyl ester flooring systems in many meat and poultry plants.
Urethane cement slurry and mortar systems provide superior resistance to thermal cycling when compared to epoxy and vinyl ester coatings in addition to providing excellent long-lasting performance. They also have very low odor during application and have a seamless, easy-to-clean surface when dry.
Another advantage provided by these mortar systems are the decorative choices available. Depending on the manufacturer, customers can request colored quartz which can be broadcast into the slurry. The quartz is used in place of silica sand is sealed with a protective clear epoxy or urethane topcoat. Other aggregates can also be used add texture.
But without a doubt, the most significant benefit offered by some mortar systems is their quick drying capabilities. With these products, plants can be returned to service in as little as six hours. However, slurries are not recommended for floors that are sloped to drain.
Urethane cement slurry and mortar systems provide superior resistance to thermal cycling when compared to epoxy and vinyl ester coatings in addition to providing excellent long-lasting performance. They also have very low odor during application and have a seamless, easy-to-clean surface when dry.
Another advantage provided by these mortar systems are the decorative choices available. Depending on the manufacturer, customers can request colored quartz which can be broadcast into the slurry. The quartz is used in place of silica sand is sealed with a protective clear epoxy or urethane topcoat. Other aggregates can also be used add texture.
But without a doubt, the most significant benefit offered by some mortar systems is their quick drying capabilities. With these products, plants can be returned to service in as little as six hours. However, slurries are not recommended for floors that are sloped to drain.
Methyl Methacrylate
MMA coatings
are also used for food and beverage facility floors because they can be applied
at relatively low temperatures, cure quickly, and are low in odor, reducing the
risk of imparting an unpleasant taste or odor to processed foodstuffs. As a
result, MMA coatings are often used in cold-storage areas such as freezer
rooms.
Polyureas
When
environments demand tough, flexible and impact resistant floors, polyurea
coatings are an excellent choice. There are 100% pure polyurea coatings
available that are USDA-acceptable and even UL-approved to the ANSI-NSF 61
Standard, so they are increasingly being used by for tanks holding potable water
as well as floor coatings for food and beverage industry floors.
All polyureas are formulated with no VOCs, have no odor and dry tack free in as little as 45 seconds. These coatings are especially useful in food processing areas since they provide a seamless and flexible surface that can withstand temperatures as low as -20°F to 250°F.
Because of their elasticity, polyurea coatings are ideal for substrates such as concrete, which tends to crack. As an elastomer, these coatings have the ability to stretch and bridge gaps up to 1/8-in. Due to this flexibility, polyurea coatings are not limited by temperature extremes. More rigid coatings tend to crack as the substrate expands or contracts because of differences in the coefficient of linear expansion.
All polyureas are formulated with no VOCs, have no odor and dry tack free in as little as 45 seconds. These coatings are especially useful in food processing areas since they provide a seamless and flexible surface that can withstand temperatures as low as -20°F to 250°F.
Because of their elasticity, polyurea coatings are ideal for substrates such as concrete, which tends to crack. As an elastomer, these coatings have the ability to stretch and bridge gaps up to 1/8-in. Due to this flexibility, polyurea coatings are not limited by temperature extremes. More rigid coatings tend to crack as the substrate expands or contracts because of differences in the coefficient of linear expansion.
Choosing a floor coating
Being armed
with an understanding of these coatings and their capabilities is one part of
selecting the right coating for the job, but there are other considerations as
well, ranging from government regulations to food taste and odor
considerations.
Regulations and Standards
USDA and NSF Probably the most important factor in floor coating selection is the need to comply with governmental requirements for the food industry in the U.S. Several agencies at the federal and state levels regularly inspect food processing facilities to make sure the products being produced for human consumption are free of impurities.
Inspections cover many issues, but among the most crucial is that floor coatings must meet or exceed exacting certain standards set by the U.S. Department of Agriculture. This agency insists that the chemical makeup of coatings used in food and beverage facilities contain only resins and additives found on their own approved list.
In addition, NSF International, an independent, non-profit organization, certifies products and writes standards for food, air, water and consumer goods.
EPA The government requirements imposed by the USDA are not the only standards food processing plant managers must keep in mind when selecting floor coatings. The Environmental Protection Agency (EPA) at both federal and state levels impose a range of standards that cover the amount of Volatile Organic Compound (VOC) emissions from floor coatings.
For example, California requires adherence to very strict standards to fight the accumulation of smog that often affects certain areas of the state, and many states in the Northeast U.S. have laws that reflect a similar concern for air quality. While many food processing facilities in the U.S. are located in states that are less stringent in their VOC-compliant rules, the industry nevertheless is generally aware of the need to be knowledgeable of VOC emissions concerns. Consequently, many food processing plant managers select coatings with low VOC emission rates even when not obligated to do so by law.
Traffic The volume and type of traffic is another important criterion in selecting a floor coating for a food processing facility. Personnel safety and potential liability issues compel food processing plant managers to ensure skid-resistant floors by using textured or grit surfaces. The degree of texture is typically determined by the conditions of operation, frequency of cleaning and maintenance, and presence of oils, greases and other potentially slippery substances.
A high-medium grade of texture for food processing makes sense since these environments are often “wet” either from cleaning agents or from the inherent exposure to oils and grease. Where high impact and heavy loads are part of the traffic pattern, a flexible membrane may be applied beneath the floor coating.
Cleaning Floors in food facilities must be thoroughly cleaned regularly, often several times daily, to keep the food processing operation pure and up to government standards. Consequently, food processing facility floor coatings must be durable enough to handle vigorous cleaning procedures, which typically include very hot water, steam, and aggressive cleaning chemicals. It is clear that only high-performance floor coatings will withstand this kind of punishing maintenance.
On a typical day in a food processing facility, floors are exposed to a variety of process chemicals as well as corrosive cleaning chemicals, primarily detergents. If a floor is subjected to only minor chemical contact, a thin film coating may suffice; however, if a floor is exposed to the variety of moisture, temperature, and chemical conditions typically found in a food processing area, it is essential that the plant manager select a thicker, more durable floor coating that can offer sufficient protection to meet those conditions.
In addition to the corrosive nature of the cleaning chemicals, the very hot, high-pressure steam used in daily cleanings can take its toll on a food processing facility floor. The pressure alone is often capable of removing a standard coating, much like what happens when a deteriorating concrete driveway is pressure-washed. Because the cleaning process is performed repeatedly and at very high temperatures, it is crucial that the coating be thick and durable.
Odors A factor not always considered by food processing plant managers is the need to avoid the transference of unwelcome odors or tastes to food products. Some foreign substances give off odors or tastes that render final food products unacceptable. Water-borne coatings are significantly less likely to emit odors that might be absorbed, thus they are generally an excellent choice for floor applications in food processing facilities.
Regulations and Standards
USDA and NSF Probably the most important factor in floor coating selection is the need to comply with governmental requirements for the food industry in the U.S. Several agencies at the federal and state levels regularly inspect food processing facilities to make sure the products being produced for human consumption are free of impurities.
Inspections cover many issues, but among the most crucial is that floor coatings must meet or exceed exacting certain standards set by the U.S. Department of Agriculture. This agency insists that the chemical makeup of coatings used in food and beverage facilities contain only resins and additives found on their own approved list.
In addition, NSF International, an independent, non-profit organization, certifies products and writes standards for food, air, water and consumer goods.
EPA The government requirements imposed by the USDA are not the only standards food processing plant managers must keep in mind when selecting floor coatings. The Environmental Protection Agency (EPA) at both federal and state levels impose a range of standards that cover the amount of Volatile Organic Compound (VOC) emissions from floor coatings.
For example, California requires adherence to very strict standards to fight the accumulation of smog that often affects certain areas of the state, and many states in the Northeast U.S. have laws that reflect a similar concern for air quality. While many food processing facilities in the U.S. are located in states that are less stringent in their VOC-compliant rules, the industry nevertheless is generally aware of the need to be knowledgeable of VOC emissions concerns. Consequently, many food processing plant managers select coatings with low VOC emission rates even when not obligated to do so by law.
Traffic The volume and type of traffic is another important criterion in selecting a floor coating for a food processing facility. Personnel safety and potential liability issues compel food processing plant managers to ensure skid-resistant floors by using textured or grit surfaces. The degree of texture is typically determined by the conditions of operation, frequency of cleaning and maintenance, and presence of oils, greases and other potentially slippery substances.
A high-medium grade of texture for food processing makes sense since these environments are often “wet” either from cleaning agents or from the inherent exposure to oils and grease. Where high impact and heavy loads are part of the traffic pattern, a flexible membrane may be applied beneath the floor coating.
Cleaning Floors in food facilities must be thoroughly cleaned regularly, often several times daily, to keep the food processing operation pure and up to government standards. Consequently, food processing facility floor coatings must be durable enough to handle vigorous cleaning procedures, which typically include very hot water, steam, and aggressive cleaning chemicals. It is clear that only high-performance floor coatings will withstand this kind of punishing maintenance.
On a typical day in a food processing facility, floors are exposed to a variety of process chemicals as well as corrosive cleaning chemicals, primarily detergents. If a floor is subjected to only minor chemical contact, a thin film coating may suffice; however, if a floor is exposed to the variety of moisture, temperature, and chemical conditions typically found in a food processing area, it is essential that the plant manager select a thicker, more durable floor coating that can offer sufficient protection to meet those conditions.
In addition to the corrosive nature of the cleaning chemicals, the very hot, high-pressure steam used in daily cleanings can take its toll on a food processing facility floor. The pressure alone is often capable of removing a standard coating, much like what happens when a deteriorating concrete driveway is pressure-washed. Because the cleaning process is performed repeatedly and at very high temperatures, it is crucial that the coating be thick and durable.
Odors A factor not always considered by food processing plant managers is the need to avoid the transference of unwelcome odors or tastes to food products. Some foreign substances give off odors or tastes that render final food products unacceptable. Water-borne coatings are significantly less likely to emit odors that might be absorbed, thus they are generally an excellent choice for floor applications in food processing facilities.
