Concrete Protection 101

ConcreteDuring the last thirty years, the protection of concrete floors has gone from essentially nothing to a fairly sophisticated process of some type of protective coating or surfacing. The main purpose, of course, is to provide protection to the slab from deterioration or contamination, or to provide some added benefit such as aesthetics, wear, non-skid, chemical resistance, ease of maintenance, physical performance, and a myriad of other properties. We must remember that no other surface in a building takes more abuse than floors, regardless of the type of building, whether it be industrial or commercial.

Floors are subjected to just about every kind of abuse – impact, abrasion, chemical attack, and thermal shock. Concrete floors are not designed to take this continual abuse. Concrete floors are porous and tend to create dust from wear and abuse. They are also subject to abrasion and chemical attack. It’s for this reason that all concrete needs some sort of protection regardless of where it’s located. The problem, in the overall picture, is to determine what type of protective material to choose for the various conditions.

The problem for most decision makers today, whether it be architects or facility managers, is to choose the most effective material and application that will result in the best performance and lowest life cycle cost. It is increasingly clear that these individuals must rely on knowledgeable people to assist in proper selection, application, and maintenance of the floor coating. The flooring specialist can guide the owner in proper material, application, and long-term performance, thereby reducing the long-term cost of floor maintenance.

Total floor protection should be part of any study or evaluation for new or old concrete floor protection. The thorough process for selecting a coating or topping system, the writing of a detailed specification, and the preparation of detailed application procedures and final acceptance criteria will give the owner a basis for choosing the right system. There is a very complete selection process to narrow the search for the right product and application for floor coatings. Remember, you must not only select the material, but also a total system in terms of application, total thickness, and aesthetics.

Material Selection Process
1.  Evaluate the surface

The flooring specialist must be able to provide a complete program from conception to long-term maintenance.

The first step in the selection process is to evaluate the existing surface to determine what you are working with. The surface must be structurally sound, clean, and must not be contaminated with any foreign material that could interfere with the bond of a new coating system. It is also important to remember that new concrete requires proper preparation just as does any old surface. Curing compounds must be removed, a proper profile or roughness achieved, and any surface laitance removed.

2.  Consider the Performance Conditions

There are four major areas of abuse that will dictate what a flooring system needs:

Chemical Exposure. Severity of exposure and types of chemicals are both very important. Materials differ widely in chemical resistance, making identifying the exposure very important. Common splash and spills also are far less critical than constant immersion.

Abrasion. The amount of wear or traffic a surface will take is an important criterion. Whether there will be steel-wheeled traffic or rubber-wheeled traffic is critical. Any surface exposed to steel-wheeled traffic requires special treatment for long-term wear.

Impact. Heavy loads and direct impact require a heavier build or thicker floor system.

Thermal Shock. Temperature fluctuation or thermal shock is an important condition that must be considered. Thermal shock, such as steam cleaning of the floor surface, will cause a loss of bond from thermal expansion if the floor system is not chosen properly. The coefficient of expansion of most coating systems is much higher than for concrete and must be carefully considered when selecting a material.

Once you have identified the degree of severity of the major areas of abuse, you must rank them in order of importance for the particular project. This will provide a major focus for what is needed in terms of material and applied thickness. The last of the material selection process is possibly the most important. It involves how the coating project is going to look aesthetically, how it’s to be applied, what the time frame for installing the system may be, and last, but certainly not least, what are the budget parameters.

3.  Other considerations

Other considerations are often overlooked when selecting or specifying a floor coating system. These lesser considerations don’t necessarily contribute to the function of the system, but are important as far as being able to install a particular system and assuring owner satisfaction.

Aesthetics. The final appearance of the floor surface is more important than many people perceive it to be. How an owner thought the floor was going to look versus the final appearance is sometimes widely divergent. Today, the same performance characteristics can be obtained with a variety of decorative appearances and surface textures.

Installation parameters. In many cases, a flooring project has a very tight installation schedule. This limits many systems in how long it takes to install a given material. In occupied areas, the odor of some solvent-based systems or the inherent odor of the material itself will limit its use. Temperature of the surface at the time of installation is critical in selecting a material. Some systems, such as epoxies, are very temperature-sensitive and can vary widely in cure time at lower temperatures.

Life expectancy. Owners want a flooring system that will last forever, and will be guaranteed. In actuality, a given system will require maintenance periodically. Maintenance procedures must be clearly outlined and understood for a realistic life expectancy.

Economics. Economy is the top requirement. At times, low-cost systems will prevail at the expense of more durable systems. Generally, when other parameters are exhausted, you get what you pay for. Another generally accepted maxim is that the thicker the applied system, the better the performance.

The selection process can narrow the thickness and the appearance requirements. Polymer type, however, becomes more difficult and may require assistance to review data and compare performance.

There are thousands of formulations for various polymer coatings for concrete. Each one is different from the next one. Epoxies and polyurethanes are the most commonly used polymers. In each type, performance and data vary significantly. As a very general comparison, however, urethanes are used for thin film to high build coatings, have excellent abrasion and wear resistance, excellent gloss retention, and good to excellent stain and chemical resistance. Some urethanes have excellent elastomeric properties and, together with their low permeability, are used extensively in waterproofing applications. Most urethanes are solvent-containing coatings. Recent governmental mandates by the Occupational Safety and Health Administration and the Environmental Protection Agency have made it necessary to lower their volatile organic compound content.

Epoxy formulations used in concrete floor coatings typically are 100% non-volatile (no solvent), have excellent adhesion, good to excellent chemical and abrasion resistance, and excellent mechanical properties. Applications include bonding adhesives, crack repair, concrete coatings, toppings, and overlays.

Recently, combinations and epoxy/urethane hybrids have given polymer materials good to excellent thermal and stress relieving properties and impact resistance. To more specifically compare polymer types would require discussing each thickness classification individually.

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