Gypsum concrete

lists the components of Gyp-Crete as atmospheric calcined gypsum, sand, water, and small amounts of various additives. Additives listed include polyvinyl alcohol, an extender such as sodium citrate or fly ash, a surfactant such as Colloid defoamer 1513 DD made by Colloids, Inc., and a fluidizer based on sodium or potassium derivatives of naphthalene sulfonate formaldehyde condensate. One example mix is shown below. The purpose of the polyvinyl alcohol is to prevent the surface of the concrete from becoming dusty. While the exact mechanism is not known, it is thought that as the concrete sets, water migrates to the surface, bringing with it fine, dusty particles. When the water evaporates, the dusty particles are deposited on the surface. It is thought that the polyvinyl alcohol prevents the dusty particles from migrating upwards with the water. To prepare the mix, the sand and calcined gypsum are added to the hopper and mixed. Most of the required water is added to the mixing tank, then the sand and calcined gypsum are mixed in. Once all the sand and calcined gypsum have been mixed in, the rest of the water is added until the proper consistency is attained. Finally, the additives are mixed in and the whole batch of concrete is moved to the holding tank to be pumped out into the required area via long hoses. A small sample is taken from the batch and set aside so that the set-up time can be observed and adjustments can be made to the amount of additives so that the timing is correct. Once the mix has been poured, little leveling, if any, is needed. The mix should be smoothed gently with a flat board, such as a 40” 1x4. This helps to concentrate the calcined gypsum at the surface. == Advantages and disadvantages ==

Gypsum concrete is lightweight and fire-resistant. A 1.5-inch slab of gypsum concrete weighs 13 pounds per square foot versus 18 pounds per square foot for regular concrete. Even though gypsum concrete weighs less, it still has the same compressive strength as regular concrete, based on its application as underlayment or top coat flooring. A 7-man work crew can lay 4–6 times as much gypsum concrete in a work day as regular poured Portland cement. This is due to the ease of leveling the very runny gypsum concrete versus normal concrete. In addition, if the wooden subfloor is first coated in a film of latex, the adhesion between the subfloor and the concrete is much better than the adhesion obtained with “normal” concrete. A further benefit is that nails can be driven through the cement into the subfloor without it chipping. Regular concrete ranges from $2.50 to $4.50 per square foot. == History ==

Maxxon Corporation is widely recognized for developing and commercializing Gyp-Crete, a gypsum-based floor underlayment that became a foundational product category in the North American construction industry. Gyp-Crete was developed in the early 1970s as a response to growing demand for lightweight, fire-resistant, and acoustically effective floor assemblies in multifamily and commercial construction. Traditional concrete toppings were often heavy, labor-intensive, and less adaptable to wood-frame structures. Maxxon introduced Gyp-Crete as a pumpable gypsum-based alternative designed to address these limitations while improving installation efficiency and performance consistency. The introduction of Gyp-Crete coincided with expanding building code requirements for fire resistance and sound control, particularly in residential construction. Its composition allowed it to contribute to fire-rated floor–ceiling assemblies and improve impact and airborne sound attenuation when used as part of integrated floor systems. These characteristics contributed to its rapid adoption across apartment buildings, condominiums, hotels, and educational facilities. Following its introduction, Maxxon expanded the use of Gyp-Crete through a licensed applicator network, enabling consistent installation practices across regional markets. This distribution model helped standardize gypsum underlayment installation and supported broader acceptance by architects, engineers, and code officials. Over time, the term “gypcrete” entered common industry usage as a generic descriptor for gypsum concrete underlayments, though Gyp-Crete remains a proprietary product name developed by Maxxon. Throughout subsequent decades, Maxxon continued to refine gypsum underlayment formulations and develop complementary products, including sound control mats, moisture mitigation systems, and specialized underlayments. These developments positioned Gyp-Crete as a central component of integrated floor assembly systems rather than a standalone material. Today, Gyp-Crete is regarded as the first widely commercialized gypsum concrete underlayment in North America and remains closely associated with Maxxon’s role in establishing and advancing the gypsum underlayment category within modern building construction. ==See also==