Colloid systems and wetting agents; subcombinations thereof; pro – Continuous liquid or supercritical phase: colloid systems;... – Aqueous continuous liquid phase and discontinuous phase...
Reexamination Certificate
2002-08-07
2004-08-10
Stein, Stephen (Department: 1775)
Colloid systems and wetting agents; subcombinations thereof; pro
Continuous liquid or supercritical phase: colloid systems;...
Aqueous continuous liquid phase and discontinuous phase...
C516S126000, C516S909000, C106S678000, C106S680000
Reexamination Certificate
active
06774146
ABSTRACT:
FIELD OF INVENTION
The present invention relates to a dispersant and foaming agent combination that is useful in the production of gypsum wallboard and other aqueous cementitious products, a method of forming a gypsum wallboard and a gypsum wallboard.
BACKGROUND OF THE INVENTION
Gypsum wallboard is used in the construction of residential and commercial buildings to form interior walls and ceilings. Because it is relatively easy to install and requires minimal finishing, gypsum wallboard is preferred over plaster in almost all applications.
Gypsum wallboard consists of a hardened gypsum-containing core surfaced with paper or other fibrous material suitable to receive a coating such as paint. It is common to manufacture gypsum wallboard by placing an aqueous core slurry comprised predominantly of calcined gypsum between two sheets of paper thereby forming a sandwich structure. The aqueous gypsum core slurry is allowed to set or harden by rehydration of the calcined gypsum, usually followed by heat treatment in a dryer to remove excess water.
Conventionally in the manufacture of gypsum board, a pre-generated foam is added to the board core slurry mix to decrease the weight of the gypsum board. This foam is generated from a mixture of a liquid foaming agent, air and water in a suitable foam generating apparatus. The foamed gypsum slurry is then deposited upon a moving paper substrate, which, itself, is supported on a long moving belt. A second paper substrate is then applied on top of the slurry to constitute the second face of the gypsum board and the sandwich passes through a forming station, which determines the width and thickness of the gypsum board. In such a continuous operation the gypsum slurry begins to set immediately after passing through the forming station. When sufficient setting has occurred the board is cut into commercially acceptable lengths and then passed into a board dryer. Thereafter the board is trimmed, bundled, shipped, and stored prior to sale.
The majority of gypsum wallboard is sold in sheets that are four feet wide and eight feet long. The thickness of the sheets varies from about one-quarter inch to about one inch depending upon the particular grade and application, with a thickness of about one-half inch being most common. A variety of sheet sizes and thicknesses of gypsum wallboard are produced for various applications.
Gypsum wallboard is relatively dense (approximately 43.2 lbs/ft
3
), which equates to an overall weight of about 1,800 pounds per thousand square feet of one-half inch wallboard. Weight, rather than volume, determines the amount of gypsum wallboard that can be shipped by truck, and freight charges add significantly to the final cost of gypsum wallboard. Thus, it would be highly desirable to be able to reduce the overall weight of gypsum wallboard so that additional sheets could be shipped per truck. In addition, a lighter gypsum wallboard would be easier to handle and install at building sites.
As noted above, it is common practice to introduce air bubbles into the aqueous gypsum core slurry to create voids in the hardened core. The introduction of air bubbles reduces the density of the gypsum wallboard and also reduces the amount of water necessary to produce a workable core slurry. Air bubbles are typically formed via the addition of foaming agents during the formation of the slurry or by adding externally generated foam to the slurry. The externally generated foam is normally produced by incorporating air or other gas into an aqueous solution of a foaming agent, which is then mixed with the slurry. Commercial gypsum wallboard typically contains about 70% air (or void space) by volume. About 30% of that volume results from entrained air bubbles that are formed via the use of foaming agents.
As noted in Jobbins, U.S. Pat. No. 6,171,388, as the volume of air bubbles in gypsum wallboard increases, the strength of the wallboard tends to dramatically decrease, making the wallboard commercially unacceptable. Jobbins further notes at col. 1, lines 42-45, that “[e]xperience has taught that entrainment of air alone will not product a sufficiently improved lightweight wallboard that has adequate strength.” Generally speaking, a gypsum wallboard must be able to pass the objective testing criteria set forth in the ASTM C36 and C473-00 standards in order to be commercially acceptable.
Prior art attempts to reduce the weight of gypsum wallboard have involved dispersing lightweight particles (e.g., expanded vermiculite, perlite, or expanded thermoplastic polymeric resins) into the aqueous gypsum core slurry, or more recently, incorporating a latex emulsion and an excess amount of a nonionic surfactant or an acrylic polymer into the aqueous gypsum core slurry. Some of these methods are effective at reducing the overall weight of the gypsum wallboard, but are expensive and/or present other problems. Thus, prior art efforts to create lightweight gypsum wallboard have met with limited success.
In addition to freight costs discussed above, another significant factor adding to the final cost of gypsum wallboard is the energy required to remove excess water from the slurry during curing and drying. A certain amount of water is required to hydrate the dry calcined gypsum material, but in order to obtain a smooth, free-flowing, low viscosity mixture that can be formed into a sheet in a mold, it has been necessary to add two or three times as much water to the slurry as is needed for hydration. It would be highly desirable to reduce the amount of excess water that is necessary during the production of gypsum wallboard.
SUMMARY OF INVENTION
The present invention provides a dispersant and foaming agent combination that is useful in the production of gypsum wallboard and other aqueous cementitious products, a method of forming a gypsum wallboard and a gypsum wallboard. The dispersant and foaming agent combination according to the invention increases the void size of air that is entrained in the gypsum wallboard increasing the strength of the wallboard (via nail pull), thereby allowing one to reduce the density and overall weight of the final product. Furthermore, the dispersant and foaming agent combination according to the invention reduces the amount of water required to obtain a free-flowing aqueous core slurry, which reduces the energy costs necessary to cure and dry the gypsum wallboard thereby decreasing production time.
The dispersant used in the combination according to the invention is a naphthalene sulfonate-aldehyde condensate alkali salt polymer having a weight average molecular weight of from about 17,000 to about 47,000. The alkali is preferably an alkali metal and/or an alkaline earth metal. The aldehyde is preferably formaldehyde. The foaming agent used in the combination according to the invention is a soap, and preferably an alkali salt of an alkyl ether sulfate and/or an alkyl sulfate.
Conventional dispersants used in the production of gypsum wallboard typically have a weight average molecular weight of from about 8,000 to about 14,000. At these molecular weights the molecular weight differences have negligible effect on efficiency of the dispersant, and at this molecular weight, there is virtually no detectable interaction between the dispersant and foaming agents. Applicants have surprisingly discovered that when a higher molecular weight dispersant is used, the dispersing effect is increased, and an synergistic interaction occurs between the dispersant and the foaming agent that produces a gypsum wallboard core effect that more efficiently entrains air (i.e., creates void space).
The core of a gypsum wallboard formed using the dispersant and foaming agent combination according to the invention includes large air bubbles (i.e., large void spaces) with small air bubbles (i.e., small void spaces) dispersed throughout. Despite the substantial increase in the volume of air bubbles or void spaces in the hardened core, gypsum wallboard formed using the dispersant and foaming agent combination according to the invention exhibits a hi
Elko Dawn P.
McCrary James
Savoly Arpad
Veal Bennie
GEO Specialty Chemicals, Inc.
Rankin, Hill Porter & Clark LLP
Stein Stephen
LandOfFree
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