Method for producing wax microspheres
First Claim
1. A process for producing wax microspheres from molten wax, comprising,(a) flowing a hot motive liquid in which molten wax is immiscible, said motive liquid being flowed at a temperature at least 10°
- C above the final melting point of the wax, and under pressure in the range from about 300 Kpa to about 2000 Kpa, through an orifice zone into which molten wax is drawn to form a dispersion of molten wax, said pressure being sufficient to generate a pressure drop in said zone to form a dispersion of the molten wax in the hot motive liquid;
(b) supplying said molten wax to said orifice zone in an amount such that wax is the disperse phase and the hot motive liquid is the continuous phase in the dispersion formed;
(c) discharging the dispersion into a solidification liquid in which the wax is immiscible, the solidification liquid being maintained at a controlled temperature below the initial melting point of the wax;
(d) recovering a mass of essentially spherical wax microspheres having a two-tier weight distribution in which more than 50% of the cumulative weight percent of microspheres is attributable to those having a diameter greater than a predetermined diameter; and
,(e) drying the mass to recover a free-flowing mass of individual wax microspheres.
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Accused Products
Abstract
A process is disclosed for producing wax microspheres from molten wax. Hot water or other motive liquid in which molten wax is immiscible, is flowed under pressure through an orifice zone into which the molten wax is drawn to form a dispersion of molten wax. The dispersion is discharged into a liquid in which the wax is also immiscible, so that the wax solidifies. The liquid is maintained at a controlled temperature below the melting point of the wax. Essentially spherical wax microspheres are formed in the size range from 1μ to about 350μ in a two-tier weight distribution. A mass of these wax microspheres are recovered from the surface of the liquid, and dried to yield a mass of free-flowing individual wax microspheres which are used to produce a sintered porous body having a void fraction in the range from about 0.1 to 0.5. Enough smaller microspheres are lodged in the interstitial spaces between larger microspheres, resulting in a densified powder; the densified powder, in turn, when sintered, is further "autogenously" densified, forming a denser sintered body than is formed with wax powder of uniform microspheres of either the larger size only, or the smaller size only, when either of such uniform sizes are sintered by the requisite amount of laser energy.
42 Citations
7 Claims
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1. A process for producing wax microspheres from molten wax, comprising,
(a) flowing a hot motive liquid in which molten wax is immiscible, said motive liquid being flowed at a temperature at least 10° - C above the final melting point of the wax, and under pressure in the range from about 300 Kpa to about 2000 Kpa, through an orifice zone into which molten wax is drawn to form a dispersion of molten wax, said pressure being sufficient to generate a pressure drop in said zone to form a dispersion of the molten wax in the hot motive liquid;
(b) supplying said molten wax to said orifice zone in an amount such that wax is the disperse phase and the hot motive liquid is the continuous phase in the dispersion formed; (c) discharging the dispersion into a solidification liquid in which the wax is immiscible, the solidification liquid being maintained at a controlled temperature below the initial melting point of the wax; (d) recovering a mass of essentially spherical wax microspheres having a two-tier weight distribution in which more than 50% of the cumulative weight percent of microspheres is attributable to those having a diameter greater than a predetermined diameter; and
,(e) drying the mass to recover a free-flowing mass of individual wax microspheres. - View Dependent Claims (2, 3, 4, 5, 6, 7)
- C above the final melting point of the wax, and under pressure in the range from about 300 Kpa to about 2000 Kpa, through an orifice zone into which molten wax is drawn to form a dispersion of molten wax, said pressure being sufficient to generate a pressure drop in said zone to form a dispersion of the molten wax in the hot motive liquid;
Specification