Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Nielson, UT
Asa Staples Nielson, Orem, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20100010089 | SYSTEM AND METHOD FOR PRODUCTION AND USE OF FULVIC ACID - A method and system for producing fulvic acid and humic acid comprises extracting a liquid from an organic compost mixture. The liquid may be extracted by collecting liquid that percolates from the organic compost mixture or by separating liquid from solid components in the organic compost mixture. The extracted product comprises fulvic acid in an amount of at least 4% by weight, and more specifically at least 7%, and humic acid in an amount less than approximately 3% by weight. | 01-14-2010 |
Daniel B. Nielson, Tremonton, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20080229963 | REACTIVE MATERIAL ENHANCED MUNITION COMPOSITIONS AND PROJECTILES CONTAINING SAME - A reactive material that includes at least one of a fuel, an oxidizer, and a class 1.1 explosive and is formulated for use in a reactive material projectile. The reactive material is formulated to provide at least one of an overpressure of greater than approximately 9 pounds per square inch at a radial measurement of 12 inches from a point of impact on a target, a hole greater than approximately 2 square inches at an optimum penetration level in a target, and pressure, damage, and a flame when the reactive material bullet impacts a target. The fuel may be a metal, a fusible metal alloy, an organic fuel, or mixtures thereof. The oxidizer may be an inorganic oxidizer, sulfur, a fluoropolymer, or mixtures thereof. A reactive material projectile having the reactive material disposed therein is also disclosed. | 09-25-2008 |
| 20090117501 | METHODS OF FABRICATING AND IGNITING FLARES INCLUDING REACTIVE FOIL AND A COMBUSTIBLE GRAIN - Flares include grain assemblies comprising a combustible grain and a reactive foil positioned at least proximate to the grain and configured to ignite combustion of the grain upon ignition of the reactive foil. The reactive foil may include alternating layers of reactive materials. Methods of fabricating flares include at least partially covering an exterior surface of a combustible grain with a reactive foil to form a grain assembly, and inserting the grain assembly at least partially into a casing. The reactive foil may include alternating layers of reactive materials that are configured to react with one another in an exothermic chemical reaction upon ignition. Furthermore, methods of igniting a flare grain include initiating an exothermic chemical reaction between alternating layers of reactive materials in a reactive foil located proximate to the flare grain. | 05-07-2009 |
| 20090211484 | WEAPONS AND WEAPON COMPONENTS INCORPORATING REACTIVE MATERIALS AND RELATED METHODS - Weapons, weapon components and related methods are provided. In one embodiment a weapon component includes one or more discrete fragments embedded in a reactive material matrix. The weapon component may be used as a warhead that includes an explosive charge. In one embodiment the weapon component is configured such that, upon explosive launch, the reactive material matrix fractures to define one or more reactive material matrix fragments. The weapon component may be configured such that the discrete fragments are propelled at a first velocity over a defined distance while the reactive material matrix fragments are propelled at a second velocity over the defined distance, the second velocity being less than the first velocity. The weapon component may be used, for example, in a countermeasure weapon used to defeat a target weapon. Other embodiments of weapon components, weapons and related methods are also disclosed. | 08-27-2009 |
| 20100276042 | REACTIVE COMPOSITIONS INCLUDING METAL - A precursor composition of a reactive material that comprises a metal material and an energetic material, such as at least one oxidizer or at least one class 1.1 explosive. The metal material defines a continuous phase at a processing temperature of the precursor composition and the energetic material is dispersed therein. The metal material may be a fusible metal alloy having a melting point ranging from approximately 46° C. to approximately 250° C. The fusible metal alloy may include at least one metal selected from the group consisting of bismuth, lead, tin, cadmium, indium, mercury, antimony, copper, gold, silver, and zinc. The reactive composition may have a density of greater than approximately 2 g/cm | 11-04-2010 |
Joseph Nielson, Provo, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20110013983 | End of a Moldboard Positioned Proximate a Milling Drum - In one aspect of the present invention, the present invention is a system for removing aggregate from a paved surface. The system includes a motorized vehicle with a degradation drum that is connected to the underside of the vehicle. The degradation drum is enclosed by a milling chamber. The milling chamber is defined by having a plurality of plates, including a moldboard positioned rearward of the milling drum. The moldboard comprises an end that is disposed opposite the underside. The end comprises a section that is proximate the milling drum. | 01-20-2011 |
| 20110013984 | End of a Moldboard Positioned Proximate a Milling Drum - In one aspect of the present invention, the present invention is a system for removing aggregate from a paved surface. The system includes a motorized vehicle with a degradation drum that is connected to the underside of the vehicle. The degradation drum is enclosed by a milling chamber. The milling chamber is defined by having a plurality of plates, including a moldboard positioned rearward of the milling drum. The moldboard comprises an end that is disposed opposite the underside. The end comprises a section that is proximate the milling drum. | 01-20-2011 |
Lewis A. Nielson, Murray, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20100265699 | TRAFFIC SAFETY CONE INCORPORATING A FLASHING LIGHT MODULE - A traffic safety cone incorporating a flashing light module includes electrically coupled first and second modules. The first module includes a solar cell array positioned atop an upper surface of a circular mounting member, a resilient, impact cushioning bumper that surrounds the mounting member, and a high-intensity LED flasher unit having a cylindrical base. The circular disk is secured to the top of the flasher unit, and the cylindrical base fits into the top of a traffic cone that has been truncated for a precise fit. The second module includes a truncated cone-shaped housing, electrical batteries installed within the housing, battery charging circuitry and an ON/OFF switch. The second module and a module retainer plate, which also functions as a battery cover, are installed in that order in the bottom of the traffic safety cone and are secured to the first module with threaded securing rods. | 10-21-2010 |
Scott L. Nielson, Layton, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20090092310 | SYSTEM AND METHOD FOR PRECISION FIT ARTIFICIAL FINGERNAILS - A system and method for creating precision fit artificial fingernails is disclosed. Specifically, a system is disclosed that utilizes a scanned and digitized nail surface to form a precision fit three dimensional digitized artificial nail object that can be used to direct a machining device that either creates an artificial fingernail from blank stock, or to machine a custom mold that can be used to make multiple artificial fingernails having the same shape. | 04-09-2009 |