Hussin
Ghazali Bin Hussin, Pulau Pinang MY
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20150177315 | DYNAMICALLY DETERMINING MEASUREMENT UNCERTAINTY (MU) OF MEASUREMENT DEVICES - A method is provided for dynamically determining measurement uncertainty (MU) of a measurement device for measuring a signal output by a device under test (DUT). The method includes storing characterized test data in a nonvolatile memory in the measurement device, the characterized test data being specific to the measurement device for a plurality of sources of uncertainty; receiving a parameter value of the DUT; measuring the signal output by the DUT and received by the measurement device; and calculating the measurement uncertainty of the measurement device for measuring the received signal using the stored characterized test data and the received parameter value of the DUT. | 06-25-2015 |
Kamarudin Hussin, Perlis MY
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20110290153 | ENVIRONMENT FRIENDLY COMPOSITE CONSTRUCTION MATERIALS - Disclosed are a system, a method and/or composition of environment friendly composite construction material. In one aspect, a method includes providing a mixture of a pozzolanic material and/or a kaolin clay with an activator solution to form an alumino-silicate cementitious material through a resulting geo-polymerization process. The alumino-silicate cementitious material is in the form of a paste. The method also includes processing the alumino-silicate cementitious material to transform the alumino-silicate cementitious material that is in the form of the paste to a form of a powder of the alumino-silicate cementitious material. The method further includes mixing the alumino-silicate cementitious material which is in the form of the powder with water to control a workability of the alumino-silicate cementitious material. Furthermore the method includes combining a mixture of the alumino-silicate cementitious material and water with a coarse aggregate, a fine aggregate and/or a plasticizer to form a composite construction material. | 12-01-2011 |
20120304894 | REDUCTION OF CARBON DIOXIDE IN THE MANUFACTURING OF COMPOSITE CONSTRUCTION MATERIALS - Disclosed are a system, a method and/or composition of reduction of carbon dioxide in the manufacturing of cement and concrete. In one embodiment, a method of producing a concrete, includes preparing a dried powder mixture of an alkali hydroxide, a sodium silicate, clay and a pozzolanic material. The dried powder with water may be reacted to form a cement paste. In addition, the cement paste may be mixed with at one of sand, an aggregate, a plasticizer and a nano additive to form the concrete. | 12-06-2012 |
20130260043 | METHOD OF COATING A GEOPOLYMER ONTO AN ARTICLE - A method of coating a geopolymer onto an article that is made of high heat applicable material, the method comprising the steps of providing geopolymer paste prepared from reacting fly ash-derived pozzolanic material with an alkaline activator solution; coating the geopolymer paste onto the article; curing the coated article; and sintering the cured article at a temperature ranging from 100° C. to 1500° C. | 10-03-2013 |
Kamarudin Hussin, Arau MY
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20130081557 | ENVIRONMENT FRIENDLY COMPOSITE CONSTRUCTION MATERIALS - Disclosed are a system, a method and/or composition of environment friendly composite construction material. In one aspect, a method includes providing a mixture of a pozzolanic material and/or a kaolin clay with an activator solution to form an alumino-silicate cementitious material through a resulting geo-polymerization process. The alumino-silicate cementitious material is in the form of a paste. The method also includes processing the alumino-silicate cementitious material to transform the alumino-silicate cementitious material that is in the form of the paste to a form of a powder of the alumino-silicate cementitious material. The method further includes mixing the alumino-silicate cementitious material which is in the form of the powder with water to control a workability of the alumino-silicate cementitious material. Furthermore the method includes combining a mixture of the alumino-silicate cementitious material and water with a coarse aggregate, a fine aggregate and/or a plasticizer to form a composite construction material. | 04-04-2013 |
Kamarudin Hussin, Kangar MY
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20150016895 | GEOPOLYMERIZATION METHOD FOR SOIL STABILIZATION APPLICATION - A method of soil stabilization includes mixing a geopolymer material with an alkaline activator and adding 5 to 30 percent by weight of the mixture to a soil. | 01-15-2015 |
Pakhorudin Hussin US
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20090057883 | Method and structure of minimizing mold bleeding on a substrate surface of a semiconductor package - A method and structure of minimizing mold bleeding on a substrate surface of a semiconductor package is disclosed. In one embodiment, a method includes forming a dam structure on an outer area of a substrate surface of a semiconductor package and blocking a flow of a mold material from a mold cavity of the semiconductor package to the outer area of the substrate surface using the dam structure. In another embodiment, a substrate surface of a semiconductor package includes product forming areas to provide mounting spaces of semiconductor chips and staggered offset mesh block areas surrounding the product forming areas to act as dam structures to minimize mold bleeding from a mold cavity of the semiconductor package to outer areas of the substrate surface. | 03-05-2009 |
Pakhorudin Hussin, Kedah MY
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20100258705 | METHOD AND STRUCTURE OF MINIMIZING MOLD BLEEDING ON A SUBSTRATE SURFACE OF A SEMICONDUCTOR PACKAGE - A substrate surface of a semiconductor package, comprising: a plurality of product forming areas to provide mounting spaces of semiconductor chips. The substrate surface also comprises a plurality of staggered offset mesh block areas surrounding the plurality of product forming areas. The plurality of staggered offset mesh block areas minimize mold bleeding from a mold cavity of the semiconductor package to outer areas of the substrate surface. | 10-14-2010 |
Rozana Hussin, Pittsburgh, PA US
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20150137178 | METAL-SEMICONDUCTOR-METAL (MSM) HETEROJUNCTION DIODE - In one aspect, a diode comprises: a semiconductor layer having a first side and a second side opposite the first side, the semiconductor layer having a thickness between the first side and the second side, the thickness of the semiconductor layer being based on a mean free path of a charge carrier emitted into the semiconductor layer; a first metal layer deposited on the first side of the semiconductor layer; and a second metal layer deposited on the second side of the semiconductor layer. | 05-21-2015 |