Iyad
Iyad Alhayed, Schaumburg, IL US
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20080236782 | THERMAL DISSIPATION IN CHIP - A system for dissipating heat from a semiconductor board includes a first substrate including an opening formed therein, a second substrate attached to a surface of the first substrate, and a microchip positioned in the opening and bumped to the second substrate. The system further includes a heat sink directly adhered to the microchip. A method of manufacturing a heat dissipating semiconductor board includes forming an opening in a first substrate and positioning a microchip in the opening. The method further includes directly adhering the microchip to a heat sink, bonding the microchip to a second substrate and boding a surface of the first substrate to the second substrate. | 10-02-2008 |
20130105962 | THERMAL DISSIPATION IN CHIP | 05-02-2013 |
Iyad Al-Zaharnah, Dhahran SA
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20100280800 | Method of modeling flexural characteristics of a bar subjected to local heating - The method of modeling flexural characteristics of a bar subjected to local heating utilizes thermal diffusion equations and the finite element method to model vibrational frequency and amplitude variation in a substrate material subjected to local heating. Both heated and non-heated cases are considered. | 11-04-2010 |
20110060562 | Method of determining the elastic modulus of coatings - The method of determining the elastic modulus of coatings utilizes numerical modeling and simulation methods to determine physical characteristics of coatings based upon comparisons of measured flexural characteristics with the numerical models and simulations. Particularly, the method of determining the elastic modulus of coatings utilizes a numerical modeling technique, such as the finite element method, to model vibrational frequency and amplitude variation in a substrate material with a metallic or ceramic coating. | 03-10-2011 |
Iyad Kebaisy, Passau DE
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20150287512 | CHOKE AND CHOKE CORE - The present invention relates to a choke with two coils and a core for interleaved applications in step-up or step-down circuits or power factor compensation circuits. The core comprises several core sections with several lateral legs and a middle leg, whereby the core is designed such, that a coupling factor k of the two coils is smaller than 3%-5%. Furthermore, the core is designed such, that the core section form two loops with the middle leg as a common section, whereby each of the two coils lies on different loops outside of the common section. The lateral legs have a cross section A | 10-08-2015 |
Iyad Muslet, West Chester, OH US
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20150056424 | PRINTED ELASTOMERIC MATERIALS - A printed, multi-layered, elastomeric composite sheet material is provided that includes a printed composite layer having an elastomeric film layer bonded to a first substrate layer, where a graphic is printed on a free film surface of the elastomeric film. The composite sheet material further includes a second composite layer, which includes a second film layer bonded to a second substrate layer. The printed composite layer and second composite layer are bonded across at least a portion of the elastomeric film surface and second film surface, which protects the printed graphic on the elastomeric film surface from smearing or rubbing off. Methods of making the composite sheet material are also provided. | 02-26-2015 |
Iyad Muslet, Mason, OH US
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20080207071 | ELASTOMERIC LAMINATE MATERIALS THAT DO NOT REQUIRE MECHANICAL ACTIVATION - An elastomeric laminate that does not require mechanical activation comprises an elastomeric polymer film layer bonded to one or more other substrate layers. The elastomeric film composition, physical properties of the substrate, and bonding conditions are selected and controlled to form an elastomeric laminate that is stretchable and recoverable without the use of excess material or post-lamination mechanical activation. The resulting elastomeric laminate may be manufactured on relatively simple high-speed equipment at lower cost and with improved physical properties. | 08-28-2008 |
20090264844 | EXTRUSION BONDED LAMINATES FOR ABSORBENT ARTICLES - An absorbent article of the present invention may comprise a topsheet, an outer cover, and an absorbent core disposed therebetween. The outer cover may comprise an extrusion bonded laminate. The EBL may comprise a multi-layer coextruded elastomeric film and a nonwoven. The film may comprise a core layer, a first outer layer, and a second outer layer, wherein the core layer is between the first and second outer layers. The nonwoven may comprise fibers and/or filaments. The first outer layer may be non-adhesively joined to the nonwoven via extrusion coating. Further, the outer cover may be elastic to at least about 50% engineering strain. The nonwoven may have high chemical affinity for the first outer layer. The first outer layer may have a low chemical affinity for the core layer; and the multi-layer coextruded elastomeric film may have a basis weight no greater than about 40 gsm. | 10-22-2009 |
20100040826 | Extrusion Bonded Laminates for Absorbent Articles - An absorbent article of the present invention may comprise a topsheet, an outer cover, and an absorbent core disposed therebetween. The outer cover may comprise an extrusion bonded laminate. The EBL may comprise a multi-layer coextruded elastomeric film and a nonwoven. The film may comprise a core layer, a first outer layer, and a second outer layer, wherein the core layer is between the first and second outer layers. The nonwoven may comprise fibers and/or filaments. The first outer layer may be non-adhesively joined to the nonwoven via extrusion coating. Further, the outer cover may be elastic to at least about 50% engineering strain. The nonwoven may have high chemical affinity for the first outer layer. The first outer layer may have a low chemical affinity for the core layer. And, the first outer layer may comprise an amount of draw down polymer greater than about 45 wt %. | 02-18-2010 |
20110250419 | ELASTOMERIC LAMINATE MATERIALS THAT DO NOT REQUIRE MECHANICAL ACTIVATION - An elastomeric laminate that does not require mechanical activation comprises an elastomeric polymer film layer bonded to one or more other substrate layers. The elastomeric film composition, physical properties of the substrate, and bonding conditions are selected and controlled to form an elastomeric laminate that is stretchable and recoverable without the use of excess material or post-lamination mechanical activation. The resulting elastomeric laminate may be manufactured on relatively simple high-speed equipment at lower cost and with improved physical properties. | 10-13-2011 |
20120184169 | Extrusion Bonded Laminates For Absorbent Articles - An absorbent article of the present invention may comprise a topsheet, an outer cover, and an absorbent core disposed therebetween. The outer cover may comprise an extrusion bonded laminate. The EBL may comprise a multi-layer coextruded elastomeric film and a nonwoven. The film may comprise a core layer, a first outer layer, and a second outer layer, wherein the core layer is between the first and second outer layers. The nonwoven may comprise fibers and/or filaments. The first outer layer may be non-adhesively joined to the nonwoven via extrusion coating. Further, the outer cover may be elastic to at least about 50% engineering strain. The nonwoven may have high chemical affinity for the first outer layer. The first outer layer may have a low chemical affinity for the core layer; and the multi-layer coextruded elastomeric film may have a basis weight no greater than about 40 gsm. | 07-19-2012 |
20120238162 | ELASTOMERIC LAMINATE MATERIALS THAT DO NOT REQUIRE MECHANICAL ACTIVATION - An elastomeric laminate that does not require mechanical activation comprises an elastomeric polymer film layer bonded to one or more other substrate layers. The elastomeric film composition, physical properties of the substrate, and bonding conditions are selected and controlled to form an elastomeric laminate that is stretchable and recoverable without the use of excess material or post-lamination mechanical activation. The resulting elastomeric laminate may be manufactured on relatively simple high-speed equipment at lower cost and with improved physical properties. | 09-20-2012 |
20140242360 | ELASTOMERIC MATERIALS - Some embodiments of the present invention include elastomeric films with a basis weight of about 40 gsm or less or about 25 gsm or less. Other embodiments include elastomeric laminates comprising the elastomeric film bonded to one or more substrates (such as nonwoven fabrics). Methods of making the elastomeric films and elastomeric laminates are also provided. | 08-28-2014 |
20140255658 | ROBUST ELASTOMERIC MATERIALS - A thin elastomeric laminate can be made by bonding two bilaminate precursors. The bilaminate precursors are made from a thin elastomeric film laminated to a thin nonwoven fabric. Two layers of bilaminate precursor are then bonded such that the free film faces of both precursors are facing one another. The resulting laminates exhibit good robustness and resist the formation of activation pinholes. | 09-11-2014 |
Iyad Rahwan, Dubai AE
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20120316933 | METHOD FOR PROMOTING BEHAVIOR CHANGE THROUGH SOCIAL REWARD MEDIATION - Disclosed herein are methods and systems for influencing behavior in social settings. The method/system gathers information about the behavior of socially connected entities/individuals, for example, and computes monetary rewards, for example, to distribute to these individuals, thus giving them incentive to adopt a particular behavior. Examples of applications include health insurance, car insurance, power production, weight-loss programs, and public utilities. These methods and systems can be twice as efficient in terms of effect per cost as compared to previous approaches. These methods and systems can improve overall quality of service among computer networks. | 12-13-2012 |
Iyad Saadeddin, Naplouse PK
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20090315001 | PROCESS FOR PREPARING CERAMICS, CERAMICS THUS OBTAINED AND USES THEREOF, ESPECIALLY AS A SPUTTERING TARGET - Process for preparing a ceramic from an inorganic base material that is in the form of a powder having a high melting point, comprising a step of mixing the powder of the inorganic base material with a second inorganic component also in powder form and which acts as a dopant for the inorganic base material. The dopant is constituted by a single inorganic material or by a mixture of at least two inorganic materials having a dopant effect on the inorganic base material. The process comprises a sintering step carried out at a high temperature. The ceramics obtained, because of their high density, are advantageously used as a target element. Films and electrodes obtained from these ceramics exhibit particularly advantageous properties. | 12-24-2009 |
Iyad Saadeddin, Gradignan FR
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20150329428 | PROCESS FOR PREPARING CERAMICS, CERAMICS THUS OBTAINED AND USES THEREOF, ESPECIALLY AS A SPUTTERING TARGET - A method for preparing a ceramic from an inorganic base material in the form of a powder with a high boiling point, including a step in which the powder of the inorganic base material is mixed with a second inorganic component which is also in powder form and which serves as a dopant for the inorganic base material. The dopant comprises a single inorganic material or a mixture of at least two inorganic materials that have a dopant effect on the inorganic base material. The method also includes a sintering step performed at a high temperature. Owing to the high density thereof, the resulting ceramics are suitable for use as a target element. The films and electrodes obtained from said ceramics have particularly beneficial properties. | 11-19-2015 |