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Kamlesh
Kamlesh Gaglani, Belle Mead, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20090023847 | Degassing compositions for curable coatings - Non-yellowing degassing compositions which enhance degassing in powder coatings and other film-forming curable coatings are disclosed. The non-yellowing compositions contain degassing agents including a plurality of unfused aromatic rings and at least one functional group selected from ketals, carbamates, carbonates and carboxylic acid esters. The degassing agents resist decomposition and discoloration, and are relatively stable at resin curing conditions and. The degassing agents may be synergistically combined with other materials, such as fatty acid amide-containing waxes, to produce new and surprisingly effective degassing compositions suitable for use in powder coatings. Curable compositions which utilize the new degassing compositions are also disclosed. | 01-22-2009 |
| 20100003345 | Synergistic antimicrobial mixtures - A broad spectrum antimicrobial composition comprising a mixture of an iodopropynyl compound in combination with a benzimidazole and a metal borate is disclosed. The composition can be used to protect industrial systems against microbial growth and, more particularly, to protect substrates such as paints, coatings, stucco, concrete, stone, cementaceous surfaces, wood, wood-plastic composites, caulking, sealants, textiles, leather, wood, preservatives, metal working fluids, drilling muds, clay slurries, glazes, optical brighteners, carpet backing, and pigments against microbial growth. The composition can be used as a preservative for aqueous products. | 01-07-2010 |
| 20100204373 | Degassing compositions for curable coatings - Non-yellowing degassing compositions which enhance degassing in powder coatings and other film-forming curable coatings are disclosed. The non-yellowing compositions contain degassing agents including a plurality of unfused aromatic rings and at least one functional group selected from ketals, carbamates, carbonates and carboxylic acid esters. The degassing agents resist decomposition and discoloration, and are relatively stable at resin curing conditions and. The degassing agents may be synergistically combined with other materials, such as fatty acid amide-containing waxes, to produce new and surprisingly effective degassing compositions suitable for use in powder coatings. Curable compositions which utilize the new degassing compositions are also disclosed. | 08-12-2010 |
| 20110077278 | Antifungal compositions and methods - A combination product including a mixture of 3-iodpropynyl-N-n-butylcarbamate (“IPBC”) and 2-n-N-butyl-1,2-benzisothiazolin-3-one (“BBIT) for use as a fungicide and growth inhibitor in industrial applications. Combination products of the present invention are effective for inhibiting the growth of microorganisms, and exhibit a synergistic antifungal effect against fungi such as, for example, | 03-31-2011 |
Kamlesh Padiya, Virar (west) IN
| Patent application number | Description | Published |
|---|---|---|
| 20110021494 | NOVEL TETRAHYDRO-FUSED PYRIDINES AS HISTONE DEACETYLASE INHIBITORS - The compounds of formula (I), wherein ring D and ring E together form a fused ring system selected from formula (II), (III), (IV), (V), (VI), (VII), and the salts of these compounds are novel, effective inhibitors of histone deacetylases. | 01-27-2011 |
Kamlesh Singala, Maharashtra IN
| Patent application number | Description | Published |
|---|---|---|
| 20110054129 | SPHEROIDAL PARTICLES FOR OLEFIN POLYMERIZATION CATALYST - The invention relates to a process for the synthesis of spheroidal magnesium alkoxide having improved mechanical strength and narrow particle size distribution, the process comprising reacting magnesium metal, in the presence of iodine, with a mixture of alcohols by step-wise heating first in the range of 40° C. to 65° C. for a period of 2 hours and then in the range of 65° C. to 80° C. for a period of 1 hour, further by maintaining reaction temperature at 80° C. for a period of 6-10 hours, the vapours of the mixture produced during the reaction being condensed in an overhead condenser, hydrogen gas produced during the reaction being vented off and the mixture of alcohols left after the reaction being filtered and reused. The invention also relates to spheroidal magnesium alkoxide particles synthesized by the method, to the Ziegler natta procatalyst synthesized by using the alkoxide and to the polymer resin synthesised using the procatalyst. | 03-03-2011 |
Kamlesh Tewani, Freehold, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20090158290 | System and Method for Load-Balancing in Server Farms - A system and method for receiving a server request, determining whether one of a plurality of servers scheduled to receive the server request is available, wherein the availability of the one of the servers scheduled to receive the request is based on a first stored value and a second stored value, incrementing the second stored value by a predetermined amount when the one of the servers is unavailable and directing the server request to another one of the plurality of servers based on the first and second stored values. | 06-18-2009 |
| 20100034086 | METHOD AND APPARATUS FOR RESIZING A TRUNK IN A NETWORK - A method and apparatus for resizing a trunk in a network are disclosed. For example, the method sets one or more target utilization levels for one or more trunks, and gathers trunk load data from one or more switches in the network in accordance with a pre-determined time period. The method evaluates the trunk load data in accordance with one or more trigger points for resizing the one or more trunks, wherein the one or more trigger points is based on the one or more target utilization levels. The method then resizes the one or more trunks if the one or more trigger points are reached or exceeded. | 02-11-2010 |
| 20100214920 | Systems and Methods for Capacity Planning Using Classified Traffic - A method of capacity planning in a network includes assigning a class of service to each packet of data on the network. Each class of service is also assigned a grade of service for different network conditions. A class bandwidth is calculated for each class of service under each network condition by multiplying an expected load for each class of service by the associated grade of service under each of the network conditions. A network condition bandwidth is calculated for each network condition by adding together the class bandwidths for all classes. A network capacity is predicted based upon the largest network condition bandwidth. A network management apparatus can perform the method. | 08-26-2010 |