Jung; Tae Sik

Patent Applications and Registrations

Patent applications and USPTO patent grants for Jung; Tae Sik.The latest application filed is for "nuclear fuel sintered pellet having excellent impact resistance".

Company Profile

7.4.18

Jung; Tae Sik - Daejeon KR
Jung; Tae Sik - Sejong KR
Jung, Tae Sik - Seoul KR

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
Nuclear Fuel Sintered Pellet Having Excellent Impact Resistance App 20220310277 - Na; Yeon-soo ; et al.	2022-09-29
Nuclear-fuel sintered pellets based on oxide in which fine precipitate material is dispersed in circumferential direction and method of manufacturing same Grant 11,424,042 - Na , et al. August 23, 2	2022-08-23
Sintering Additive For Forming Film Capable Of Improving Oxidation Resistance Of Nuclear Fuel Pellets, And Preparation Method Therefor App 20220223303 - Lim; Kwang-young ; et al.	2022-07-14
Method of manufacturing a corrosion-resistant zirconium alloy for a nuclear fuel cladding tube Grant 11,195,628 - Choi , et al. December 7, 2	2021-12-07
Uranium-dioxide Pellet For Nuclear Fuel Having Improved Nuclear-fission-gas Adsorption Property, And Method Of Manufacturing Same App 20210304905 - Lim; Kwang-young ; et al.	2021-09-30
Nuclear-fuel Sintered Pellets Based On Oxide In Which Fine Precipitate Material Is Dispersed In Circumferential Direction And Method Of Manufacturing Same App 20210202115 - Na; Yeon Soo ; et al.	2021-07-01
Nuclear Fuel Sintered Pellet Having Excellent Impact Resistance App 20210050121 - Na; Yeon-soo ; et al.	2021-02-18
Nuclear Fuel Pellet Having Excellent Compression Resistance And Reduced Surface Defect App 20210050120 - Choi; Min Young ; et al.	2021-02-18
Recrystallization rate measurement method of zirconium alloy cladding of nuclear fuel rod using EBSD pattern quality Grant 10,641,719 - Jung , et al.	2020-05-05
Zirconium Alloy Having Excellent Corrosion Resistance For Nuclear Fuel Cladding Tube And Method Of Manufacturing The Same App 20200075181 - CHOI; Min Young ; et al.	2020-03-05
Silicon-Carbide-Sintered Body having Oxidation-Resistant Layer and Method of Manufacturing the Same App 20190367415 - Lim; Kwang-young ; et al.	2019-12-05
Recrystallization Rate Measurement Method of Zirconium Alloy Cladding of Nuclear Fuel Rod Using EBSD Pattern Quality App 20190154600 - Jung; Tae Sik ; et al.	2019-05-23
Method Of Manufacturing Zirconium Nuclear Fuel Component Using Multi-pass Hot Rolling App 20180105915 - MOK; Yong Kyoon ; et al.	2018-04-19
Composition And Method For Manufacturing Large-grained Uranium Oxide Nuclear Fuel Pellet App 20170249998 - CHOI; Min Young ; et al.	2017-08-31
Zirconium Alloy Having Excellent Corrosion Resistance For Nuclear Fuel Cladding Tube And Method Of Manufacturing The Same App 20160307651 - CHOI; Min Young ; et al.	2016-10-20
Zirconium Alloy Having Excellent Corrosion Resistance And Creep Resistance And Method Of Manufacturing The Same App 20160304991 - CHOI; Min Young ; et al.	2016-10-20
Short message routing apparatus App 20010006897 - Kang, Kyoung Jin ; et al.	2001-07-05

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