The present invention relates to a pharmaceutical composition containing a Cnidium monnieri extract for the prevention or treatment of gastritis and gastric ulcer, and a food composition for the prevention or alleviation of gastritis and gastric ulcer, wherein the composition exhibits remarkable effects on gastritis and gastric ulcer, such as suppressing hemorrhage and lesions in the inner wall of stomach and damages to a gastrointestinal tract caused by alcohol, NSAID, etc.
A61P 1/04 - Drugs for disorders of the alimentary tract or the digestive system for ulcers, gastritis or reflux esophagitis, e.g. antacids, inhibitors of acid secretion, mucosal protectants
A23L 33/105 - Plant extracts, their artificial duplicates or their derivatives
2.
NOVEL BIFIDOBACTERIUM BREVE JKL2022 STRAIN AND METHOD FOR PRODUCING CONJUGATED LINOLEIC ACID USING THEREOF
CHUNG ANG UNIVERSITY INDUSTRY ACADEMIC COOPERATION FOUNDATION (Republic of Korea)
Inventor
Jung, Mun Yhung
Kim, Geun-Bae
Elnar, Arxel G.
Abstract
Bifidobacterium breveBifidobacterium breveBifidobacterium breve JKL2022 strain of the present invention, and the conjugated linoleic acid (CLA) produced thereby can be widely used in probiotic compositions, pharmaceutical compositions, health functional food compositions, feed additive compositions, and food additive compositions.
The present invention relates to a tubular liquid cosmetics container, and more particularly, to a tubular liquid cosmetics container including a tubular container, a lower cap which has a coupling groove and a nozzle formed on the lower outer circumferential surface thereof, and which is coupled to the tubular container, a soft brush provided with a nozzle insertion hole and disposed on the lower cap, and an upper cap provided with a coupling projection corresponding to the coupling groove on the lower inner circumferential surface thereof and a nozzle cover opening the nozzle on the inner ceiling. Contents are discharged via a discharge outlet and through the nozzle and the nozzle insertion hole such that the content discharged to the soft brush can be applied to the skin. Accordingly, a cosmetic solution in the form of a gel can be directly and evenly applied onto the face, the exposure of the cosmetic solution can be minimized to prevent the cosmetic solution from coagulating, washing can be facilitated, and the growth of bacteria can be prevented.
Korea Polytechnic University Industry Academic Cooperation Foundation (Republic of Korea)
Woosuk University Industry Academic Cooperation Foundation (Republic of Korea)
Inventor
Choi, Kyeong Dal
Lee, Ji Kwang
Kim, Woo Seok
Park, Chan
Han, Byung Wook
Lee, Se Yeon
Abstract
A method for measuring critical current density of superconductor wires according to the present invention is characterized in that it includes: (a) applying an external magnetic field to the superconductor wires, (b) measuring a magnetization loss of the superconductor wires according to the application of the external magnetic field, (c) normalizing the measured magnetization loss, and then calculating a fully-penetration magnetic field of the superconductor wires according to the normalized magnetization loss, (d) calculating a critical current density of the superconductor wires according to the calculated fully-penetration magnetic field. Therefore, the critical current density of parallel superconductor wires such as stacked superconductor wires may be measured without applying current to the superconductor wires directly.
KOREA POLYTECHNIC UNIVERSITY INDUSTRY ACADEMIC COOPERATION FOUNDATION (Republic of Korea)
WOOSUK UNIVERSITY INDUSTRY ACADEMIC COOPERATION FOUNDATION (Republic of Korea)
Inventor
Choi, Kyeong Dal
Lee, Ji Kwang
Kim, Woo Seok
Park, Chan
Kim, Yung Il
Abstract
The present invention relates to a multiple transposition method for a superconducting wire in which a primarily transposed second generation superconducting wire consists of superconducting wire units, and the superconducting wire units are transposed in a lengthwise direction such that phases of the units are changed, wherein the method comprises the following steps: slitting a superconducting wire in a zigzagged manner to form a curvature, and repeating the formation of the curvature to prepare a strand of a desired length; superimposing a plurality of strands such that the curvatures of adjacent strands contact each other, and coupling the strands together so as to form a primarily transposed superconducting wire unit; preparing a plurality of primarily transposed superconducting wire units, and arranging the plurality of superconducting wire units in parallel to one another in a lengthwise direction so as to prepare a superconducting wire unit bundle; rotating the plurality of superconducting wire units in a lengthwise direction, about the central axis of the superconductor wire unit bundle, and twisting and coupling the plurality of superconducting wire units together to secondly transpose the units. The method of the present invention can transpose a plurality of strands while reducing patterns of the strands, thus enabling the transposition of superconducting wires to be easily performed even in a large current-superconducting device. The method of the present invention enables the easy manufacture and handling of superconducting wires, and simplifies processes and reduces manufacturing costs.
KOREA POLYTECHNIC UNIVERSITY INDUSTRY ACADEMIC COOPERATION FOUNDATION (Republic of Korea)
WOOSUK UNIVERSITY INDUSTRY ACADEMIC COOPERATION FOUNDATION (Republic of Korea)
Inventor
Choi, Kyeong Dal
Lee, Ji Kwang
Kim, Woo Seok
Park, Chan
Han, Byung Wook
Lee, Se Yeon
Abstract
The present invention relates to a method for estimating the critical current density of a superconducting wire using an estimation of magnetization loss, wherein the method comprises the following steps: (a) applying a magnetic field from an external source to the superconducting wire; (b) measuring the magnetization loss of the superconducting wire caused by the application of the magnetic field from an external source; (c) normalizing the measured magnetization loss, and calculating the completely permeated magnetic field of the superconducting wire on the basis of the normalized magnetization loss; and (d) calculating a critical current density of the superconducting wire on the basis of the completely permeated magnetic field calculated in the previous step. Accordingly, critical current densities of parallel-type superconducting wires such as stacked type superconducting wires can be measured when current is not directly applied to the superconducting wires.
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