Your search keyword '"Young Cheol Kim"' showing total 11 results

1. A Comparative Study of Micromechanical Analysis Models for Determining the Effective Properties of Out-of-Autoclave Carbon Fiber–Epoxy Composites

Author

Young Cheol Kim, Hong-Kyu Jang, Geunsu Joo, and Ji Hoon Kim

Subjects

micromechanics models, carbon-fiber-reinforced plastic (CFRP), representative volume element (RVE), effective properties, Organic chemistry, QD241-441

Abstract

This study aims to critically assess different micromechanical analysis models applied to carbon-fiber-reinforced plastic (CFRP) composites, employing micromechanics-based homogenization to accurately predict their effective properties. The paper begins with the simplest Voigt and Reuss models and progresses to more sophisticated micromechanics-based models, including the Mori–Tanaka and Method of Cells (MOC) models. It provides a critical review of the areas in which these micromechanics-based models are effective and analyses of their limitations. The numerical analysis results were confirmed through finite element simulations of the periodic representative volume element (RVE). Furthermore, the effective properties predicted by these micromechanics-based models were validated via experiments conducted on IM7/5320-1 composite material with a fiber volume fraction of 0.62.

Published

2024

2. Root-Associated Bacteria Are Biocontrol Agents for Multiple Plant Pests

Author

Jang Hoon Lee, Anne J. Anderson, and Young Cheol Kim

Subjects

biofilm, dual biocontrol, secondary metabolites, induced plant resistance, plant pathogens, insect pests, Biology (General), QH301-705.5

Abstract

Biological control is an important process for sustainable plant production, and this trait is found in many plant-associated microbes. This study reviews microbes that could be formulated into pesticides active against various microbial plant pathogens as well as damaging insects or nematodes. The focus is on the beneficial microbes that colonize the rhizosphere where, through various mechanisms, they promote healthy plant growth. Although these microbes have adapted to cohabit root tissues without causing disease, they are pathogenic to plant pathogens, including microbes, insects, and nematodes. The cocktail of metabolites released from the beneficial strains inhibits the growth of certain bacterial and fungal plant pathogens and participates in insect and nematode toxicity. There is a reinforcement of plant health through the systemic induction of defenses against pathogen attack and abiotic stress in the plant; metabolites in the beneficial microbial cocktail function in triggering the plant defenses. The review discusses a wide range of metabolites involved in plant protection through biocontrol in the rhizosphere. The focus is on the beneficial firmicutes and pseudomonads, because of the extensive studies with these isolates. The review evaluates how culture conditions can be optimized to provide formulations containing the preformed active metabolites for rapid control, with or without viable microbial cells as plant inocula, to boost plant productivity in field situations.

Published

2022

3. Crash Analysis of Aluminum/CFRP Hybrid Adhesive Joint Parts Using Adhesive Modeling Technique Based on the Fracture Mechanics

Author

Young Cheol Kim, Soon Ho Yoon, Geunsu Joo, Hong-Kyu Jang, Ji-Hoon Kim, Mungyu Jeong, and Ji Hoon Kim

Subjects

structural adhesive, carbon-fiber-reinforced plastic (CFRP), fracture toughness, crash simulation, cohesive zone model, tiebreak contact, Organic chemistry, QD241-441

Abstract

This study describes the numerical simulation results of aluminum/carbon-fiber-reinforced plastic (CFRP) hybrid joint parts using the explicit finite-element solver LS-DYNA, with a focus on capturing the failure behavior of composite laminates as well as the adhesive capacity of the aluminum–composite interface. In this study, two types of adhesive modeling techniques were investigated: a tiebreak contact condition and a cohesive zone model. Adhesive modeling techniques have been adopted as a widely commercialized model of structural adhesives to simulate adhesive failure based on fracture mechanics. CFRP was studied with numerical simulations utilizing LS-DYNA MAT54 to analyze the crash capability of aluminum/CFRP. To evaluate the simulation model, the results were compared with the force–displacement curve from numerical analysis and experimental results. A parametric study was conducted to evaluate the effect of different fracture toughness values used by designers to predict crash capability and adhesive failure of aluminum/CFRP parts.

Published

2021

4. Recent Progress in Birdcage RF Coil Technology for MRI System

Author

Sheikh Faisal Ahmad, Young Cheol Kim, Ick Chang Choi, and Hyun Deok Kim

Subjects

birdcage coil, RF coil, volume coil, numerical method, analytical solution, electromagnetic simulation, Medicine (General), R5-920

Abstract

The radio frequency (RF) coil is one of the key components of the magnetic resonance imaging (MRI) system. It has a significant impact on the performance of the nuclear magnetic resonance (NMR) detection. Among numerous practical designs of RF coils for NMR imaging, the birdcage RF coil is the most popular choice from low field to ultra-high field MRI systems. In the transmission mode, it can establish a strong and homogeneous transverse magnetic field B1 for any element at its Larmor frequency. Similarly, in the reception mode, it exhibits extremely high sensitivity for the detection of even faint NMR signals from the volume of interest. Despite the sophisticated 3D structure of the birdcage coil, the developments in the design, analysis, and implementation technologies during the past decade have rendered the development of the birdcage coils quite reasonable. This article provides a detailed review of the recent progress in the birdcage RF coil technology for the MRI system.

Published

2020

5. A Simple Analytical Solution for the Designing of the Birdcage RF Coil Used in NMR Imaging Applications

Author

Young Cheol Kim, Hyun Deok Kim, Byoung-Ju Yun, and Sheikh Faisal Ahmad

Subjects

mri system, birdcage coil, birdcage configurations, coil capacitance, analytical solution, equivalent circuit modelling, t-matrix theory, 3d-em simulation, small volume rf coil, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

A novel analytical solution for the designing of the birdcage RF coil has been demonstrated in this paper. A new concept of dominant resonance path has been introduced in this paper which is used to identify the specific closed current loop in the birdcage RF coil which is responsible for the dominant resonance frequency mode. This concept is used to determine the precise numerical values of the lumped capacitance deployed in the legs and/or end-rings of the birdcage RF coil for its proper operation at the desired resonance frequency. The analytical solution presented in this paper has been established by performing the two-port network based equivalent circuit modeling of the birdcage RF coil. The proposed analytical solution uses T-matrix theory and develops a relationship between the input impedance of the birdcage coil and the impedances of its leg and end-ring segments. The proposed analytical solution provides the information about the resonance frequency spectrum of the birdcage RF coil and solves the issue of its interfacing with external circuits without affecting its resonance characteristics. Based upon the proposed analysis and designing strategy presented in this paper, the low pass, high pass and band pass configurations of the birdcage RF coil were successfully implemented with FPCB (Flexible Printed Circuit board) technique for small volume NMR imaging applications at 1.5 T and 3.0 T MRI system. The results obtained for the implemented birdcage coils using the proposed analysis and designing technique are in closed agreement with already established methods.

Published

2020

6. Identification of Novel Pepper Genes Involved in Bax- or INF1-Mediated Cell Death Responses by High-Throughput Virus-Induced Gene Silencing

Author

Jeong Hee Lee, Young Cheol Kim, Doil Choi, and Jeong Mee Park

Subjects

Bax-induced cell death, hot chili pepper (Capsicum annum), hypersensitive response, INF1, Nicotiana benthamiana, virus-induced gene silencing, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Hot pepper is one of the economically important crops in Asia. A large number of gene sequences, including expressed sequence tag (EST) and genomic sequences are publicly available. However, it is still a daunting task to determine gene function due to difficulties in genetic modification of a pepper plants. Here, we show the application of the virus-induced gene silencing (VIGS) repression for the study of 459 pepper ESTs selected as non-host pathogen-induced cell death responsive genes from pepper microarray experiments in Nicotiana benthamiana. Developmental abnormalities in N. benthamiana plants are observed in the 32 (7%) pepper ESTs-silenced plants. Aberrant morphological phenotypes largely comprised of three groups: stunted, abnormal leaf, and dead. In addition, by employing the combination of VIGS and Agrobacterium-mediated transient assays, we identified novel pepper ESTs that involved in Bax or INF1-mediated cell death responses. Silencing of seven pepper ESTs homologs suppressed Bax or INF1-induced cell death, five of which suppressed both cell death responses in N. benthamiana. The genes represented by these five ESTs encode putative proteins with functions in endoplasmic reticulum (ER) stress and lipid signaling. The genes represented by the other two pepper ESTs showing only Bax-mediated cell death inhibition encode a CCCH-type zinc finger protein containing an ankyrin-repeat domain and a probable calcium-binding protein, CML30-like. Taken together, we effectively isolated novel pepper clones that are involved in hypersensitive response (HR)-like cell death using VIGS, and identified silenced clones that have different responses to Bax and INF1 exposure, indicating separate signaling pathways for Bax- and INF1-mediated cell death.

Published

2013

7. Analysis of Electromagnetic–Mechanical Characteristics according to Shaft Materials of Permanent Magnet Synchronous Motor

Author

Jeong-In Lee, Young-Cheol Kim, Jang-Young Choi, and Han-Wook Cho

Subjects

Control and Optimization, Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, Building and Construction, Electrical and Electronic Engineering, Engineering (miscellaneous), Energy (miscellaneous)

Abstract

In this paper, an analysis of electromagnetic–mechanical characteristics according to the shaft materials of a permanent magnet synchronous motor was performed. In general, the shaft of an electric motor rotating at high speed uses various materials, considering the mechanical rigidity and electromagnetic characteristics. However, because the material of the shaft has a significant influence on the electromagnetic performance according to the characteristics of the non-magnetic and magnetic materials, electromagnetic characteristics analysis was performed according to the material of the shaft. In addition, because the machine rotating at a high speed entails mechanical problems owing to the centrifugal force, the mechanical stability was secured through critical speed characteristic analysis according to each material after performing the von Mises stress analysis of the permanent magnet and sleeve.

Published

2022

8. Numerical Evaluation of Structural Safety of Linear Actuator for Flap Control of Aircraft Based on Airworthiness Standard

Author

Dong-Hyeop Kim, Sang-Woo Kim, and Young-Cheol Kim

Subjects

Structural safety, Computer science, lcsh:Motor vehicles. Aeronautics. Astronautics, Control (management), Aerospace Engineering, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, 0203 mechanical engineering, 0103 physical sciences, numerical approach, structural analysis, 020301 aerospace & aeronautics, business.industry, Airworthiness, Numerical analysis, electro-mechanical actuator, Structural engineering, Multibody system, Linear actuator, airworthiness standard, Finite element method, Margin of safety, fatigue evaluation, lcsh:TL1-4050, business

Abstract

Airworthiness standards of Korea recommend verifying structural safety by experimental tests and analytical methods, owing to the development of analysis technology. In this study, we propose a methodology to verify the structural safety of aircraft components based on airworthiness requirements using an analytical method. The structural safety and fatigue integrity of a linear actuator for flap control of aircraft was evaluated through numerical analysis. The static and fatigue analyses for the given loads obtained from the multibody dynamics analysis were performed using the finite element method. Subsequently, the margin of safety and vulnerable area were acquired and the feasibility of the structural safety evaluation using the analytical method was confirmed. The proposed numerical analysis method in this study can be adopted as an analytical verification methodology for the airworthiness standards of civilian aircraft in Korea.

Published

2021

9. A Simple Analytical Solution for the Designing of the Birdcage RF Coil Used in NMR Imaging Applications

Author

Hyun Deok Kim, Young Cheol Kim, Sheikh Faisal Ahmad, and Byoung-Ju Yun

Subjects

MRI system, coil capacitance, Computer science, Low-pass filter, Physics::Medical Physics, lcsh:Technology, 030218 nuclear medicine & medical imaging, lcsh:Chemistry, 03 medical and health sciences, 0302 clinical medicine, birdcage configurations, Electronic engineering, T-matrix theory, General Materials Science, lcsh:QH301-705.5, Instrumentation, Electrical impedance, Electronic circuit, Fluid Flow and Transfer Processes, lcsh:T, small volume RF coil, Process Chemistry and Technology, General Engineering, equivalent circuit modelling, Input impedance, 3D-EM simulation, lcsh:QC1-999, Computer Science Applications, birdcage coil, analytical solution, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Equivalent circuit, lcsh:Engineering (General). Civil engineering (General), High-pass filter, Current loop, lcsh:Physics, 030217 neurology & neurosurgery, Radiofrequency coil

Abstract

A novel analytical solution for the designing of the birdcage RF coil has been demonstrated in this paper. A new concept of dominant resonance path has been introduced in this paper which is used to identify the specific closed current loop in the birdcage RF coil which is responsible for the dominant resonance frequency mode. This concept is used to determine the precise numerical values of the lumped capacitance deployed in the legs and/or end-rings of the birdcage RF coil for its proper operation at the desired resonance frequency. The analytical solution presented in this paper has been established by performing the two-port network based equivalent circuit modeling of the birdcage RF coil. The proposed analytical solution uses T-matrix theory and develops a relationship between the input impedance of the birdcage coil and the impedances of its leg and end-ring segments. The proposed analytical solution provides the information about the resonance frequency spectrum of the birdcage RF coil and solves the issue of its interfacing with external circuits without affecting its resonance characteristics. Based upon the proposed analysis and designing strategy presented in this paper, the low pass, high pass and band pass configurations of the birdcage RF coil were successfully implemented with FPCB (Flexible Printed Circuit board) technique for small volume NMR imaging applications at 1.5 T and 3.0 T MRI system. The results obtained for the implemented birdcage coils using the proposed analysis and designing technique are in closed agreement with already established methods.

Published

2020

10. Identification of Novel Pepper Genes Involved in Bax- or INF1-Mediated Cell Death Responses by High-Throughput Virus-Induced Gene Silencing

Author

Doil Choi, Jeong Mee Park, Young-Cheol Kim, and Jeong-Hee Lee

Subjects

Hypersensitive response, hypersensitive response, Agrobacterium, Nicotiana benthamiana, virus-induced gene silencing, Bax-induced cell death, hot chili pepper (Capsicum annum), Catalysis, lcsh:Chemistry, Inorganic Chemistry, Bcl-2-associated X protein, Gene Expression Regulation, Plant, Tobacco, Pepper, Gene silencing, Gene Silencing, Physical and Theoretical Chemistry, lcsh:QH301-705.5, Molecular Biology, Gene, Spectroscopy, bcl-2-Associated X Protein, Expressed Sequence Tags, Genetics, Regulation of gene expression, Expressed sequence tag, Cell Death, biology, Communication, fungi, Organic Chemistry, food and beverages, General Medicine, Plants, Genetically Modified, biology.organism_classification, INF1, Computer Science Applications, Plant Leaves, lcsh:Biology (General), lcsh:QD1-999, biology.protein, Capsicum, Signal Transduction

Abstract

Hot pepper is one of the economically important crops in Asia. A large number of gene sequences, including expressed sequence tag (EST) and genomic sequences are publicly available. However, it is still a daunting task to determine gene function due to difficulties in genetic modification of a pepper plants. Here, we show the application of the virus-induced gene silencing (VIGS) repression for the study of 459 pepper ESTs selected as non-host pathogen-induced cell death responsive genes from pepper microarray experiments in Nicotiana benthamiana. Developmental abnormalities in N. benthamiana plants are observed in the 32 (7%) pepper ESTs-silenced plants. Aberrant morphological phenotypes largely comprised of three groups: stunted, abnormal leaf, and dead. In addition, by employing the combination of VIGS and Agrobacterium-mediated transient assays, we identified novel pepper ESTs that involved in Bax or INF1-mediated cell death responses. Silencing of seven pepper ESTs homologs suppressed Bax or INF1-induced cell death, five of which suppressed both cell death responses in N. benthamiana. The genes represented by these five ESTs encode putative proteins with functions in endoplasmic reticulum (ER) stress and lipid signaling. The genes represented by the other two pepper ESTs showing only Bax-mediated cell death inhibition encode a CCCH-type zinc finger protein containing an ankyrin-repeat domain and a probable calcium-binding protein, CML30-like. Taken together, we effectively isolated novel pepper clones that are involved in hypersensitive response (HR)-like cell death using VIGS, and identified silenced clones that have different responses to Bax and INF1 exposure, indicating separate signaling pathways for Bax- and INF1-mediated cell death.

Published

2013

11. Evaluation of the Multiaxial Fatigue Life of Electro-Mechanical Actuator for Aircraft Blade Pitch Control Based on Certification Standards

Author

Young-Cheol Kim, Dong-Hyeop Kim, and Sang-Woo Kim

Subjects

airworthiness standard, electro-mechanical actuator, numerical approach, structural analysis, fatigue evaluation, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

To achieve the commercialization of electric vertical takeoff and landing (eVTOL) aircrafts, which have recently garnered attention as the next-generation means of transportation, objective certification based on rigorous procedures is essential. With the advancement of structural analysis technology, aircraft airworthiness standards recommend a combination of testing and analytical methods to demonstrate structural integrity. In this study, we propose analytical techniques for demonstrating the structural integrity of components for eVTOL aircrafts in accordance with airworthiness standards. We evaluated the static structural integrity and fatigue safety of an electro-mechanical actuator. Multibody dynamics analysis was performed to calculate the loads for application in finite element analysis. Subsequently, static analysis and fatigue analysis based on finite element analysis were conducted to calculate the safety margin and fatigue life of all key components. Therefore, we have confirmed the feasibility of utilizing analytical methods for the structural integrity assessment of aircraft components. We propose the utilization of the technique introduced in this study as one of the approaches for demonstrating compliance with airworthiness standards for eVTOL aircrafts through the application of analytical methods.

Published

2024