40.
Hybrid-Structured Indium Tin Oxide with Ag Nanoparticles as Crystalline Seeds for Transparent Electrode with Enhanced Flexibility and Its Application to Organic Light Emitting Diodes
Japanese Journal of Applied Physics, May 2014, Volume 53, Issue 5S1, 05FB13
Ross E. Triambulo, Hahn-Gil Cheong, Huanyu Zhou, Gun-Hwan Lee and Jin-Woo Park
39.
The effect of the size and volume fraction of Zr2Cu on the sintering behavior of tungsten matrix composites during liquid-reactive sintering
International Jounal of Refractory Metals and Hard Materials, March 2014, Volume 43, p.157-163
Jin-Woo Park, Ji-Yeon Suh, Seung-Won Kang, Se-Eun Shin, Dong-Hyun Bae
32.
The effect of alloy compositions on the microstructure and the mechanical strength of oxide scales on four selected steels
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, Volume 556, October 2012, 246–252
Chan-Woo Yang, Seung-Mok Cho, Youn-Hee Kang , Jong-Sub Lee, Jin-Woo Park
40.
Hybrid-Structured Indium Tin Oxide with Ag Nanoparticles as Crystalline Seeds for Transparent Electrode with Enhanced Flexibility and Its Application to Organic Light Emitting Diodes
Japanese Journal of Applied Physics, May 2014, Volume 53, Issue 5S1, 05FB13
Ross E. Triambulo, Hahn-Gil Cheong, Huanyu Zhou, Gun-Hwan Lee and Jin-Woo Park
39.
The effect of the size and volume fraction of Zr2Cu on the sintering behavior of tungsten matrix composites during liquid-reactive sintering
International Jounal of Refractory Metals and Hard Materials, March 2014, Volume 43, p.157-163
Jin-Woo Park, Ji-Yeon Suh, Seung-Won Kang, Se-Eun Shin, Dong-Hyun Bae
32.
The effect of alloy compositions on the microstructure and the mechanical strength of oxide scales on four selected steels
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, Volume 556, October 2012, 246–252
Chan-Woo Yang, Seung-Mok Cho, Youn-Hee Kang , Jong-Sub Lee, Jin-Woo Park
Lecture
Prof. Park is teaching the following courses:
Undergraduate course
MST 3460 Fundamentals of Surfaces and Interfaces (계면및표면특성)
This course begins with reviewing the definitions of surfaces and interfaces. Next, we will study various types of interfaces and their chemical and physical properties. The measurement technology of the properties will be studied in detail. Finally, the increasing needs of interfacial engineering - controlling interface structure and properties - for new devices, advanced engineering systems, engineered materials will be discussed.
MST 3470 Mechanics of Materials (재료역학)
This coursework provides the fundamental understandings of the mechanical properties of materials based on solid mechanics. You will learn the basic concepts of force, displacement, stress and strain. Based on these concepts, you will study the elastic and plastic behaviors of materials due to the stresses and the effects of defects in materials such as pores and dislocations on the behaviors in various materials.
MST 3320 Design for Research (탐구설계)
In the class the small member (around 3 students) will do design the target topics and do some experimental work. Finally, the results will be presented at the end of the class for all engineering students. The topic will be chosen based on the student`s interest and then the preferred professor will be chosen. Under the supervisor`s instruction, all the schedule will be carried out.
MST 4310 Creative Capstone Design of Materials (창의종합설계)
In the class the small member (around 3 students) will do design the target topics and do some experimental work. Finally, the results will be presented at the end of the class for all engineering students. The topic will be chosen based on the student`s interest and then the preferred professor will be chosen. Under the supervisor`s instruction, all the schedule will be carried out.
MST 4320 Graduate Thesis (졸업논문)
This lecture will cover the main topics for writing a good graduate thesis based on individual research data supervised by the undergraduate thesis advisor and also the presentation techniques of research data. Academic achievement will be evaluated on the basis of mid-term presentation (10 %), final presentation (20 %), and final graduate thesis (70 %).
Graduate course
MSE 6320 Science and Technology of Joining (접합공학)
In this course, various joining technology, one of the oldest materials processing technologies in human history, and their important applications in modern manufacturing processes will be introduced. Fundamental physics on bond formation at the interface, heat transfer, thermodynamics in joining process will be reviewed related with their effects on the mechanical, electrical, and optical properties of joined systems.
MSE 8130 Advanced Heat and Mass Transfer (열및물질전달)
In this course, we will study the fundamentals of the principles of mathematical and physical modeling of transport phenomena in materials processings. The principles include continuum equation, equation of momentum, equation of energy, equation of mass, etc., as building blocks of mathematical models of complex processes. Use of similarity criteria, order of magnitude scaling, and dimensional analysis will be also introduced.
MSE 8240 Diffusion in materials