Training USTians with pride by promotinga creative educational environment

Secure world-leading educational competitiveness

Discovering creative talent and to become real USTians
Establishment of UST21 education system

Become a university with industry-academia-research integration

Strengthening the cooperation between UST-GFRIs-corporations
Strengthen the cooperation between GFRIs
Support business start-ups with GFRI-based technologies

Establish global status as a national research university

Improving brand value
Improving cooperation network

Establish creative knowledge management system

Providing creative educational environment by applying cutting-edge technology
Improving management effectiveness


Modern societies are rapidly changing with the high technology developments in the areas of precision machines, electronics, aerospace, energy, and environmental engineering. As a basis of these developments, Advanced Materials Science and Engineering (AMSE) is a discipline intended to improve materials properties and develop new innovative materials through the enhancement and functionalization of material properties for such materials as metals, ceramics, and composites. AMSE is composed of various detailed subjects areas centered on the design, processing, and characterization of materials. More specifically, AMSE can be divided into several fields, including : (1) new metallic materials for the development of structural metals with improved properties, (2) ceramic materials for synthesizing, processing, shaping, and sintering ceramic powders (3) enhanced surface engineering of materials through the development of physical or electrochemical processes, (4) composite materials to enhance the functions and structures of materials, (5) nanopowder materials for high-strength nanomaterials, electromagnetics, and energy and biological/environmental applications, and (6) material characterization and assessment for the design and processing of materials and components. Thus, the purpose of education in AMSE lies in the educating specialists with practical abilities through microscopic and macroscopic knowledge of novel materials. Through collaboration with companies and sophisticated course work suck as practical seminars, we intend to cultivate engineers with practical experience to meet needs from the industry.


Course Name (Kor/Eng)

환경세라믹특론 (Advanced Materials for Environmental Application)

Course Details

Course Details
캠퍼스, 학위과정, 학점, 이수구분, 강의형태, 강의방법, 주관교수로 구분하여 안내합니다.
Campus Korea Institute of Materials Science
Academic Curriculum Integrative program Credts 3
Completion Criteria Major Lecture Types Major
Lecture Methods Korean course Supervising Professors


강의목표, 교재 및 참고문헌, 수업운영방식, 과제물, 성적평가방식으로 구분하여 안내합니다.
Lecture Objectives 본 강좌는 다양한 세라믹 공정을 통한 환경 세라믹스 소재 관련 기술 및 이론을 공부한다. 특히 다공성 세라믹 소재 제조 공정을 중심으로 공부한다. This course is aimed at studying the advanced ceramics for environmental application through the various ceramic process. In particular, we focussed on the ceramic process for the porous materials.
Textbooks and References Porous Materials: Process Technology and applications
How a Lecture is Conducted 이론교육
Assignments 보고서
Grading and Score Evaluatios 절대평가

Weekkly Syllabus

Weekkly Syllabus
Weekkly, 계획으로 구분하여 안내합니다.
1 Week Introduction of ceramics for environmental application (1)
2 Week Introduction of ceramics for environmental application (2)
3 Week Introduction of ceramics for environmental application (3)
4 Week Porous materials in the ceramics (1)
5 Week Porous materials in the ceramics (2)
6 Week Porous materials in the ceramics (3)
7 Week Porous materials in the ceramics (4)
8 Week colloid and surface (1)
9 Week colloid and surface (2)
10 Week the role of surfactant in the colloid chemistry
11 Week surface electricity, wetting, adsorption
12 Week Porous materials in the colloid chemistry (1)
13 Week Porous materials in the colloid chemistry (2)
14 Week presentation (1)
15 Week presentation (2)
16 Week Evaluation and Summary