추천자료
[기기분석] 열분석법 중 Differential Scanning Calorimetry(dsc) 측정
[화학] 시차주사열량계법(DSC)
[기계항공 공학실험] fin을 사용한 열전달량 온도측정 실험
[기계항공공학실험] 온도실험
[기계항공공학실험] 온도 실험
[실험] GC의 원리와 운전 방법의 이해(예비레포트)
[제품해체] 커피메이커(Coffee maker)
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[화학공학] Micro-Poiseuille flow에서 얇은 층을 이루는 열전달의 분석
[건축설계]건축설계의 진행방법, 건축설계의 내진설계,시공상세도면, 건축설계의 설계도서, 건축설계의 기술자, 건축설계와 기후
소개글
[공학] 열분석(Thermal analysis)에 대한 자료입니다.
목차
1.Thermal analysis???
2.TGA(ThermoGravimetry analysis)
3.DSC (Differential Scanning Calorimeter)
4.DTA(Differential Thermal Analysis)
5.Application
6.Thermal Analysis Examples
7.Decomposition of CaC2O4·H2O
9.Precipitated Zr5O8(SO4)2·15 H2O
10.Analysis of Filtrate from Precipitation
11.Polyethylene
12.Nylon compositional analysis
13.Thermal Decomposition ofBH3NH3
14.Thermograms for commonPolymeric materials
15.Flame retardancy
16.Adsorption and Desorption of CO2 On Active coal
17.Organic CompoundBenzoic Acid
18.Inorganic CompoundCalcium Oxalate
19.Oxidation or ThermalDecomposition Reaction
20.Application of ThermalAnalyses to Li-ion Batteries
21.Li-ion Batteries
22.Cathode
23.LiCoO2(Lithium Cobalt Oxide)
24.LiFePO4 Olivine(Lithium Iron Phosphate)
25.Layer Coating
26.MCMB(Mesocarbon Microbead)
27.Electolytes
28.PP Separator(polypropylene)
본문내용
instrument composition
-Electric furnace
Temperature range:
25°C~1500°C
Heat speed :
Maximum 200°C/min
*Separate Electric furnace and other system like Electronic scale
-Because Electric furnace temperature is very high
so we need to protect other system.
instrument composition
-Electric furnace
Temperature range:
25°C~1500°C
Heat speed :
Maximum 200°C/min
*Nitrogen or Argon in Electric furnace
-Because the inhibition of oxidization of sample
참고문헌
Ellis, B. L.; Lee, K.T.; Nazar, L.F. Chem. Mater. 2010, 22, 691–714
Gu, Y.; Chen, D.*; Jiao, X. J. Phys. Chem. B 2005, 109, 17901-17906
Quinlan, F.T.; Vidu, R.; Predoana, L.; Zaharescu, M.; Gartrner, M.; Groza, J.; Stroeve, P.* Ind. Eng. Chem. Res. 2004, 43, 2468-2477
Zhang, Z.*; Fouchard, D.; Rea, J.R. Journal of Power Sources 1998, 70, 16-20
Dahn, J.R.; Fuller, E.W.; Obrovac, M.; Sacken, U. von. Solid State Ionics 1994, 69, 265-270
Lyczko, N.; Nzihou, A.; Sharrock, P.; Germeau, A.; Toussaint, C. Ind. Eng. Chem. Res. 2011, Just Accepted Manuscript
Myung, S.T.*; Lee, K.S.; Yoon, C.S.; Sun, Y.K.*; Amine, K.; Yashiro, H. J. Phys. Chem. C 2010, 114, 4710–4718
MacNeila, D.D.*; Dahn, J.R. Journal of The Electrochemical Society 2003, 150, A21-A28
Li, B.; Guo, R.; Li, K.; Lu, C.; Ling, L. Fuel Chemistry Division Preprints 2002, 47, 187-188
김영준. “리튬이차전지 핵심 부품소재 특성 평가”. 2009. 40. 2010 이차전지 산업 전망 및 핵심 기술 이슈 세미나. 차세대전지연구센터, KETI.
Skoog, D.A.; Holler, F.J.; Crouch, S.R. "Principles of Instrumental Analysis (6th Edition)". 2007. 894-904. Stanford University, University of Kentucky, and Michigan State University. Thomson Brook/Cole.
West, A.W. "Basic Solid Chemistry (2nd Edition)". 1999. 203-210. Department of Engineering Materials, Sheffield University. John Wiley & Sons, Ltd.
송연호, 양원강, 태범석, 이경호, 박영조. "분석화학". 2007. 343-347. AUDAX publishers.
박면용, 정우식, 양원강, 김동엽, 서무룡, 권수한, 이경호. "기기분석". 2006. 536-552. 기기분석교재연구회. 녹문당.