Mathot, Vincent
Fast Scanning Calorimetry
Part I. Advanced Instrumentation, Techniques and Methods
1. Material Characterization by Fast Scanning Calorimetry: Practice and Applications
Jürgen E. K. Schawe, Stefan Pogatscher
2. Non-Adiabatic Scanning Calorimeter for Controlled Fast Cooling and Heating
Evgeny Zhuravlev, Christoph Schick
3. Quasi-adiabatic, Membrane-Based, Highly Sensitive Fast Scanning Nanocalorimetry
J. Rodríguez-Viejo, A. F. Lopeandía
4. Fast Scanning Calorimetry–Fast Thermal Desorption Technique: The Thin Wire Approach
Deepanjan Bhattacharya, Ulyana Cubeta, Vladislav Sadtchenko
5. Fast Scanning Calorimetry of Silk Fibroin Protein: Sample Mass and Specific Heat Capacity Determination
Peggy Cebe, Benjamin P. Partlow, David L. Kaplan, Andreas Wurm, Evgeny Zhuravlev, Christoph Schick
6. Scanning AC Nanocalorimetry and Its Applications
Kechao Xiao, Joost J. Vlassak
7. Isoconversional Kinetics by Fast Scanning Calorimetry
Nicolas Sbirrazzuoli, Nathanael Guigo, Sergey Vyazovkin
8. Reliable Absolute Vapor Pressures of Extremely Low Volatile Compounds from Fast Scanning Calorimetry
Mathias Ahrenberg, Alexandr Ostonen, Jürn W. P. Schmelzer, Martin Beck, Christin Schmidt, Olaf Keßler, Udo Kragl, Sergey P. Verevkin, Christoph Schick
Part II. Combination with Analytical Techniques and Molecular Simulations
9. Design of an In Situ Setup Combining Nanocalorimetry and Nano- or Micro-focus X-Ray Scattering to Address Fast Structure Formation Processes
M. Rosenthal, A. P. Melnikov, A. A. Rychkov, D. Doblas, D. V. Anokhin, M. Burghammer, D. A. Ivanov
10. Combining Fast Scanning Chip Calorimetry with Structural and Morphological Characterization Techniques
Dorien Baeten, Dario Cavallo, Giuseppe Portale, René Androsch, Vincent Mathot, Bart Goderis
11. Integration of Fast Scanning Calorimetry (FSC) with Microstructural Analysis Techniques
Jing Jiang, Lai Wei, Dongshan Zhou
12. Combining Fast-Scan Chip Calorimetry with Molecular Simulations to Investigate Polymer Crystal Melting
Xiaoming Jiang, Zhaolei Li, Huanhuan Gao, Wenbing Hu
Part III. Dynamics of (de)Vitrification
13. Cooling Rate Dependent Glass Transition in Thin Polymer Films and in Bulk
Daniele Cangialosi, Angel Alegría, Juan Colmenero
14. The Glass Transition and Structural Recovery Using Flash DSC
Sindee L. Simon, Yung P. Koh
Part IV. Metastability and Reorganization in Relation to Crystallization and Melting
15. New Insights into Polymer Crystallization by Fast Scanning Chip Calorimetry
Christoph Schick, René Androsch
16. Mesophase Formation in Isotactic Polypropylene Copolymers
Ernesto Pérez, Alberto García-Peñas, Javier Arranz-Andrés, José M. Gómez-Elvira, María L. Cerrada
17. Industrial Applications of Fast Scanning DSC: New Opportunities for Studying Polyolefin Crystallization
Daniel Istrate, Ralf Kleppinger, Klaas Remerie
18. Full-Temperature-Range Crystallization Rates of Polyamides by Fast Scanning Calorimetry as Key to Processing
Geert Vanden Poel, Daniel Istrate, Vincent Mathot
19. Kinetic Studies of Melting, Crystallization, and Glass Formation
John H. Perepezko, Jun-Qiang Wang
20. Nucleation Kinetics Analyses of Deeply Undercooled Metallic Liquids by Fast Scanning Calorimetry
Christian Simon, Yikun Zhang, Gerhard Wilde
21. Fast Scanning Calorimetry of Phase Transitions in Metals
Yulai Gao, Bingge Zhao, Bin Yang, Christoph Schick
22. Precipitation and Dissolution Kinetics in Metallic Alloys with Focus on Aluminium Alloys by Calorimetry in a Wide Scanning Rate Range
Benjamin Milkereit, Olaf Kessler, Christoph Schick
23. Martensitic Transformation of NiMnGa Shape Memory Alloys Thin Films Studied by Flash DSC
J. M. Barandiaran, I. R. Aseguinolaza, A. Mota-Cobián, V. A. Chernenko
Avainsanat: Materials Science, Characterization and Evaluation of Materials, Engineering Thermodynamics, Heat and Mass Transfer, Polymer Sciences, Industrial Chemistry/Chemical Engineering
- Toimittaja
- Mathot, Vincent
- Schick, Christoph
- Julkaisija
- Springer
- Julkaisuvuosi
- 2016
- Kieli
- en
- Painos
- 1
- Sivumäärä
- 14 sivua
- Kategoria
- Tekniikka, energia, liikenne
- Tiedostomuoto
- E-kirja
- eISBN (PDF)
- 9783319313290
- Painetun ISBN
- 978-3-319-31327-6