دانلود ها
- کل دانلودها ۹۸
آنالیز حرارتی مواد میکرو، نانو، و غیربلوری: تغییر حالت، تبلور، سینتیک و ترمودینامیک
Thermal Analysis of Micro, Nano- and Non-Crystalline Materials
Transformation, Crystallization, Kinetics and Thermodynamics
Springer | انتشارات |
2013 | سال انتشار |
اول | ویرایش |
497 | تعداد صفحات |
Jaroslav Sest Peter Simon |
نویسندگان/ویراستارها |
فهرست کتاب:
1- Some Fundamental and Historical Aspects of Phenomenological Kinetics in the Solid State Studied by Thermal Analysis
2- Equilibrium Background of Processes Initiated by Heating and Ehrenfest’s Classification of Phase Transitions
3- Crystal Defects and Nonstoichiometry Contributions to Heat Capacity of Solids
4- Forty Years of the Turnbull Reduced Glass Transition Temperature and Hrub´ y Glass-Forming Coefficient and Their Current Perception
5- Heat Transfer and Phase Transition in DTA Experiments
6- Determination of the Glass Transition by DSC: A Comparison of Conventional and Dynamic Techniques
7- Structural Relaxation and Viscosity Behavior in Supercooled Liquids at the Glass Transition
8- Kinetics of Structural Relaxation in Glasses
9- Kinetics of Crystal Nucleation in Closed Systems
10- Influence of Preliminary Nucleation on the Physicogeometric Kinetics of Glass Crystallization
11- Application of Isoconversional Methods for the Processes Occurring in Glassy and Amorphous Materials
12- Fractals in Solid-State Processes
13- Crystallization of Metallic Micro-, Nano-, and NonCrystalline Alloys
14- Crystallization Kinetics in Amorphous and Glassy Materials
15- Comments on DTA/DSC Methods for Estimation of Crystal Nucleation Rates in Glass-Forming Melts
16- Nonparametric Kinetic Methods
17- Electron Transport Studies of Disorder and Dimensionality in Nano-Crystalline Diamond
18- Controlled Nucleation and Crystallization for Nanoparticle Synthesis
19- Nucleation on Strongly Curved Surfaces of Nanofibers
20- Thermal Analysis of Waste Glass Batches: Effect of Batch Makeup on Gas-Evolving Reactions
21- Amorphous Inorganic Polysialates: Geopolymeric Composites and the Bioactivity of Hydroxyl Groups
22- Oxide Superconductors as Model Systems for Studying Phase Relations, Stoichiometry, Reaction Kinetics, and Unconventional Glass Formability