Synopsis
An all-in-one reference work covering the essential principles and techniques on thermal behavior and response of polymeric materials
This book delivers a detailed understanding of the thermal behavior of polymeric materials evaluated by thermal analysis methods. It covers the most widely applied principles which are used in method development to substantiate what happens upon heating of polymers. It also reviews the key application areas of polymers in materials science. Edited by two experts in the field, the book covers a wide range of specific topics within the aforementioned categories of discussion, such as:
- Crucial thermal phenomena - glass transition, crystallization behavior and curing kinetics
- Polymeric materials that have gained considerable interest over the last decade
- The latest advancements in techniques related to the field, such as modulated temperature DSC and fast scanning calorimetry
- The recent advances in hyphenated techniques and their applications
Polymer chemists, chemical engineers, materials scientists, and process engineers can use this comprehensive reference work to gain clarity on the topics discussed within and learn how to harness them in practical applications across a wide range of disciplines.
"synopsis" may belong to another edition of this title.
About the Author
Professor Krzysztof Pielichowski is the Head of Department of Chemistry and Technology of Polymers at the Cracow University of Technology, Poland. He is an expert in thermal analysis of polymeric materials, especially polymer nanocomposites based on engineering polymers and hybrid organic-inorganic materials containing POSS.
Associate Professor Kinga Pielichowska is the Head of the Department of Biomaterials and Composites at AGH University of Science and Technology, Poland. Her research is focused on polymer chemistry and (nano) technology, with particular attention paid to materials characterization by thermal analysis methods.
From the Back Cover
An all-in-one reference work covering the essential principles and techniques on thermal behavior and response of polymeric materials
This book delivers a detailed understanding of the thermal behavior of polymeric materials evaluated by thermal analysis methods. It covers the most widely applied principles which are used in method development to substantiate what happens upon heating of polymers. It also reviews the key application areas of polymers in materials science. Edited by two experts in the field, the book covers a wide range of specific topics within the aforementioned categories of discussion, such as:
- Crucial thermal phenomena - glass transition, crystallization behavior and curing kinetics
- Polymeric materials that have gained considerable interest over the last decade
- The latest advancements in techniques related to the field, such as modulated temperature DSC and fast scanning calorimetry
- The recent advances in hyphenated techniques and their applications
Polymer chemists, chemical engineers, materials scientists, and process engineers can use this comprehensive reference work to gain clarity on the topics discussed within and learn how to harness them in practical applications across a wide range of disciplines.
"About this title" may belong to another edition of this title.
Search results for Thermal Analysis of Polymeric Materials: Methods and...
Seller Image
Thermal Analysis of Polymeric Materials: Methods and Developments: VOLUME 1 ONLY
Seller: killarneybooks, Inagh, CLARE, Ireland
Seller rating 5 out of 5 stars
Hardcover. Condition: Very Good. 1st Edition. Volume I, oversized hardcover, xvi + 369 pages, NOT ex-library. Shipping weight over 1kg. Book is clean and bright throughout with unmarked text, free of inscriptions and stamps, firmly bound. Minor handling wear only. Issued without a dust jacket. -- Table of Contents of Vol.1: Preface; Part I: Methods 1 Thermoanalytical Methods: Fundamental Principles and Features [Introduction; Classification of Thermoanalytical Techniques; Thermogravimetry (TG); Differential Thermal Analysis (DTA) and Differential Scanning Calorimetry (DSC); Thermomechanometry; Instrumental Calibrations; Factors Affecting Experimentally Resolved Thermoanalytical Curves; Remarks for Better Thermal Analysis; References]; 2 Modulated Temperature Differential Scanning Calorimetry [Introduction; Typical Results of MTDSC; Methodology; What Can Be Observed; Conclusions; References]; 3 Fast Scanning Calorimetry [Introduction; Development and Advancement of Fast Scanning Calorimetry; Selected Applications of FSC to Polymers; Outlook; Acknowledgments; List of Abbreviations; References; Notes]; 4 Use of Different Temperature Control Techniques Coupled with FTIR Spectroscopy to Simultaneously Induce and Identify the Physical Properties, Chemical Reactions, and Thermal Degradation of Polymers [Introduction; Hyphenation of Various Temperature Control Techniques with FTIR Spectroscopy in Polymer Analysis; Simultaneous DSC?FTIR Technique Used to Investigate the Alterations of Polymeric Materials; In Situ Real?Time FTIR?Temperature Controller Used to Assess the Changes of Polymeric Materials; Variable Temperature FTIR Study of the Changes of Polymeric Materials; TGA?FTIR Technique Applied to Explore the Alterations of Polymeric Materials; Conclusions and Future Perspectives; Acknowledgments; Conflict of Interest; References]; Part II: Fundamentals 5 Glass Transition and Relaxation Phenomena [Introduction; Relaxation Phenomena in Glass?Forming Liquids; Glass Transition and Physical Aging; Perspective on the Connection Between Relaxation Phenomena and the Glass Transition and Physical Aging; Conclusions; Acknowledgments; References]; 6 Polymer Crystallization [Introduction; Key Features of Polymer Crystallization; Crystal Nucleation; Crystal Growth; Crystallization in Polymer Blends; Coupling Between Crystal and Amorphous Phases; Crystallization in Industrial Processing; Key Features of Flow Induced Crystallization; Concluding Remarks; References]; 7 Kinetics of Cross?Linking Polymerization (Curing) [Introduction; The Chemistry of Cross?Linking; The Physics of Cross?Linking; Kinetic Models; DSC Measurements; Model?Fitting Kinetic Analysis; Isoconversional (Model?Free) Kinetic Analysis; Variations of Isoconversional Activation Energy; Conclusions; References]; 8 Heat Capacity of Polymeric Materials [Introduction; Instrumentation and Measurements; Apparent Heat Capacity and Heat Capacity of Polymeric Materials; Quantitative Thermal Analysis of Polymeric Materials Based on the Heat Capacity; Summary and Conclusions; References]; 9 Thermo(oxidative) Stability of Polymeric Materials [Thermo(oxidative) Stability and Its Importance in Polymeric Materials; Polymeric Material Degradation Modes and Reaction Mechanisms; Thermogravimetry of Polymeric Materials; Instrument Hyphenation in the Analysis of Evolved Gases; Differential Scanning Calorimetry; Lifetime Estimation; Thermal Stability of Selected Polymer Groups; Tabulated Thermogravimetric Data for Selected Polymers; References]. Seller Inventory # 012271
Stock Image
Thermal Analysis of Polymeric Materials: Methods and Developments
Seller: Kuba Libri, Prague, Czech Republic
Seller rating 4 out of 5 stars
Hardcover. Condition: New. Seller Inventory # 007380
Buy New
£ 112.99
£ 10.91 shipping
Ships from Czech Republic to U.S.A.
Ships from Czech Republic to U.S.A.
Quantity: 1 available
Stock Image
Thermal Analysis of Polymeric Materials : Methods and Developments
Seller: Buchpark, Trebbin, Germany
Seller rating 5 out of 5 stars
Condition: Hervorragend. Zustand: Hervorragend | Seiten: 688 | Sprache: Englisch | Produktart: Bücher | An all-in-one reference work covering the essential principles and techniques on thermal behavior and response of polymeric materials This book delivers a detailed understanding of the thermal behavior of polymeric materials evaluated by thermal analysis methods. It covers the most widely applied principles which are used in method development to substantiate what happens upon heating of polymers. It also reviews the key application areas of polymers in materials science. Edited by two experts in the field, the book covers a wide range of specific topics within the aforementioned categories of discussion, such as: Crucial thermal phenomena - glass transition, crystallization behavior and curing kinetics Polymeric materials that have gained considerable interest over the last decade The latest advancements in techniques related to the field, such as modulated temperature DSC and fast scanning calorimetry The recent advances in hyphenated techniques and their applications Polymer chemists, chemical engineers, materials scientists, and process engineers can use this comprehensive reference work to gain clarity on the topics discussed within and learn how to harness them in practical applications across a wide range of disciplines. Seller Inventory # 38631658/1