Materials Characterization by Thermomechanical Analysis PDF Download

Author: Alan T. Riga
Publisher: ASTM International
ISBN: 0803114346
Category : Materials
Languages : en
Pages : 198

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Book Description
Fifteen papers from the symposium held in Philadelphia, March 1990, examine the uses of thermomechanical analysis and thermodilatometry in materials science, addressing instrumentation, techniques, and applications. Annotation copyright Book News, Inc. Portland, Or.

Author: AT. Riga
Publisher:
ISBN:
Category : Alloys
Languages : en
Pages : 13

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Book Description
Thermomechanical analysis (TMA) has been used to study a wide spectrum of materials over a broad range of temperatures in our laboratories. Polymers, motor oil-wax composites, ceramics, alloys, and metals have been studied from -100 to 600°C. The TMA properties that have been measured are the glass transition temperature, softening point, coefficients of linear expansion, heat deflection temperatures, creep modulus (compliance) and relaxation, degree of cure, viscoelastic behavior, dilatometric properties, melting temperature, Curie, and Neel magnetic transition temperatures and properties.

Author: Euth Ortiz Ortega
Publisher: Springer
ISBN: 9789811695681
Category : Science
Languages : en
Pages : 305

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Book Description
This book presents commonly applied characterization techniques in material science, their brief history and origins, mechanism of operation, advantages and disadvantages, their biosensing applications, and troubleshooting for each technique, while addressing the challenges researchers face when working with these techniques. The book dedicates its focus to identifying physicochemical and electrochemical nature of materials including analyses of morphology, mass spectrometry, and topography, as well as the characterization of elemental, structural, thermal, wettability, electrochemical, and chromatography properties. Additionally, the main features and benefits of using coupled characterization techniques are discussed in this book.

Author: Edith Turi
Publisher: Elsevier
ISBN: 0323141889
Category : Technology & Engineering
Languages : en
Pages : 987

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Book Description
Thermal Characterization of Polymeric Materials is a critical review and a concise evaluation of the application of thermal analysis in polymer science and engineering. This book is divided into nine chapters that specifically tackle the instrumentation, theory, and a wide variety of applications of thermal characterization. The introductory chapters provide an overview of all aspects of thermal analytical methods and apparatus and the theory underlying the basic principles of thermal analysis. These chapters also examine the theories and functions of state for thermometry, dilatometry, thermomechanical analysis, calorimetry, thermogravimetry. These topics are followed by a discussion on single-component and multicomponent systems and their phase transitions, as influenced by concentration, pressure, deformation, molecular weight, and copolymerization. The subsequent chapters explore the influence of important chemical and physical parameters on the glass transition, crystallization, and melting of thermoplastic materials. The discussion then shifts to the theoretical aspects of polymer-polymer compatibility, phase separation, and miscibility in mixed polymer systems. This book further considers the thermal analysis in thermosets, elastomers, and fibers. The concluding chapters present the methods of obtaining information on the relative flammability properties of polymers, for screening fire retardant additives, and for studying the mechanism of flame inhibition. These chapters also look into the thermal analysis of antioxidants, stabilizers, lubricants, plasticizers, impact modifiers, and fire retardants. Polymer scientists and researchers will find this book invaluable.

Author: North American Thermal Analysis Society. Conference
Publisher:
ISBN:
Category : Calorimetry
Languages : en
Pages : 415

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Book Description

Author: Alan T. Riga
Publisher: ASTM International
ISBN: 0803128878
Category : Calorimetry
Languages : en
Pages : 216

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Book Description
The special technical publication has been compiled from the 15 presentations at a May 2000 Association symposium in Toronto. They cover the fundamentals of the techniques, its use in curing and chemical reactions, measuring the glass transition and melting by modulated and comparative techniques, g

Author: Edith A. Turi
Publisher:
ISBN: 9780127037837
Category :
Languages : en
Pages :

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Book Description

Author: C. A. Brebbia
Publisher: WIT Press
ISBN: 9781845640804
Category : Computers
Languages : en
Pages : 472

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Book Description
Until recently, engineering materials could be characterized successfully using relatively simple testing procedures. As materials technology advances, interest is growing in materials possessing complex meso-, micro- and nano-structures, which to a large extent determine their physical properties and behaviour. The purposes of materials modelling are many: optimization, investigation of failure, simulation of production processes, to name but a few. Modelling and characterisation are closely intertwined, increasingly so as the complexity of the material increases. Characterisation, in essence, is the connection between the abstract material model and the real-world behaviour of the material in question. Characterisation of complex materials therefore may require a combination of experimental techniques and computation. This book publishes papers presented at the Third International Conference on Computational Methods and Experiments in Material Characterisation.Topics covered include: Composites; Ceramics; Alloys; Cements and Cement Based Materials; Biomaterials; Thin Films and Coatings; Advanced Materials; Imaging Analysis; Thermal Analysis; New Methods; Surface Chemistry, Nano Indentation; Continuum Methods; Particle Models; Damage Mechanics; Innovative Techniques; Stochastic Methods.

Author: Sam Zhang
Publisher: CRC Press
ISBN: 1420042955
Category : Science
Languages : en
Pages : 344

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Book Description
Experts must be able to analyze and distinguish all materials, or combinations of materials, in use today-whether they be metals, ceramics, polymers, semiconductors, or composites. To understand a material's structure, how that structure determines its properties, and how that material will subsequently work in technological applications, researche

Author: Bernhard Wunderlich
Publisher: Springer Science & Business Media
ISBN: 3540263608
Category : Technology & Engineering
Languages : en
Pages : 908

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Book Description
Thermal analysis is an old technique. It has been neglected to some degree because developments of convenient methods of measurement have been slow and teaching of the understanding of the basics of thermal analysis is often wanting. Flexible, linear macromolecules, also not as accurately simply called polymers, make up the final, third, class of molecules which only was identified in 1920. Polymers have neverbeenfullyintegratedintothedisciplinesofscienceandengineering. Thisbook is designed to teach thermal analysis and the understanding of all materials, flexible macromolecules, as well as those of the small molecules and rigid macromolecules. The macroscopic tool of inquiry is thermal analysis, and the results are linked to microscopic molecular structure and motion. Measurements of heat and mass are the two roots of quantitative science. The macroscopic heat is connected to the microscopic atomic motion, while the macroscopic mass is linked to the microscopic atomic structure. The macroscopic unitsofmeasurementofheatandmassarethejouleandthegram,chosentobeeasily discernable by the human senses. The microscopic units of motion and structure are 12 10 the picosecond (10 seconds) and the ångstrom (10 meters), chosen to fit the atomic scales. One notes a factor of 10,000 between the two atomic units when expressed in “human” units, second and gram—with one gram being equal to one cubic centimeter when considering water. Perhaps this is the reason for the much better understanding and greater interest in the structure of materials, being closer to human experience when compared to molecular motion.