3 options
Advances in combustion synthesis and technology / edited by Mehmet Bugdayci & Levent Oncel.
- Format:
- Book
- Author/Creator:
- Bugdayci, Mehmet, Author.
- Language:
- English
- Subjects (All):
- Self-propagating high-temperature synthesis.
- Physical Description:
- 1 online resource (210 pages)
- Edition:
- 1st ed.
- Place of Publication:
- Singapore : Bentham Science Publishers, [2022]
- Summary:
- This reference is an accessible update on combustion synthesis and the chemical technology for synthesizing composite materials. Nine chapters offer an overview of the subject with recent references, giving the reader an informed perspective. The book starts with an introduction to thermodynamic models used in combustion synthesis. Subsequent chapters explain the application of combustion synthesis to manufacture different materials such as nanostructured non-ferrous alloys, ceramic powders, functionally graded materials, boron carbide-based superhard materials, shape memory alloys, biomaterials, high-entropy alloys and rare earth phosphates. The range of topics makes this book a useful guide for students, scientists and industrial professionals in the field of chemical engineering, metallurgy and materials science.
- Contents:
- Cover
- Title
- Copyright
- License
- Contents
- Foreword
- Preface
- List of Contributors
- Thermodynamic Modeling Of Combustion Synthesis
- Murat Alkan1,* and Esra Dokumaci Alkan1
- FUNDAMENTALS OF METALLURGICAL THERMODYNAMICS AND THERMODYNAMICS OF SOLUTIONS
- THERMODYNAMICS OF COMBUSTION SYNTHESIS
- COMMONLY USED THERMODYNAMIC MODELS
- Single-Lattice Random-Mixing Models
- Multiple-Sublattice Random-Mixing Models
- Modeling Short-Range Ordering
- SOFTWARE AND DATABASES FOR THERMODYNAMIC MODELING
- THERMODYNAMIC MODELING EXAMPLES OF COMBUSTION SYNTHESIS
- CONCLUDING REMARKS
- CONSENT FOR PUBLICATION
- CONFLICT OF INTEREST
- ACKNOWLEDGEMENTS
- REFERENCES
- Recent Advances in the Combustion Synthesis of Functionally Graded Materials (FGMs)
- Mandana Adeli1,*, Hamed Pourshahabadi1, Ali Azizi1, Seyed Hossein Seyedein1 and Mehmet Bugdayci2
- INTRODUCTION
- PRODUCTION METHODS
- COMBUSTION SYNTHESIS
- Metal FGMs
- Nonmetal FGMs
- Metal-nonmetal FGMs
- CONCLUSIONS
- Combustion Synthesis of Nanostructured Non-Ferrous Alloys and Ceramic Powders
- Ozan Coban1,2,* and M. Ercan Acma2
- CLASSIFICATION OF COMBUSTION SYNTHESIS
- Self-Propagating High Temperature Synthesis
- SHS + Intensive Milling
- SHS with Mechanical Activation
- SHS with Chemical Treatment
- SHS with Additives
- Carbon Combustion Synthesis of Oxides (CCSO)
- Combustion Synthesis Melt Casting
- Solution Combustion Synthesis (SCS)
- Volume Combustion Synthesis (VCS)
- Self-propagating Sol Gel Combustion (SSGC)
- Impregnated Inert Support Combustion (IISC)
- Impregnated Active Layer Combustion (IALC)
- Emulsion Combustion Synthesis (ECS)
- Salt Assisted Solution Combustion Synthesis (SSCS)
- Microwave Assisted Solution Combustion Synthesis.
- THERMODYNAMICS AND KINETICS OF COMBUSTION SYNTHESIS
- Combustion Synthesis of Boron Carbide Matrix for Superhard Nanocomposites Production
- Levan Chkhartishvili1,2,*, Archil Mikeladze2, Roin Chedia3, Otar Tsagareishvili2, Mehmet Bugdayci4, Idris Karagoz5, Taylan Maras6, Nikoloz Jalabadze1 and Vakhtang Kvatchadze7
- BORON CARBIDE COMBUSTION SYNTHESIS
- PRODUCTION BORON CARBIDE BASED NANOCOMPOSITES
- Boron Carbide/Zirconium Diboride Ceramic Nanocomposite
- Boron Carbide/Titanium Diboride Ceramic Nanocomposites
- Boron Carbide/Binary Metallic Alloys Metalceramic Nanocomposites
- Selection of Binding Binary Metallic Phases
- Compacting of Metal-Ceramic Nanopowders
- Composition and Structure
- Geometry Steadiness of Products
- Boron Carbide/Ternary Metallic Alloy Metal-ceramic Nanocomposite
- Selection of Binding Ternary Metallic Phase
- Wetting Angle of Co-Ni-Ti Alloyed Boron Carbide
- Compacting of Metal-ceramic Powders
- Physical-Mechanical Properties
- Boron Carbide/Titanium Diboride/Cobalt Metal-ceramic Nanocomposite
- Boron Carbide/Titanium Diboride/Tungsten Carbide-Cobalt Metal-ceramic Nanocomposites
- CONCLUSION
- Adsorption Properties of Composites Produced by Combustion Synthesis
- Pelin Demircivi1,*
- ADSORPTION PROCESS
- SYNTHESIZE OF ZR DOPED SRAL2O4 AS AN ADSORBENT
- SYNTHESIZE OF TI DOPED SRAL2O4 AS AN ADSORBENT
- SYNTHESIZE OF EU DOPED SRAL2O4 AS AN ADSORBENT
- Production of Shape Memory Alloys with Combustion Synthesis
- Levent Oncel1,*
- TYPES OF SHAPE MEMORY ALLOYS.
- Copper-Based Shape Memory Alloys
- Iron-Based Shape Memory Alloys
- Nickel Titanium-Based Shape Memory Alloys
- Self-Propagating Synthesis And Metallothermic Reactions
- SHAPE MEMORY ALLOY PRODUCTION VIA COMBUSTION SYNTHESIS
- Development of Biomaterials by Combustion Synthesis
- Serkan Baslayici1,*
- PRODUCTION OF CALCIUM PHOSPHATE-BASED BIOMATERIALS
- PRODUCTION OF OTHER BIOMATERIALS BY COMBUSTION SYNTHESIS
- High-Entropy Alloys and their Production Via Combustion Synthesis
- Esra Dokumaci Alkan1,* and Murat Alkan1
- HIGH-ENTROPY CONCEPT
- PHYSICAL METALLURGY OF HIGH-ENTROPY ALLOYS
- PROPERTIES OF HIGH-ENTROPY ALLOYS
- PRODUCTION PROCESSES OF HIGH-ENTROPY ALLOYS
- POTENTIAL APPLICATIONS OF HIGH-ENTROPY ALLOYS
- PRODUCTION OF HIGH-ENTROPY ALLOYS BY COMBUSTION SYNTHESIS
- PRODUCTION OF HIGH-ENTROPY COMPOUNDS BY COMBUSTION SYNTHESIS
- Combustion Synthesis, Morphological and Optical Properties of Rare Earth Phosphates
- Mounir Ferhi1 and Karima Horchani-Naifer1,*
- Powder Synthesis via Combustion Method
- Selection of Precursors
- Fuels
- Oxidizers
- Synthesis Condition and Combustion Phenomena
- Parameters in Combustion Synthesis Reactions
- Liquid Reaction Medium
- Reaction Temperature
- Evolution of Gases in a Short Duration
- The Fuel Composition
- Oxidizer
- The Fuel to Oxidizer Molar Ratio
- Effects of Process Parameters on Product Yield
- Synthesis of Rare Earth Monophosphates Phosphors
- Investigation Methods
- Identification of Samples.
- Morphological Characterization
- Photoluminescence of Rare Earth Monophosphates
- Red Phosphor
- Emission Lifetime
- Chromatic Properties of GdPO4: Dy3+ Emission
- Subject Index
- Back Cover.
- Notes:
- Includes bibliographical references.
- Description based on publisher supplied metadata and other sources.
- Description based on print record.
- ISBN:
- 981-5050-44-3
- OCLC:
- 1314628341
The Penn Libraries is committed to describing library materials using current, accurate, and responsible language. If you discover outdated or inaccurate language, please fill out this feedback form to report it and suggest alternative language.