Advanced ceramic materials:
Gespeichert in:
| Weitere Verfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Beverly, Massachusetts
Scrivener Publishing
[2016]
Hoboken, New Jersey Wiley [2016] |
| Schriftenreihe: | Advanced materials series
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | xiv, 424 Seiten |
| ISBN: | 9781119242444 |
Internformat
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| adam_text | Contents
Preface xiii
Part 1 Design, Processing, and Properties
1 Development of Epitaxial Oxide Ceramics Nanomaterials
Based on Chemical Strategies on Semiconductor Platforms 3
A. Carretero-Genevrier, R. Bachele G.
R. Moalla, J. M. Vila-FungueiriHo, B. Rivas-Murias,
F. Rivadulla, J. Rodriguez-Carvajal, A. Gomez,
J. Gazquez, M. Gich and N. Mestres
1.1 Introduction 4
1.2 Integration of Epitaxial Functional Oxides
Nanomaterials on Silicon Entirely Performed
by Chemical Solution Strategies 8
1.2.1 Integration of Piezoelectric Quartz Thin
Films on Silicon by Soft Chemistry 10
1.2.2 Controllable Textures of Epitaxial
Quartz Thin Films 13
1.2.3 Integration of Functional Oxides by
Quartz Templating 17
1.2.4 Highly Textured ZnO Thin Films 21
1.3 Integration of Functional Oxides by Combining
Soft Chemistry and Physical Techniques 22
1.4 Conclusions 23
Acknowledgments 26
References 26
v
VI
Contents
2 Biphasic, Triphasic, and Multiphasic Calcium Orthophosphates 33
Sergey V. Dorozhkin
2.1 Introduction 34
2.2 General Definitions and Knowledge 38
2.3 Various Types of Biphasic, Triphasic,
and Multiphasic CaP04 40
2.4 Stability 42
2.5 Preparation 44
2.6 Properties 51
2.7 Biomedical Applications 53
2.8 Conclusions 59
References 60
3 An Energy Efficient Processing Route for Advance Ceramic
Composites Using Microwaves 97
Satnam Singh, Dheeraj Gupta and Vivek Jain
3.1 Introduction 98
3.2 Historical Developments in Materials Processing by
Microwaves 99
3.3 Introduction to Microwave Heating Process 101
3.3.1 Microwave-materials Interaction Theory 102
3.3.2 Microwave Heating Mechanisms 104
3.4 Heating Methods by Microwaves 107
3.4.1 Direct Microwave Heating 107
3.4.2 Microwave Hybrid Heating 108
3.4.3 Selective Heating 109
3.4.4 Microwave-assisted Processing of Materials 109
3.5 Advantages/Limitations of Microwave
Material Processing 110
3.5.1 Highly Energy Efficient Processing Method 110
3.5.2 Better Quality of Processed Materials 113
3.5.3 Cleaner Energy Processing 114
3.5.4 Compact Processing Unit 114
3.5.5 Restriction in Processing of All Varieties
of Materials 115
3.5.6 Restrictions in Processing of Complex Shapes 115
3.5.7 Non-uniformity in Heating 115
3.5.8 Human Safety Issues 115
Contents vii
3.6 Application of Microwave Heating in
Composite Processing 116
3.6.1 Recent Review of Work Carried Out in
MMC/CMC/Alloys/Ceramic Processing
by Microwaves 119
3.6.2 Microwave Melting/Casting of Metals/
Metal Matrix Composites 127
3.7 Future Prospectives 130
3.8 Conclusion 133
References 133
rt 2 Ceramic Composites: Fundamental and Frontiers
Continuous Fiber-reinforced Ceramic Matrix Composites 147
Rebecca Gottlieb, Shannon Poges, Chris Monteleone
and Steven L. Suib
4.1 Introduction 148
4.2 Parts of a CMC 149
4.2.1 Fibers 150
4.2.2 Interphase 151
4.2.3 Matrix 152
4.3 Modern Uses of CMCs 154
4.4 History 155
4.5 Ceramic Fibers 158
4.5.1 Oxide Fibers 158
4.5.1.1 Alumina Fibers 159
4.5.1.2 Stabilized Alumina Fibers 160
4.5.1.3 Alumina Silicate Fibers 160
4.5.1.4 Other Oxide Fibers 164
4.5.2 Non-oxide Fibers (SiC) 164
4.5.2.1 Oxidation 164
4.5.2.2 Irradiation 165
4.5.2.3 Sintering 165
4.5.3 Carbon Fibers 166
4.5.3.1 Polyacrylonitrile 167
4.5.3.2 Pitch 167
4.6 Interface/Interphase 168
4.6.1 Requirements 169
4.6.2 Non-oxide 170
4.6.3 Oxide 171
viii Contents
4.7 Matrix Materials 172
4.7.1 Carbon 172
4.7.2 Silicon Carbide 175
4.7.3 Oxides 178
4.8 Matrix Fabrication Techniques 179
4.8.1 Polymer Impregnation and Pyrolysis 180
4.8.2 Chemical Vapor Infiltration 181
4.8.3 Melt Infiltration 183
4.8.4 Slurry Infiltration 184
4.8.5 Metal Oxidation 185
4.9 Toughness of CMCs 185
4.9.1 Fiber/Matrix Interface 186
4.9.2 Modes of Failure 186
4.9.3 Energy-Absorbing Mechanisms 187
4.9.4 Stress Testing of Composites 188
4.10 Applications 188
4.10.1 Brakes and Friction 190
4.10.2 Biomedical Applications 191
Acknowledgments 193
References 193
5 Yytria- and Magnesia-doped Alumina Ceramic
Reinforced with Multi-walled Carbon Nanotubes 201
Iftikhar Ahmad and Yanqiu Zhu
5.1 Introduction 202
5.2 Dispersions and Stability of MWCNTs 202
5.3 Influence of Yytria (Y203) Doping on MWCNT/A1203
Nanocomposites 205
5.3.1 Densification and Microstructure Development 205
5.3.2 Mechanical Performance and
Toughening Mechanism 210
5.4 Magnesia (MgO)-Tuned MWCNT/A1203
Nanocomposites 215
5.4.1 Role of MgO on the Densification and
Microstructural Features 215
5.4.2 Effect of MgO on the Grain Size and
Fracture B ehavior 217
5.4.3 Mechanical Response of MgO-Doped
MWCNT/A1203 Nanocomposite 221
Contents ix
5.5 Conclusions 225
Acknowledgments 226
References 227
6 Oxidation-induced Crack Healing in MAX Phase
Containing Ceramic Composites 231
Guoping Bei and Peter Greil
6.1 History of Crack Healing in Ceramics 232
6.2 High-temperature Crack Healing in MAX Phases 233
6.2.1 MAX Phases 233
6.2.2 Crack Healing in Al-contained MAX Phases 234
6.2.2.1 Ti3AlC2 234
6.2.2.2 Ti2AlC 235
6.2.2.3 Cr2AlC 238
6.3 Lower-temperature Crack Healing in MAX
Phase-based Ceramics 241
6.3.1 Oxidation Behavior of Ti.AL .Sn C MAX
2 (l~x) X
Phase Solid-solution Powders 241
6.3.2 Oxidation-induced Crack Healing in
Thermal-shocked Ti2SnC MAX Phase 244
6.3.3 Crack Healing in Ti2Al0 5Sn0 5C-A1203
Composites 249
6.4 Conclusions 255
Acknowledgments 256
References 256
7 SWCNTs versus MWCNTs as Reinforcement Agents
in Zirconia- and Alumina-based Nanocomposites:
Which One to Use 261
M.H. Bocanegra-Bernal, C. Domi
A. Garcia-Reyes, A. Aguilar-Elguezabal and J. Echeberria
7.1 Introduction 262
7.2 Single-walled Carbon Nanotubes 266
7.3 Multi-walled Carbon Nanotubes 269
7.4 The Effects of CNTs Types on the Mechanical
Properties of Al203- and Zr02-based Ceramics 274
7.5 Why SWCNTs? or Why MWCNTs? 285
7.6 Conclusions 287
Acknowledgments 289
References 289
x Contents
Part 3 Functional and Applied Ceramics
8 Application of Organic and Inorganic Wastes in
Clay Brick Production: A Chemometric Approach 301
Milica V. Vasid, Zagorka Radojevid, and Lato Pezo
8.1 Introduction 302
8.2 Materials and Methods 305
8.2.1 Raw Materials and Laboratory Brick Samples 305
8.2.2 Macro Oxides Content of the Used Raw Materials 306
8.2.3 Response Surface Method 307
8.2.4 Fuzzy Synthetic Evaluation Algorithm 308
8.2.5 Artificial Neural Network modeling 309
8.3 Results and Discussion 312
8.3.1 Characteristics of Raw Materials 312
8.3.2 Changes Observed in Shaping and
Drying in the Air 314
8.3.3 Characteristics of Fired Products 318
8.3.4 RSM and ANOVA Analysis 321
8.3.5 Neurons in the ANN Hidden Layer 323
8.3.6 Simulation of the ANNs 325
8.3.7 Principal Component Analysis 328
8.3.8 Optimization 330
8.4 Conclusions 331
Acknowledgments 332
References 332
9 Functional Tantalum-based Oxides: From the Structure
to the Applications 337
Sebastian Zlotnik, Alexander Tkach and Paula M. Vilarinho
9.1 Functional Materials: Current Needs 338
9.2 Importance of Tantalum and Tantalum-based Oxides 342
9.3 Properties of Alkali Tantalates 343
9.3.1 Crystal and Electronic Structures 343
9.3.2 Thermochemistry 347
9.4 Processing of Alkali Tantalate Ceramics for Electronic
Applications 351
9.5 Potential Applications of Alkali Tantalates 358
9.5.1 Sodium Tantalate as a Photocatalyst 358
9.5.2 Lithium Tantalate as a Piezoelectric Biomaterial 366
Contents xi
9.6 Conclusions 370
Acknowledgement 371
References 371
10 Application of Silver Tin Research on Hydroxyapatite 385
Ewa Skwarek
10.1 Introduction 386
10.1.1 Properties of Silver 386
10.1.2 Application of Silver 387
10.1.3 Hydroxyapatite (HAP)-Silver 391
10.2 Materials and Methods 399
10.2.1 Synthesis of Hydroxyapatite Using the
Co-precipitation Method 399
10.2.2 Synthesis of Silver-doped Hydroxyapatite 400
10.2.3 Characteristics of Surfaces of Obtained Materials 400
10.3 Results and Discussion 402
10.3.1 The Results of XRD and Surface 402
10.3.2 Zeta Potential at the Hydroxyapatite/NaNOs
Electrolyte Solution Interface 404
10.3.3 Surface Charge Density 408
10.3.4 Adsorption of Silver Ions on Hydroxyapatite 410
10.3.5 Kinetics of Ag+ Ions Adsorption on the
Hydroxyapatite Surface 413
10.4 Conclusion 414
References 415
Index 419
The volume brings together innovative methodologies and strategies adopted in
advanced ceramic materials R D and provides a comprehensive view of
cutting-edge research on ceramic materials and technologies.
Ceramic materials are inorganic and nonmetallic porcelains, tiles, enamels, cements, glasses and refractory bricks.
Today, the term “ceramics” has gained a wider meaning as a new generation of materials which influence our lives;
electronics, computers, communications, aerospace and other industries rely on them for a number of uses. In general,
advanced ceramic materials include electroceramics, optoelectronic ceramics, superconductive ceramics and the more
recently developed piezoelectric and dielectric ceramics.
Advanced Ceramic Materials describes a wide range of processing methods used to generate ceramic materials for a
variety of functional, structural and biomedical applications. The book provides:
• An excellent review of solution-based methods that can be used to deposit epitaxial films of oxide nanomaterials
for microelectronics applications;
• A detailed description of tantalum oxides and related phases and their potential use in solar cells and other
applications;
• The basics of microwave processing;
• A description of continuous fiber ceramic matrix composites;
• Carbon nanotubes (single-wall and multiwall) into bulk alumina and zirconia and how the characteristics of the
nanotubes as well as the processing methods used can affect the resultant properties;
• The detection of crack healing in MAX phase ceramics and their enhanced properties;
• Various chapters discussing the effect of additives on manufacturability and biocompatibility such as waste materials
from a variety of industries incorporated into ceramic brick for sustainable manufacturing; the proposition of an
artificial neural network optimization program for identifying the conditions that work best for each additive; how
to use additives to improve the bioactivity of calcium orthophosphates used in medical implants.
Audience
This book is written for readers from diverse backgrounds across the fields of chemistry, physics, materials science
and engineering, medical science, pharmacy, environmental technology, biotechnology, and biomedical engineering.
Ashutosh Tiwari is Secretary General, International Association of Advanced Materials; Chairman and Managing
Director of Tekidag AB (Innotech); Associate Professor and Group Leader, Smart Materials and Biodevices at
the world premier Biosensors and Bioelectronics Centre, IFM-Linköping University; Editor-in-Chief, Advanced
Materials Letters , a materials chemist and docent in the Applied Physics with the specialization of Biosensors
and Bioelectronics from Linköping University, Sweden. He has more than 100 peer-reviewed primary research
publications in the field of materials science and nanotechnology and has edited/authored more than 35 books on
advanced materials and technology.
Rosario A. Gerhardt is a Professor of Materials Science and Engineering at the Georgia Institute of Technology
where she was named Goizueta Foundation Faculty Chair in 2015 in recognition of her teaching, research and
service contributions. She has contributed to the ceramics literature by developing structure-property-processing
relationships in a wide range of materials, beginning with her PhD work on the effect of dopant size on cerium
dioxide. Her work has led to the awarding of several patents for being able to achieve percolation at very low volume
fractions of the filler. More recently her group has also synthesized colloidal nanoparticles and created functional
films via spin coating and inkjet printing. In addition to her processing expertise, she is one of the world’s experts on
the measurement of ac properties of materials and devices.
Magdalena Szutkowska is a Professor in the Institute of Advanced Manufacturing Technology and head of the
Materials Testing Laboratory in Poland. She is currently involved in the manufacturing and testing of new composite
ceramics based on alumina, hard metals and super hard materials in order to improve the fracture toughness of
ceramics designed for cutting tools. She is the author and co-author of more than 120 papers, three monographs,
a few chapters in books and the co-author of 5 patents and is a member of the working group for multifunctional
materials and advanced composites (nanocomposites) at the Polish Ministry of Development.
ISBN 978-1-119-24244-4
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| id | DE-604.BV043818041 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:35:54Z |
| institution | BVB |
| isbn | 9781119242444 |
| language | English |
| lccn | 016032966 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029229117 |
| oclc_num | 960406439 |
| open_access_boolean | |
| owner | DE-703 DE-83 |
| owner_facet | DE-703 DE-83 |
| physical | xiv, 424 Seiten |
| publishDate | 2016 |
| publishDateSearch | 2016 |
| publishDateSort | 2016 |
| publisher | Scrivener Publishing Wiley |
| record_format | marc |
| series2 | Advanced materials series |
| spelling | Advanced ceramic materials edited by Ashutosh Tiwari, Rosario A. Gerhardt and Magdalena Szutkowska Beverly, Massachusetts Scrivener Publishing [2016] Hoboken, New Jersey Wiley [2016] xiv, 424 Seiten txt rdacontent n rdamedia nc rdacarrier Advanced materials series Ceramic materials Verbundwerkstoff (DE-588)4062670-2 gnd rswk-swf Keramik Technik (DE-588)4030271-4 gnd rswk-swf Hochleistungswerkstoff (DE-588)4312250-4 gnd rswk-swf Keramischer Werkstoff (DE-588)4030282-9 gnd rswk-swf Hochleistungskeramik (DE-588)4392837-7 gnd rswk-swf Keramikherstellung (DE-588)4163581-4 gnd rswk-swf Keramischer Werkstoff (DE-588)4030282-9 s Keramikherstellung (DE-588)4163581-4 s DE-604 Keramik Technik (DE-588)4030271-4 s Hochleistungskeramik (DE-588)4392837-7 s Verbundwerkstoff (DE-588)4062670-2 s Hochleistungswerkstoff (DE-588)4312250-4 s Tiwari, Ashutosh 1978- (DE-588)1114183709 edt Gerhardt, Rosario A. edt Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029229117&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029229117&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Advanced ceramic materials Ceramic materials Verbundwerkstoff (DE-588)4062670-2 gnd Keramik Technik (DE-588)4030271-4 gnd Hochleistungswerkstoff (DE-588)4312250-4 gnd Keramischer Werkstoff (DE-588)4030282-9 gnd Hochleistungskeramik (DE-588)4392837-7 gnd Keramikherstellung (DE-588)4163581-4 gnd |
| subject_GND | (DE-588)4062670-2 (DE-588)4030271-4 (DE-588)4312250-4 (DE-588)4030282-9 (DE-588)4392837-7 (DE-588)4163581-4 |
| title | Advanced ceramic materials |
| title_auth | Advanced ceramic materials |
| title_exact_search | Advanced ceramic materials |
| title_full | Advanced ceramic materials edited by Ashutosh Tiwari, Rosario A. Gerhardt and Magdalena Szutkowska |
| title_fullStr | Advanced ceramic materials edited by Ashutosh Tiwari, Rosario A. Gerhardt and Magdalena Szutkowska |
| title_full_unstemmed | Advanced ceramic materials edited by Ashutosh Tiwari, Rosario A. Gerhardt and Magdalena Szutkowska |
| title_short | Advanced ceramic materials |
| title_sort | advanced ceramic materials |
| topic | Ceramic materials Verbundwerkstoff (DE-588)4062670-2 gnd Keramik Technik (DE-588)4030271-4 gnd Hochleistungswerkstoff (DE-588)4312250-4 gnd Keramischer Werkstoff (DE-588)4030282-9 gnd Hochleistungskeramik (DE-588)4392837-7 gnd Keramikherstellung (DE-588)4163581-4 gnd |
| topic_facet | Ceramic materials Verbundwerkstoff Keramik Technik Hochleistungswerkstoff Keramischer Werkstoff Hochleistungskeramik Keramikherstellung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029229117&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029229117&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT tiwariashutosh advancedceramicmaterials AT gerhardtrosarioa advancedceramicmaterials |