Description |
1 online resource |
Series |
Chemical engineering methods and technology |
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Materials science and technologies |
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Chemical engineering methods and technology.
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Materials science and technologies series.
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Contents |
SILICON NITRIDE ; SILICON NITRIDE ; CONTENTS ; PREFACE ; HIGH TEMPERATURE OXIDATION OF SILICON NITRIDE BASED CERAMICS: A REVIEW ; ABSTRACT ; 1. INTRODUCTION; 2. OXIDATION ; 2.1. Passive Oxidation; 2.2. Active Oxidation ; 2.3. Effect of Sintering Additives on the Oxidation of Si3N4 ; 2.4. Effect of Hot Pressing on the Oxidation of Si3N4 ; 2.5. Oxidation of Si3N4 under Different Atmospheres ; 2.6. Oxidation of Hot Isostatically Pressed Silicon Nitride ; CONCLUSION ; REFERENCES; LOW TEMPERATURE PREPARATION OF PHOSPHATE BONDED SILICON NITRIDE CERAMICS WITH HIGH MECHANICAL STRENGTH |
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ABSTRACT INTRODUCTION ; 1. PHOSPHATE BONDED SILICON NITRIDE POROUS CERAMICS ; 1.1. Zirconium Phosphate Bonded Silicon Nitride Porous Ceramics ; 1.1.1. Synthesis and Sintering Mechanisms ; (1) Stage I: Room Temperature to 250 Oc ; (2) Stage II: 250oC to Sintering Temperature (̃1000 OC) ; 1.1.2. Phase Compositions and Microstructure ; 1.1.3. Mechanical Properties ; 1.2. Phosphate Bonded Silicon Nitride Porous Ceramics with Bimodel Pore Structure ; 1.2.1. Synthesis ; 1.2.2. Phase Compositions and Microstructure |
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1.3. Phosphate Bonded Silicon Nitride Porous Ceramics Using a H3PO4 Pore-Forming Agent1.3.1. Synthesis and Sintering Mechanism ; 1.3.2. Phase Composition and Microstructure; 1.3.3. Mechanical Properties ; 2. SILICON NITRIDE CERAMICS USING PHOSPHATE AS SINTERING ADDITIVES ; 2.1. Synthesis and Sintering Behavior ; 2.2. Phase Compositions and Microstructure ; 2.3. Mechanical Properties ; 3. PHOSPHATE BONDED SILICON NITRIDE CERAMICS APPLIED FOR BROADBAND RADOME ; 3.1. Optimal Designs for the Radome Wall Structure ; 3.1.1. Hypotheses ; 3.1.2. Calculation Model |
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3.3. Numerical Results and Discussion 3.3.1. Effect of Layer Number (N) on the Transmission Efficiency of the Graded Radome Material ; 3.3.2. Effect of Structural Coefficient (P) on the Transmission Efficiency of the Graded Radome Material; 3.3.3. Effect of Wall Thickness (D) on the Transmission Efficiency of the Graded Radome Material ; 3.3.4. Effect of Dielectric Constant (F) on the Transmission Efficiency of the Graded Radome Material ; 3.4. Preparation of Porous Gradient ; 3.5. Phase Compositions and Microstructure ; ACKNOWLEDGMENTS ; REFERENCES |
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OPTICAL AND VIBRATION PROPERTIES OF SILICON RICH NITRIDE ABSTRACT ; INTRODUCTION ; EXPERIMENTAL ; RESULTS AND DISCUSSION ; Optical Properties of as-Deposited and Annealed SiNx:H Films in Visible Range ; Vibration Properties of as-Deposited and Annealed SiNx:H Films ; Pulse Laser Annealings of SiNx:H Films ; NANOSECOND LASER TREATMENTS ; FEMTOSECOND PULSE LASER TREATMENTS ; SUMMARY OF THE CHAPTER ; ACKNOWLEDGEMENTS ; REFERENCES; INFLUENCE OF THE ADDITIVES AMOUNT UPON SPS-SINTERING, METAL JOINING, AND HIGH TEMPERATURE OXIDATION OF SI3N4-CERAMICS ; ABSTRACT ; 1. INTRODUCTION |
Bibliography |
Includes bibliographical references and index |
Notes |
Print version record |
Subject |
Silicon nitride.
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SCIENCE -- Chemistry -- Inorganic.
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Silicon nitride
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Form |
Electronic book
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Author |
Hierra, Emiliano Jose
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Salazar, Jesus Anjel
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LC no. |
2019721447 |
ISBN |
9781619428874 |
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1619428873 |
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