Bio Inspired Materials 1st Edition by Ulisses Targino Bezerra, Heber Sivini Ferreira, Normando Perazzo Barbosa 9789811406898 9811406898

Bio Inspired Materials 1st Edition Ulisses Targino Bezerra – Ebook Instant Download/Delivery ISBN(s): 9789811406898,9811406898

Product details:

• ISBN 10:9811406898
• ISBN 13:9789811406898
• Author: Ulisses Targino Bezerra, Heber Sivini Ferreira, Normando Perazzo Barbosa

Bio-Inspired Materials

Table contents:

1. INTRODUCTION
2. BIOMIMETIC DESIGN
3. KINEMATICS
3.1. Soft-mechanical Approach
3.2. Simulation Approaches
4. BIO-PULSE OSCILLATIONS
5. CASE STUDY: HIGH-RISE AIRFLOW SYSTEM
5.1. Primary Structure
5.2. Secondary Kinetic Mechanism
5.2.1. Simulation Analysis
6. CONCLUSIONS
CONSENT FOR PUBLICATION
ACKNOWLEDGEMENTS
CONFLICT OF INTEREST
REFERENCES
Truss Material Reduction Provided by the Golden Ratio
Ulisses Targino Bezerra*
1. INTRODUCTION
2. PRATT TRUSS MODELS
3. PRATT TRUSS ANALYSIS
CONCLUSIONS
ACKNOWLEDGEMENTS
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
REFERENCES
Complexity and Adaptability in Nature and Society
George Rzevski*
1. INTRODUCTION
2. WHAT IS COMPLEXITY?
3. SEVEN KEY PROPERTIES OF COMPLEXITY
3.1. Connectivity
3.2. Autonomy
3.3. Emergence
3.4. Nonequilibrium
3.5. Nonlinearity
3.6. Self-organization
3.7. Co-evolution
4. COMPLEXITY SCIENCE
4.1. Brief Overview
Our social, economic and political environments cannot be simplified because their complexity is a r
5. ADAPTABILITY
5.1. Coping with Disruptions
5.2. Defending from Attacks
5.3. Resolving Conflicts
5.4. Correcting Drift into Failure and Avoiding Stagnation
6. DESIGNING FOR ADAPTABILITY
7. TECHNOLOGY FOR DESIGNING COMPLEXITY INTO ORGANIZATIONS, PROCESSES AND PRODUCTS
7.1. Architecture
7.2. How Multi-Agent Software Works
7.3. Organizational and Process Design Cases
7.4. Engineering Design Cases
CONCLUSIONS
CONSENT FOR PUBLICATION
ACKNOWLEDGEMENTS
CONFLICT OF INTEREST
REFERENCES
Without Inner Walls: A Concept of the Café’s House
Theófilo Barreto Moreira Oliveira1,* and Ulisses Targino Bezerra2
1. INTRODUCTION
2. OW: WITHOUT INNER WALLS
3. FLOOR PLAN
4. STUDIO
5. LIVING ROOM
6. KITCHEN AND DINING ROOM
7. OFFICE AND BALCONY
8. BATHROOM/WC
9. LAVATORY
10. GUEST ROOM
11. SUITE
12. ROOFTOP TERRACE
13. SERVICE AREA
14. THE NULLIFICATION OF OW
NOTES
CONSENT FOR PUBLICATION
ACKNOWLEDGEMENTS
CONFLICT OF INTEREST
REFERENCES
Similarity Between Particle Packing in Concrete and in Nature
Eng. Piet Stroeven1,* and Eng. Kai Li2
1. INTRODUCTION
2. REALCRETE AND COMPUCRETE
3. AGGREGATE PACKING BY DEM
3.1. Bulk Packing
3.2. Boundary Effects
4. PACKING OF FIBERS IN CONCRETE
5. DEM PACKING OF BINDER
DISCUSSION AND CONCLUSIONS
CONSENT FOR PUBLICATION
ACKNOWLEDGEMENTS
CONFLICT OF INTEREST
REFERENCES
Current Developments and Future Needs for Natural Earth Construction: A State-of-the-Art Review
Ana Cecilia Vieira Nóbrega1 and Normando Perazzo Barbosa2*
1. INTRODUCTION
2. AN OVERVIEW OF NATURAL EARTH BUILDING
3. SOIL – MATERIALS SELECTION FOR EARTH CONSTRUCTION
4. DURABILITY OF EARTHEN CONSTRUCTION
5. ACADEMIC AND FIELD RESEARCH IN NATURAL EARTH CONSTRUCTIONS: A STATE-OF-THE-ART REVIEW WITH CURREN
6. DEVELOPING EARTH CONSTRUCTION BUILDING CODES, STANDARDS, AND NORMS
7. WORLD INNOVATIONS IN EARTHEN CONSTRUCTION
8. FUTURE NEEDS IN EARTH BUILDING
FINAL CONSIDERATIONS
CONSENT FOR PUBLICATION
ACKNOWLEDGEMENTS
CONFLICT OF INTEREST
REFERENCES
Bio-inspired Design with Bamboo
Normando Perazzo Barbosa1,*, José Augusto Gomes Neto1, Sandra Reyes Ortiz2 and Khosrow Ghavami3
1. INTRODUCTION
2. GENERALITIES CONCERNING BAMBOO
2.1. Morphology
2.1.1. Rhizomes and Roots
2.1.2. Culms
2.1.3. Branches
2.1.4. Leaves
2.1.5. Flowers and Fruits
3. HOW TO GET CULMS TO CONSTRUCTION
3.1. Selection
3.2. Cutting
3.3. Curing
3.4. Drying
3.5. Immunization Treatments
4. PHYSICAL PROPERTIES
4.1. Inter-nodal Distance, Outside Diameter, Wall Thickness
4.2. Water Absorption
4.3. Specific Mass
5. MECHANICAL PROPERTIES
5.1. Compressive Strength
5.2. Compressive Strength Parallel to Fibers
5.3. Shear Strength Parallel to Fibers
5.4. Summary of Mechanical Properties in Tension and Compression Parallel to Fibers
6. FUTURE PERSPECTIVES
6.1. Impregnation of Bamboo with Polymeric Resins
CONSENT FOR PUBLICATION
ACKNOWLEDGEMENTS
CONFLICT OF INTEREST
REFERENCES
Frontiers in Bio-Inspired Mineralization: Addressing Mimesis of Four-Dimensional, Hierarchical, and
Stephan E. Wolf1,2,*, Martina Schüßler1, Corinna F. Böhm1 and Benedikt Demmert1
1. INTRODUCTION
2. TOWARDS DYNAMIC CONTROL OF MINERALIZATION – THE STATIC, QUASI-STATIC, AND DYNAMIC GENESIS OF BI
3. HIERARCHICAL MINERALIZATION – CONTROL OF HIERARCHY AND STRUCTURES ACROSS MULTIPLE LENGTH SCALES
4. NONCLASSICAL MINERALIZATION – COLLOID-MEDIATED MINERALIZATION PROCESSES AS A SOURCE OF FUNCTION
CONCLUSION
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Sustainable and Safe Construction Biomaterials: Biocements and Biogrouts
Volodymyr Ivanov* and Viktor Stabnikov
1. INTRODUCTION
2. BIOCEMENT/BIOGROUT FOR CRYSTALLIZATION OF CALCIUM CARBONATE BY HYDROLYSIS OF UREA AT MOLAR RATIO
3. THE DIVERSITY OF BIOCEMENTS AND BIOGROUTS
4. MICROORGANISMS FOR BIOCEMENT/BIOGROUT
5. BIOCEMENTATION BIOSAFETY: USE OF ENRICHMENT OR PURE CULTURE
6. PRODUCTION OF BIOSAFE BIOCEMENTS
7. ACTIVATED SLUDGE FROM MUNICIPAL WASTEWATER TREATMENT PLANTS USED AS RAW MATERIAL
8. DRY AND LIQUID CALCIUM-BASED BIOCEMENT
9. UNCONFINED COMPRESSIVE (UC) STRENGTH OF SAND AFTER MICP
10. ENGINEERING APPLICATIONS OF BIOCEMENTS
CONSENT FOR PUBLICATION
CONFLICT OF INTEREST
ACKNOWLEDGEMENTS
REFERENCES
Interaction Between Natural Fibres and Synthetic Polymers
Alejandro Manzano-Ramírez1,*, Mario Villalón2 and José Luis Reyes Araiza3
1. INTRODUCTION
2. REINFORCED COMPOSITE MATERIALS WITH NATURAL FIBERS
2.1. Natural Fibers
2.2. Chemical Treatments to Promote Adherence of Natural Fibers
3. TESTING STATIC METHODS
3.1. Conclusions of Static Tests
4. TESTING-VIBRATION METHODS
4.1. Dynamic Mechanical Analysis (DMA)
4.2. Design of Dynamic Mechanical Tests
4.2.1. Preparation of Treated Short Coir Fibre
4.2.2. Composite Materials Fabrication
4.2.3. Dynamic Test
4.3. Coir Fiber Dynamic Test Results

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