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Materials science and engineering: concepts, methodologies, tools, and applications / Information Resources Management Association. — 1 online resource (3 volumes in 1) : illustrations. — "Premier reference source"--Cover. — <URL:http://elib.fa.ru/ebsco/1454610.pdf>.

Record create date: 2/3/2017

Subject: Materials science.; Materials management.; Materials management.; Materials science.; TECHNOLOGY & ENGINEERING / Engineering (General); TECHNOLOGY & ENGINEERING / Reference

Collections: EBSCO

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Table of Contents

  • Title Page
  • Copyright Page
  • Editorial Advisory Board
  • List of Contributors
  • Table of Contents
  • Preface
  • Section 1: Fundamental Concepts and Theories
    • Chapter 1: Innovative Instructional Strategies for Teaching Materials Science in Engineering
    • Chapter 2: Quantitative Nanostructure-Activity Relationship Models for the Risk Assessment of NanoMaterials
    • Chapter 3: Materials and Mechanics
  • Section 2: Development and Design Methodologies
    • Chapter 4: Computational Design of Microstructure
    • Chapter 5: Advanced Machining Techniques for Fiber-Reinforced Polymer Composites
    • Chapter 6: Materials as a Bridge between Science, Engineering, and Design
    • Chapter 7: Informatics-Based Approaches for Accelerated Discovery of Functional Materials
    • Chapter 8: Multi-Objective Evolutionary Algorithms
    • Chapter 9: Successes in the Development of an Arabian Gulf Materials Program
    • Chapter 10: Plastics and Priority during the Recycling
    • Chapter 11: Engineered Gellan Polysaccharides in the Design of Controlled Drug Delivery Systems
    • Chapter 12: Computational Methods for Prediction of Protein-Protein Interactions
    • Chapter 13: Numerical Simulation of High Temperature Deformation Behavior of Nickel-Based Superalloys Using Crystal Plasticity Models and Finite Element Method
    • Chapter 14: Laser-Based Manufacturing Processes for Aerospace Applications
    • Chapter 15: Optimization of Drilling Process on Al-SiC Composite Using Grey Relation Analysis
    • Chapter 16: Techno-Economic and Life Cycle Assessment for the Production of Green Composites
    • Chapter 17: Material and Tribology Issues of Self-Lubricating Copper Matrix Composite
    • Chapter 18: Multifunctional Dendrimers for Drug Nanocarriers
    • Chapter 19: Control of Perishable Goods in Cold Logistic Chains by Bionanosensors
  • Section 3: Tools and Technologies
    • Chapter 20: Processing Technologies for Green Composites Production
    • Chapter 21: Product Design Applied to Formulated Products
    • Chapter 22: Chemiresistive Gas Sensors Based on Conducting Polymers
    • Chapter 23: Engineering of Microbes for Heavy Metal Tolerance
    • Chapter 24: Developments in Antibacterial Disinfection Techniques
    • Chapter 25: Strengthening of Historic Masonry Structures with Composite Materials
    • Chapter 26: Functional Polymeric Coatings
    • Chapter 27: Integrated Computational Materials Engineering for Determining the Set Points of Unit Operations for Production of a Steel Product Mix
    • Chapter 28: Functionalized Magnetic Nanoparticles for Environmental Remediation
    • Chapter 29: Identifying Nanotechnological Systems of Innovation
    • Chapter 30: Non-Hydrolyzed Resins for Organic-Inorganic Hybrid Coatings
    • Chapter 31: Nanotechnology in Engineered Membranes
    • Chapter 32: Tribocorrosion in Metal Matrix Composites
  • Section 4: Utilization and Application
    • Chapter 33: Applications of Nanomaterials in Construction Industry
    • Chapter 34: Applications of Nanomaterials for Activation and Suppression of Immune Responses
    • Chapter 35: Fabrication and Processing of Pineapple Leaf Fiber Reinforced Composites
    • Chapter 36: Quickstep Processing of Polymeric Composites
    • Chapter 37: Modeling, Design, and Applications of the Gas Sensors Based on Graphene and Carbon Nanotubes
    • Chapter 38: Non-Wood Lignocellulosic Composites
    • Chapter 39: Drilling of Tio2 and Zns Filled Gfrp Composites
    • Chapter 40: Processing Routes, Mechanical, and Tribological Properties of Light Metal Matrix Nanocomposites
    • Chapter 41: Wood-Based Composites
    • Chapter 42: Interdisciplinary Course Development in Nanostructured Materials Science and Engineering
    • Chapter 43: Practical Applications of X-Ray Line Profile Analysis
    • Chapter 44: Smart Hydrogels for Pharmaceutical Applications
    • Chapter 45: Nanotechnology in the Food Industry
    • Chapter 46: Ecotoxicity and Toxicity of Nanomaterials with Potential for Wastewater Treatment Applications
    • Chapter 47: Nanotechnology for Environmental Control and Remediation
    • Chapter 48: Sino-Saudi Joint Ventures and Trade in Petrochemical Sector
    • Chapter 49: Semester-Long Team Project Integrating Materials and Mechanics Concepts
    • Chapter 50: Abrasion-Corrosion of Thermal Spray Coatings
    • Chapter 51: Influence of Process Parameters on Microstructure of Friction Stir Processed Mg AZ31 Alloy
    • Chapter 52: Assessment of Advanced Biological Solid Waste Treatment Technologies for Sustainability
    • Chapter 53: Pharmaceutical and Medical Applications of Nanofibers
    • Chapter 54: Application of Nanoparticles as a Drug Delivery System
    • Chapter 55: Mitigation of Wear Damage by Laser Surface Alloying Technique
    • Chapter 56: EDM Process Parameters Optimization for Al-TiO2 Nano Composite
  • Section 5: Organizational and Social Implications
    • Chapter 57: The Role of Digital Libraries in Teaching Materials Science and Engineering
    • Chapter 58: Ecotoxicity Effects of Nanomaterials on Aquatic Organisms
    • Chapter 59: Virtual Environments in Materials Science and Engineering
    • Chapter 60: Applying a Coherent Academy Training Structure to Vertically Integrate Learning, Teaching and Personal Development in Materials Science and Engineering
    • Chapter 61: QSAR-Based Studies of Nanomaterials in the Environment
    • Chapter 62: Understanding Toxicity of Nanomaterials in Biological Systems
    • Chapter 63: Cultural Heritage Career Paths for Materials Scientists and Corrosion Engineers
    • Chapter 64: Teaching “Design-for-Corrosion” to Engineering Undergraduates
    • Chapter 65: Risks and Preventive Measures of Nanotechnology
    • Chapter 66: Quasi-SMILES for Nano-QSAR Prediction of Toxic Effect of Al2O3 Nanoparticles
    • Chapter 67: Linking Materials Science and Engineering Curriculum to Design and Manufacturing Challenges of the Automotive Industry
    • Chapter 68: The Impact of Nanotechnology on Environment
    • Chapter 69: Effect of Tempering Temperature on Microstructure, Texture and Mechanical Properties of a High Strength Steel
  • Section 6: Emerging Technologies
    • Chapter 70: Review of Current and Emerging Approaches for Quantitative Nanostructure-Activity Relationship Modeling
    • Chapter 71: Advances in Functional Nanocoatings Applied in the Aerospace Industry
    • Chapter 72: Recent Trends and Advancement in Nanotechnology for Water and Wastewater Treatment
    • Chapter 73: Stratagems of Nanotechnology Augmenting the Bioavailability and Therapeutic Efficacy of Traditional Medicine to Formulate Smart Herbal Drugs Combating
  • Index

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