ASM:2022: Call for Book Chapters (No Publication Charge): Advancements in Sustainable Materials: Fundamentals, Modelling, Characterization and Challenges |
Submission link | https://easychair.org/conferences/?conf=asm2022 |
Abstract registration deadline | October 15, 2022 |
Proposal Decision Notification | October 30, 2022 |
Submission deadline | December 25, 2022 |
Final decision Notification | January 30, 2023 |
Scope of the book
This book explain the detailed description of various sustainable materials like polymers, metals, ceramics, composites, biomaterials, biodegradable materials, smart materials, Nano materials, functionally graded materials and sustainable novel materials etc. The subterranean details like sustainable material characterization techniques, modelling of materials, role of artificial intelligence, Industry 4.0, nature inspired algorithms and optimization possibilities, various computational and simulation approach in maintaining the sustainability of materials will be covered in this book. In addition to above various case studies of sustainable materials specially related to medical, environmental, pharmaceuticals, production/mechanical and civil engineering will be coved to help the students of undergraduate, postgraduate and research scholars. The coverage of this book with inputs from worldwide R&D scholars, academics and professionals result in revolutionary and unique compendium in the field of sustainable materials.
Submission Guidelines
The proposal of minimum 2-3 pages (Title, Authors with affiliation, Abstract, Keywords, Table of Contents, Nature of work - Review/Research, Detailed Methodology, 8-10 References) should be sent through the following link:
https://easychair.org/conferences/?conf=asm2022
List of Topics
Topics of interest include, but are not limited to the following:
I. Introduction
- Sustainability of Materials
- Prospects of Sustainable Materials
- Benefits of Sustainable materials and its applications
- Environmental Impact Assessment of Sustainable Materials
- State-of-art review of Sustainable Materials
- Brief history on development of industrially important Sustainable Materials
- Regulations for Sustainable Materials: ISO and ASTM standards
II. Sustainable materials
- Sustainable Polymers
- Sustainable Metals and Metal oxides
- Sustainable Ceramics
- Sustainable Composites
- Biopolymer Composites
- Responsive Biomaterials
- Sustainable Functional materials
- Functionally graded piezoelectric materials
- Sustainable Biodegradable and bio-based materials
- Sustainable Nano Materials
- Sustainable carbon materials
- Sustainable Smart and novel Materials
- Sustainable Building Construction materials
III. Synthesis strategies and Processing/optimization of sustainable materials
- Chemical synthesis of Sustainable Materials
- Green material Synthesis
- Optimization Technique and possibilities for Sustainable Material Processing
- Processing of recycled and bio-based materials
- Various Scattering methodologies for structure analysis of Sustainable Materials
- Nature inspired optimization techniques of sustainable materials
- Challenges in synthesis strategies and processing of sustainable materials
IV. Characterization and modeling of sustainable materials
- Analysis of various properties of Sustainable Materials
- Experimental, numerical and theoretical characterization aspects of Sustainable Materials
- Characterization using contact and non-contact methods
- Nature Inspired algorithms-based modeling of sustainable materials
- Challenges, Future outlook and opportunities in modeling of Sustainable Materials
V. Applications of sustainable materials
- Biomedical Application of Sustainable Materials
- Applications of Sustainable materials in agricultural, architecture, engineering and other sectors
- Sustainable materials for green technology applications
- Case studies and live solutions of industries and society
- Sustainable materials role in COVID-19
VI. Challenges and future prospects of sustainable materials
- Current Limitations of Sustainable Materials
- Computational and simulation approaches for Sustainable Materials
- Artificial Intelligence to maintain the sustainability of materials
- Role of Industry 4.0 to maintain the sustainability of materials