After successfully completing the first edition of Material Science-2020 webinar, Endeavor Research private Limited is proudly announcing the "2nd Edition of Webinar on Material Science" which is going to be held on April 25-26, 2022.
Material Science-2022 brings upon a new platform to share and discuss all the Material Science researches, as it mainly concerns with the study of material science, physics & chemistry.
The main purpose of the webinar is to provide a platform to experts in the academia and industry to showcase their current researches, latest advancements and applications in areas pertaining to Material Science.
Target Audiences:
Material Science Scientists | Material Science Engineers | Material Science Researchers | Professors in Material Science | Physicists | Chemists | Directors of Material Science companies | Members of different Material Science & related associations | Members of Material Science related industrial associations | Junior/Senior research fellows of Material Science| Polymer Science students | Biotechnology/ Nanotechnology/Materials Science Students | Material Science laboratories | Post Graduates and Graduates in Material Science
Past Webinar Report:
Endeavor Research Private Ltd successfully hosted the Webinar on Material Science on December 03-04, 2020. The webinar was successful in gathering eminent speakers from various reputed organizations and their paramount talks enlightened the gathering.
For details please click on the Scientific Program: https://materialscience.endeavorresearchgroup.com/scientific-program-2020-proceedings.php
Following the unprecedented continuous conditions identified with the worldwide Coronavirus (COVID-19) flare-up, all our Material Science works and presentations have been forcefully stopped. So we warmly invite you to contribute your most recent explores at this webinar and furthermore you will connect with the specialists from everywhere throughout the world.
We have enlisted some outstanding sessions that will give an opportunity to focus on specific areas from your own perspective experiences. Abstracts of all the related interest areas are accepted, but are not limited to the following sessions:
Kinneret Academic College - Israel
Work Experience
Worked as a lecturer assistant and lecturer at the Technion, Nazareth College, Ariel University, Ort Braude Academic College and Kinneret Academic College.
30+ years in the industry, in R&D, Engineering, and Production.
Current position: Quality Manager
Advisor to and judge in Excellence and Quality contests.
Areas of interest and expertise
Mechanics of materials and composite materials
Fatigue of engineering materials
Fracture mechanics
Woven composite materials
Resin transfer molding
Material selection for engineering applications
Material standards and specifications
3D printing
Surface treatments
Heat treatments
Quality assurance of materials
Counterfeit material prevention
Failure analysis and investigation
Quality and Reliability Engineering Department at the Racov School of Engineering - Kinneret Academic College - Israel
Shalhevet Zur is a Doctor of Quality and Reliability Management and a head of the Quality and Reliability Engineering Department at the Racov School of Engineering -
Kinneret Academic College. Dr. Zur teaches and conducts research in Organizational quality outcomes, organizational standardization, quality management and models of organizational climates. She serves as an advisor to organizations and institutions. Shalhevet serves as a consultant to Standards Committees of the Israeli Standards Institute and a member of the judging committees of national quality projects.
Instituto Politécnico Nacional, Department of Materials and Engineering-ESIQIE - Mexico
President Israeli Association of Inventors, Editor-in-chief of ICMS-journal (USA) - Israel
Prof. Figovsky Oleg, D.Sc., member of European Academy of Sciences, RAASN and REA,
President Israeli Association of Inventors, Editor-in-chief of ICMS-journal (USA). Author more than 10 books, including "Green Nanotechnology", and more that 500 inventions.
For more information: https://en.wikipedia.org/wiki/Oleg_Figovsky
University of Rome - Italy
Prof. Dr. Ilaria Cacciotti is professor of Biomaterials & Tissue Engineering and Materials Science and Technology at University of Rome "Niccolò Cusano", with consolidated expertise in the synthesis and characterization of (bio)materials and eco-sustainable systems. She is Member of the Research and Projects Committee and Erasmus+ Coordinator for Engineering Area. She graduated in Medical Engineering at the University of Rome “Tor Vergata”. She completed Ph.D in Materials Engineering and she obtained the II Level Master degrees in “Forensic Genetics” and in "Protection against CBRNe events". She is expert in the synthesis, processing and characterisation of biocompatible nanostructured materials, particularly for applications in the biomedical, environmental and agri-food sectors, including bioceramics, biopolymers and composites. She is reviewer for more than 100 peer-review journals, member of the Editorial Board of several international journals. She is currently involved in several national and international projects. She is a member of the many international societies.
Instituto Politécnico Nacional, Department of Materials and Engineering-ESIQIE - Mexico
Research interests: Mathematical simulation and optimization of metallurgical processes, modeling, and scaling-up of reactors, hot ductility of steels, physical chemistry of surfaces, thermodynamics of materials.
Keywords: mathematical simulation, modeling, optimization, hot ductility, slags, thermodynamics of materials.
Short story: Dr. Rodolfo Morales, who graduated from the University of Tokyo, has published three hundred papers and supervised 26 Ph.D. students and 36 MSc students. His professional life includes very active consultancy activities to the iron casting and steel industries, including former FOSECO, Rassini Rhem, RHI, SIMEC Group, and other important companies in Mexico and the USA. Dr. Morales has developed about 70% of the flow control systems for the casters of North America. He holds seven patents active in steel casters and four awards.
Current Projects: The study of multiphase flows focused on dynamics of argon bubbles in liquid steel, interactions between liquid metal, slag, and gases, population balance simulations. Physical chemistry of refractory-slag interfaces. Thermodynamics of steel deoxidation and solidification phenomena.
Biochemistry and Molecular Biology University of Texas Medical Branch Galveston - USA
University of Peradeniya - Sri Lanka
Mr. Suresh Aluvihara is a postgraduate research scholar at the Department of Chemical and Process Engineering, University of Peradeniya, Sri Lanka. He has received his B.Sc. (Hon’s) degree in the year 2017 under the specialized scopes of Earth Science and Mineral Science from a state university of Sri Lanka. According to his current study fields, he has achieved a series of scientific research publications under the scopes of Earth Engineering, Chemical Engineering, Material Engineering and Environmental Engineering. In addition that he has contributed in review processes of some advanced journals, a guest editor for special issues, an editorial board member of scientific journals and a keynote speaker for some reputed worldwide conferences.
Korea University - Korea
Conventional high throughput cancer cell line screening assays were treated as a fundamental method to analyze pharmaceutical profiles and drug sensitivities that helped generations to search for various cancer therapeutic strategies. Although traditional two-dimensional (2D) cell-based assays served its most values to discover and progress the potency of possible agents, recently developed novel three-dimensional (3D) tools are outstanding its past. The recently emerging patient-derived three-dimensional culture system termed “organoid” offers a great potential to bridge between drug screenings and clinical trials. As the importance of organoids increases, the need to develop organoid culture system suitable for basic biological and clinical applications is being emphasized. However, conventional Matrigel based organoid culture is not sufficient enough for carrying out robust and reliable screenings (ununiform morphologies, sizes, placement, and etc.); thus, hindering its great potential to predict clinical outcomes.
Here, we demonstrated a scalable organoid production platform with 8 well strips and a total of 8 x 9 microwells using organoids derived from colorectal cancer tissue. The new culture platform is a format in which single cells are self-organized into organoids in culture medium supplemented with 2% Matrigel, and it is functionally compatible with existing 96 well plates and Matrigel based conventional organoid culture methods. The consistency, uniformity and reproducibility of organoid production on the new platform have been significantly improved. Importantly, Hydro organoids are functionally identical to conventional Matrigel organoids, but show better consistency in drug screening.
Our results show the possibility that Hydro organoids can be used in high-throughput assays and incorporated into drug screening models to predict clinical outcomes.
University of Houston, Texas - USA
Njala University, School of Environmental Sciences, Chemistry Department - Sierra Leone
Case Western Reserve University - USA
Kinneret Academic College - Israel
Work Experience
Worked as a lecturer assistant and lecturer at the Technion, Nazareth College, Ariel University, Ort Braude Academic College and Kinneret Academic College.
30+ years in the industry, in R&D, Engineering, and Production.
Current position: Quality Manager
Advisor to and judge in Excellence and Quality contests.
Areas of interest and expertise
Mechanics of materials and composite materials
Fatigue of engineering materials
Fracture mechanics
Woven composite materials
Resin transfer molding
Material selection for engineering applications
Material standards and specifications
3D printing
Surface treatments
Heat treatments
Quality assurance of materials
Counterfeit material prevention
Failure analysis and investigation
Indian Institute of Technology Madras - India
Usually, to achieve high performance, for such a kind of device (SAW) a typical layer/substrate configuration form is adopted, which means that this kind of device is a layered structure with a thin layer deposited on the substrate. However, due to the nonuniform material properties, coefficients of thermal expansion and chemical/nucleation shrinkage/growth during the processing and cool down to operating or room temperature, the presence of initial stress is unavoidable. The results reported in this paper are not only meaningful for the design of surface acoustic wave (SAW) devices with high performance, but also effective for evaluating the residual stress distribution in the layered structures.
Division of Engineering, New York University Abu Dhabi, Abu Dhabi - UAE
Northumbria University - UK
Department of Physics, Prairie View A&M University - USA
University at Buffalo - USA
, University of Connecticut Health Center, Farmington, CT - USA
Argonne National Laboratory, Materials Science Division - Taiwan
