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Renowned Speakers

Ivan Chodak

Ivan Chodak

Polymer Institute of the Slovak Academy of Sciences Slovakia

Cattaleeya Pattamaprom

Cattaleeya Pattamaprom

Thammasat University Thailand

V.Barbakadz

V.Barbakadz

Tbilisi State Medical University Institute of Pharmacochemistry Georgia

Jin Huang

Jin Huang

Southwest University China

Alexander L. Yarin

Alexander L. Yarin

University of Illinois at Chicago USA

Eui-Hyeok Yang

Eui-Hyeok Yang

Stevens Institute of Technology USA

Takahiko NAKAOKI

Takahiko NAKAOKI

Ryukoku University Japan

Rachel Auzely Velty

Rachel Auzely Velty

University Grenoble Alpes France

Polymer-2022

About Conference


POLYMER-2022 heartily invites participants from everywhere the globe to attend Annual Summit on Material, Polymer Science and Engineering on October 25-26, 2022 Budapest, Hungary, mainly centered on theme: “Recent Advancement of Material, Polymer Science and Engineering” Polymer 2022 aims at blooming up the new innovative concepts and new technologies amongst the professionals, industrialists and students from analytical areas of fabric science, compound science and technology.

On behalf of the Organizing and Program Committee we tend to take pleasure of gathering pioneers, eminent professors, researchers, scientists and students across the globe to share and exchange their experiences in each and every allied ideas as well as analytical areas of Polymer science, Science and Engineering. It is an excellent platform to share your recent innovations and applications in the form of cooperative discussions and technical sessions.

Polymer 2022, is an event where you can share and interchange theoretical information and technical applications in Polymer science. There'll be several seminars, workshops and technical sessions which will grab the interest of the professionals who will attend the conference. 

 

Why to attend:

Polymer-2022 that goes to be the leading conference dedicated to chemical compound science provides a foremost technical forum for sharing and learning regarding this analysis and advancements, in conjunction with conversing new applications and technologies. From everywhere the planet there'll be displays on main topics by skilled and leading operating teams and panels.

The main objective of the conference is to targeted on searching for regarding Polymer science and Engineering, this is often the most effective probability to satisfy several nice professionals, scientists from throughout the planet. It Conduct shows, debates poster displays spreads the information and acknowledgment at this occasion .Broadly acclaimed speakers, the most recent strategies, strategies, and therefore the up to now services in chemical compound science and Engineering square measure signs of this conference.

Traget Attendees:

Eminent Scientists of Polymer Science & Engineering

Polymer Professors

Research fellows

Students

Directors of Polymer companies

Chemical Engineers

Polymer Associations

Sessions/Tracks

Track 1: Polymers for Emerging Technologies

Polymers are multifaceted materials. This feature of polymer facilitates the people to manipulate the properties and behavior of the polymers according the requirement in the application area. This makes possible to provide a way to made polymer as a part in many trending inventions in medical, scientific, bio medical and electronics fields. In all such fields scientist have been combine the molecules of the polymers with other functional substances and produce a new featured polymer with desired features and properties.

Track 2   : Polymer Synthesis and Polymerization

Many monomers are merged together to form a Polymer. Polymer is a combination of repeated long chain units of monomers. Most of the monomers are alkenes with double bond which react in addition to their unsaturated double bonds. To bond two monomer molecules the double bond electrons are used. Once a Polymer is formed all the double bonds are converted a single bonds. Polymers are many types such as linear chain polymers, lightly branched polymers, combed polymers and star polymers.

Polymers synthesis determines the molecular structure and it will help us to avoid side reactions and achieve a worthy product. Polymerization polymers can be of many types. First one is the Chain growth polymerization and second is Step growth polymerization. In chain growth, polymerization is activated by the activation of neighboring monomers of a monomer. High molecular weight polymers are obtained quickly with a rapid process of chain growth polymerization. On the other hand, in step growth polymerization, bi functional monomers are combined in a systematic approach to build covalent bonds. In this process molecular weight increases slowly and in step wise.

Track 3: Biochemical-Biodegradation of Polymers

On the other hand, biodegradable Biopolymers can be digested in aerobic condition to produce home compost or industrial compost. In aerobic degradation process, biochemical in the soil helps us to convert the polymers as compost. Biopolymers digested in anaerobic state can be used as biogas. In the way of anaerobic bio-degradation of polymers chemical recycling is applied. Basic process in chemical recycling is done by selective dissolution from the mixed streams of waste. And chemical recycling can also use the de-polymerization to recycle the biopolymers. In Chemical recycling Biopolymers went through the many phases in which recycling is performed together with fossil-based counterpart.

Track 4Biopolymers and Bio plastics

Biopolymers and Bio plastics are produced by the natural substances. Microorganism produces Bio plastics from the used plastic containers and agricultural by products. On the other hand common fossil-fuel plastics are derived from the natural resources like petroleum and natural gas. In the process of Bio plastic production, polymers are used which are obtained from the natural organism. The molecules primarily known as monomeric modules are exist in the Bio polymers to produce large structures. According to monomeric molecule structure used, Biopolymer can be categorized into three main classes. The classes are: poly nucleotides, Poly peptides and Polysaccharides. Rubber and Cellulose is the most common compound and biopolymer on the Earth.

Track 5:  Polymer Design and Reaction

Another interesting field related to polymers is Polymers Design and Reaction. In this field we are using many designs to understand the reactions of the polymers. Generally polymers tend to viscous. It often imposes lower limits on their concentrations in diluents. In order to observe such reactions we must have design. Reaction system design can be made by considering various factors like product sequence, reactor configuration, reactor conditions, heat removal, fluid mechanics, mass-transfer limitations, thermo dynamics constraints, process dynamics and reactor stability.

Track 6: Polymer Science and Engineering  

 A polymer is an expansive particle, or macromolecule, made out of many rehashed subunits. Because of their expansive scope of properties, both manufactured and common polymers assume fundamental and pervasive jobs in regular day to day existence. Polymers run from well-known manufactured plastics, for example, polystyrene to common biopolymers, for example, DNA and proteins that are central to organic structure and capacity.

Track 7: Colloid and Polymer Science

Colloid is a solution in which a tiny dispersed insoluble or soluble particle are suspended throughout another substance. Colloid has two phases dispersed and continuous phase that arise by phase separation. If the mixture does not settle or take very long time to settle it is considered as qualified colloid. Polymer Science is inherited from the field in which new materials such as solids are designed and discovered. As like that, solid synthetic polymers elastomers and plastics are considered as primary materials to be ascertaining in the field of Polymer Science.

Track 8Materials Science and Engineering

Materials Science and Engineering is an acclaimed scientific discipline, expanding in recent decades to surround polymers, ceramics, glass, composite materials and biomaterials. Materials science and engineering, involves the discovery and design of new materials.  Many of the most pressing scientific problems humans currently face are due to the limitations of the materials that are available and, as a result, major breakthroughs in materials science are likely to affect the future of technology significantly. Materials scientists lay stress on understanding how the history of a material influences its structure, and thus its properties and performance. All engineered products from airplanes to musical instruments, alternative energy sources related to ecologically-friendly manufacturing processes, medical devices to artificial tissues, computer chips to data storage devices and many more are made from materials.  In fact, all new and altered materials are often at the heart of product innovation in highly diverse applications.

Track 93D Printing Polymers

Now a day, 3D printer gives the possibility to the human to create anything virtually by taking any raw material from metal and ceramic to sugar. Earliest days of 3D printing is limited to produce the product with plastic and it provides possibility to use any kind of material in the 3D printing. Mostly used plastics in the 3D printing are Poly lactic acid (PLA), Acrylonitrile butadiene styrene (ABS) and Polyvinyl Alcohol Plastic (PVA). These three kinds of plastics stimulate the evolution of 3D printing. In addition to these plastics on the other hand we can use the various types of plastics like Polyethylene terephthalate (PET), Polycarbonate, Carbon fiber.

Track 10: Polymer Properties

Polymers can be very resistant to chemicals, Generally, polymers are very light in weight with significant degrees of strength, Polymers are materials with a seemingly limitless range of characteristics and colors, Polymers can be both thermal and electrical insulators, Polymers can be processed in various ways, etc.

Track11: Polymer Companies

Amcor- Amcor is a global leader in responsible global packaging solutions, supplying a broad range of rigid & flexible packaging products into the food, beverage, healthcare, home and personal care and tobacco packaging industries

Track 12:  Polymers in Petroleum Refinery

In the petroleum industry Polymerization is the process of transforming light olefin gases into hydrocarbons of higher molecular weight and higher octane number. The olefin gases consist of ethylene, propylene and butylenes. Polymerization in petroleum refinery combines two or more identical olefin gases molecules to form a single molecule with same proportions of the substances as in the original. This polymerization is done in the presence of catalyst and accomplished thermally at lower temperatures.

Track 13Polymeric Material Chemistry and Physics

Polymeric physics deals with physical modeling of polymers. Polymeric material chemistry facilitates the chemical synthesis which allows the designing and study of new materials. The synthesis is performed with useful physical characteristics like magnetic, optical, catalytic and structural properties.

Track 14: Green Polymers & Green Materials

Green Polymers is an innovative technology to replace traditional materials with the eco-friendly substances. Polystyrene-Aluminum Chloride: It is used to prepare Ethers from alcohols. Polystyrene AlCl3 is a useful catalyst for synthetic reactions which require both a dehydrating agent and a Lewis acid. Thus, acetyls are obtained in good yield by the reaction of aldehyde, alcohol and polymeric AlCl3 in an organic inert solvent. Polymeric super acid catalysts: These polymeric super acid catalysts are obtained by aluminum to Sulfonate Polystyrene

 

Market Analysis

Polymer science is a multidisciplinary science that deals with the chemical synthesis and chemical properties of polymers which were considered as macromolecules. Furthermore, polymer chemistry is quite a broad field and has expanded to include overlapping with bio polymeric materials and materials chemistry. Polymers & plastics are some of the most important and most widely used chemical products in industry and consumer markets, they are used for manufacturing consumer products, such as coatings, lubricants, consumer goods, aerospace, building materials etc.

Due to a growing emphasis on a higher fuel economy, heavy materials, such as glass and metals, are being replaced by lighter variants, including polycarbonate (PC), in the automotive industry. As a result, the global polymer market size is expected to increase from $533.6 billion in 2019 to $838.5 billion by 2030, at a 5.1% CAGR between 2020 and 2030. This is because PC and other polymers have excellent electrical, mechanical, insulating, optical, and chemical properties, as well as a high strength-to-weight ratio and elasticity and corrosion resistance.
 

With time, almost 30% of all automotive components are now being made from polymers. Moreover, with the rising demand for electric vehicles, the polymer market will grow further, as these materials are used to make lightweight battery packs. As a result of the growing concerns regarding air pollution, the need for lightweight vehicles, Preferably   electricvariants, is driving the demand for polymers.

During the COVID-19 crisis, automotive plants across the world were shut down, in compliance with government mandates. This drastically reduced the demand for various raw materials, thus affecting the polymer market negatively. However, the demand for these materials in the food processing, packaging, pharmaceutical, and personal care sectors remained strong, as these industries are considered essential, therefore continued to operate during the pandemic.

                                

 

To Collaborate Scientific Professionals around the World

Conference Date October 25-26, 2022

For Sponsors & Exhibitors

[email protected]

Speaker Opportunity

Supported By

Journal of Polymer Engineering International Journal of Polymer Science & Engineering

All accepted abstracts will be published in respective Conference Series LLC LTD International Journals.

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