Polymer Technology and Plastics


Polymer Technology is an integrated precision injection molder of ceramics, advanced polymers and metals which are supporting the Medical, Defense, Aerospace and Industrial sectors. Polymer Technology used in the fields of electronics and electrical materials, textiles, aerospace industry, automobile industry, etc. The recent developments of Polymer Technology have advanced the field of material science growing the use of polymer based substances from Electrical engineering, Communications, building materials to Packing materials, Fancy decoration articles, Automobile, Aircrafts, etc.

Plastic is containing of a wide range of synthetic or semi-synthetic organic compounds that are malleable and can be molded into solid objects. Plasticity is a property of all materials which can deform irreversibly without breaking but, in the class of moldable polymers, this occurs to such a degree that their actual name derives from this specific ability. Plastics are usually organic polymers of high molecular mass and often contain other substances.

  • Lasers in Polymer Science and Technology
  • Polymer Matrix Composites and Technology
  • Metal Matrix Composites and Technology
  • Ceramics Matrix Composites and Technology
  • Polymer Chemistry
  • Plastics and the Environment
  • Biopolymers
  • Electrospinning of Carbon Nanotube Reinforced Polymeric Materials
  • Smart Polymeric Materials
  • Hybrid organic-inorganic materials synthesis, sol gel formation
  • Dendritic polymers
  • Ring-opening metathesis polymerization
  • Biocatalysis, enzyme synthesis, biological organisms for synthesizing monomers and polymers

Market Analysis: The Asia Pacific industrial fasteners market size was projected at $31.22 billion in 2017. The plastic fasteners segment is likely to exhibit a CAGR of 5.6% over the projected period, on account of their rising application scope in the automotive industry. Application of these products in automotive manufacturing reduces overall vehicle production cost and weight, thereby improving performance and reducing carbon footprint. For More Details: https://materialsscience.peersalleyconferences.com/tracks/polymer-technology-and-plastics

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