IN HOUSE R & D

In-house R&D (Research and Development) at Doshi Polymers likely involves a variety of activities geared towards innovation and improvement within the realm of polymer materials. Here are some potential areas where R&D efforts might be focused:

  • Material Development: Doshi Polymers may be researching and developing new polymer formulations or modifying existing ones to enhance properties such as strength, flexibility, durability, and thermal stability.
  • Process Optimization: R& D efforts may also be directed towards optimizing manufacturing processes to improve efficiency, reduce costs, and minimize environmental impact.
  • Product Innovation: The company might be working on developing new products or improving existing ones to meet the evolving needs of customers or to enter new markets.
  • Quality Control: Research could be focused on enhancing quality control measures to ensure that products meet stringent standards and regulatory requirements.
  • Sustainability Initiatives: Given the increasing emphasis on sustainability, Doshi Polymers may be investing in R&D efforts aimed at developing eco-friendly materials or processes, such as biodegradable polymers or recycling technologies.
  • Advanced Applications: The company might be exploring new applications for polymer materials in industries such as automotive, construction, healthcare, or electronics, and conducting R&D to develop specialized products tailored to these sectors.
  • Collaborative Projects: Doshi Polymers may engage in collaborative R&D projects with academic institutions, research organizations, or other companies to leverage external expertise and resources.
  • Overall, in-house R&D at Doshi Polymers plays a crucial role in driving innovation, Maintaining competitiveness, and meeting the evolving demands of the market while staying environmentally responsible.

Inhouse Testing

  • Hardness
    • Shore A
    • Shore D
  •  Specific Gravity
  • Ash content
  •  Tensile strength
  • Elongation at break
  • Modulus at % Elongation
  • Tear strength
  • Compression Deflection
  • Compression set Method B
  • Tensile set
  • Accelerated Aging tests
    •  Change in Hardness
    •  Change in Tensile Strength
    •   Change in Elongation at break
  •  Volume Swell Tests