Our Sources

Here at Polymer Process, we believe in the power of scientific research and evidence-based information. As we strive to provide our readers with the latest insights, innovations, and discoveries, we understand that the backbone of our content lies in the trusted and reliable sources we consult.

These sources encompass a diverse range of fields and disciplines, reflecting the multi-faceted nature of the topics we cover on our blog. By drawing on the expertise of renowned scientists, researchers, and institutions, we ensure that our content is accurate and up-to-date, helping you stay informed and make well-informed decisions.

  1. [ScienceDirect] Use of a MDI-functionalized reactive polymer for the manufacture of modified bitumen with enhanced properties for roofing applications
  2. [ScienceDirect] Effects of moisture on thermal conductivity of the lightened construction material
  3. [ScienceDirect] Latent curing epoxy system with excellent thermal stability, flame retardance and dielectric property
  4. [ScienceDirect] Polymers in concrete: a vision for the 21st century
  5. [PDF] Processing and Properties of Natural Fiber-Reinforced Polymer Composite
  6. [PDF] Systematic Review on the Creep of Fiber-Reinforced Concrete
  7. [ICE] FRP composites: life extension and strengthening of metallic structures
  8. [Taylor & Francis] Novel techniques to analyse thermal performance of aerogel-treated blankets under extreme temperatures
  9. [PDF] Impact Sound Insulation and Viscoelastic Properties of Resilient Materials made from Recycled Tyre Granules
  10. [Springer] Effect of vinyl acetate effluent in reducing heat of hydration of concrete
  11. [National Library of Medicine] Recent advances in the sustainable design and applications of biodegradable polymers
  12. [Science Publications] The Use of the Super Absorbent Polymer as Water Blocker in Concrete Structures
  13. [Springer] Utilisation of FeNi-Slag for the Production of Inorganic Polymeric Materials for Construction or for Passive Fire Protection
  14. [NIH] Environmental Impact of Flame Retardants (Persistence and Biodegradability)
  15. [Wiley] Polymer-Based Nano-Composites for Thermal Insulation
  16. [MDPI] Study of Energy Saving Using Silica Aerogel Insulation in a Residential Building
  17. [ScienceDirect] Nanocellular polymer foams as promising high performance thermal insulation materials
  18. [Springer] A review of thermoplastic polymer foams for functional applications
  19. [ACS] Environmental Impact of Polyurethane Chemistry
  20. [ScienceDirect] Montmorillonite/poly(urethane-siloxane) nanocomposites: Morphological, thermal, mechanical and surface properties
  21. [MDPI] Advanced Recycled Polyethylene Terephthalate Aerogels from Plastic Waste for Acoustic and Thermal Insulation Applications
  22. [MDPI] Fundamentals of Global Modeling for Polymer Extrusion
  23. [ScienceDirect] Thermo-economic analysis of pipe insulation for district heating piping systems
  24. [ScienceDirect] Significant improvement of urethane-containing silane on the tracking and erosion resistance of silicone rubber/silica nanocomposite by enhancing the interfacial effect
  25. [ICC]
  26. [IECC]
  27. [ASTM] Standard Specification for Rigid, Cellular Polystyrene Thermal Insulation
  28. [ScienceDirect] Effect of Compatibilizer on PLA/PP Blend for Injection Molding
  29. [Wiley] Long-term performance of environmentally-friendly blown polyurethane foams
  30. [ScienceDirect] Flexible polyethylene glycol/polyvinylpyrrolidone composite phase change fibres: Preparation, characterization, and thermal conductivity enhancement
  31. [Energy.gov] Insulation Materials
  32. [Wiley] Liquid-type nucleating agent for improving thermal insulating properties of rigid polyurethane foams by HFC-365mfc as a blowing agent
  33. [Wiley] Ultralight and Flexible Monolithic Polymer Aerogel with Extraordinary Thermal Insulation by A Facile Ambient Process
  34. [Wiley] Polymer-Based Nano-Composites for Thermal Insulation
  35. [ScienceDirect] Acoustic and thermal performance of polypropylene nonwoven fabrics for insulation in buildings
  36. [ScienceDirect] Thermal and energy characteristics of composite structural insulated panels consisting of glass fiber reinforced polymer and cementitious materials
  37. [ScienceDirect] Thermal performance of additively manufactured polymer lattices
  38. [Springer] Recycling in buildings: an LCA case study of a thermal insulation panel made of polyester fiber, recycled from post-consumer PET bottles
  39. [ScienceDirect] Sustainable thermal insulation biocomposites from rice husk, wheat husk, wood fibers and textile waste fibers: Elaboration and performances evaluation
  40. [ScienceDirect] How to minimize the embodied environmental impact of green building envelope? An automatic optimization method
  41. [IEEE] Polymer outdoor insulating materials. Part I: Comparison of porcelain and polymer electrical insulation
  42. [IEEE] Polymer outdoor insulating materials. II. Material considerations
  43. [IEEE] Selection Considerations: Hardened Glass vs. Polymer Insulators
  44. [Taylor & Francis] Physical and mechanical properties of polymer modified self-compacting concrete (SCC) using natural and recycled aggregates
  45. [Springer] Cross laminated timber (CLT): overview and development
  46. [ScienceDirect] Ultra High Molecular Weight Polyethylene
  47. [Live Science] Smart Materials Improve Earthquake-Resistant Bridge Design