Search results for: bio-based polyol

• The Influence of Substitution of a Phosphorus-Containing Polyol with the Bio-polyol on the Properties of Bio-based PUR/PIR Foams

  Publication

  • K. Gosz
  • J. T. Haponiuk
  • Ł. Piszczyk

  - JOURNAL OF POLYMERS AND THE ENVIRONMENT - Year 2018

  In this work, effects of incorporating of a phosphorus-containing polyol into rigid polyurethane/polyisocyanurate foams’ formulations developed with use of two different bio-based polyols, derived from crude glycerol or liquefied cellulose were examined. The bio-polyol derived from crude glycerol was synthesized via two-step process from crude glycerol and castor oil, whereas the bio-polyol derived from liquefied cellulose was...

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• Bio-Based Polyurethane Composites and Hybrid Composites Containing a New Type of Bio-Polyol and Addition of Natural and Synthetic Fibers

  Publication

  • A. Olszewski
  • P. Kosmela
  • A. D. Mielewczyk-Gryń
  • Ł. Piszczyk

  - Materials - Year 2020

  This article describes how new bio-based polyol during the liquefaction process can be obtained. Selected polyol was tested in the production of polyurethane resins. Moreover, this research describes the process of manufacturing polyurethane materials and the impact of two different types of fibers—synthetic and natural (glass and sisal fibers)—on the properties of composites. The best properties were achieved at a reaction temperature...

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• Bio polyetherurethane composites with high content of natural ingredients: hydroxylated soybean oil based polyol, bio glycol and microcrystalline cellulose

  Publication

  • E. Głowińska
  • J. Datta

  - CELLULOSE - Year 2016

  In our study, we focused on obtaining bio-polyurethane composites using bio-components such as bio glycol, modified natural oil-based polyol, and microcrystalline cellulose (MCC). The pre-polymer method was used to prepare the bio polyurethane matrix. Prepolymer was synthesized using 4,4’-diphenylmethane diisocyanate (MDI) and a polyol mixture containing 50 wt.% of commercial polyether and 50 wt.% of hydroxylated soybean oil (H3)....

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• Valorization of bio-based polyols synthesized via biomass liquefaction

  Open Research Data

  open access

  • A. Olszewski
  • P. Kosmela
  • Ł. Piszczyk

  As the properties of polyols have a huge impact on the properties of manufactured polyurethanes, this study aims to determine the influence of polyethylene glycols with different molecular masses on the course of the biomass liquefaction process and bio-polyol properties. The obtained polyols were characterized by rheological studies. To confirm the...

• Diamine derivatives of dimerized fatty acids and bio-based polyether polyol as sustainable platforms for the synthesis of non-isocyanate polyurethanes

  Publication

  • K. Rohde
  • P. Kasprzyk
  • J. Datta

  - POLYMER - Year 2020

  A series of environmentally friendly non-isocyanate polyurethanes (NIPUs) were successfully prepared via the polyaddition reaction of bio-based polyether polyol-based cyclic carbonate with diamine derivative of dimerized fatty acids. The syntheses of NIPUs were realized by the three-step method in the absence of toxic solvents and, importantly, the process of carbonation did not require the use of elevated pressure. The effect...

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• Sustainable synthesis of cyclic carbonates from bio‐based polyether polyol: the structure characterization, rheological behaviour and thermal properties

  Publication

  • K. Rohde
  • J. Datta
  • A. Cichoracka

  - POLYMER INTERNATIONAL - Year 2019

  The cycloaddition of CO2 to epoxides represents a green efficient method to form bis(cyclic carbonate)s. The main purpose of the work reported in this paper was to examine the effect of the gas flow rate (20, 40, 60 and 100 mL min–1) during carbonation on the conversion yield, chemical structure, rheological behaviour and thermal properties of the prepared compounds. A series of new bis(cyclic carbonate)s was obtained from bio‐based...

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• Effect of bio-polyol molecular weight on the structure and properties of polyurethane-polyisocyanurate (PUR-PIR) foams

  Publication

  • A. Olszewski
  • P. Kosmela
  • L. Vevere
  • M. Kirpluks
  • U. Cabulis
  • Ł. Piszczyk

  - Scientific Reports - Year 2024

  The increasing interest in polyurethane materials has raised the question of the environmental impact of these materials. For this reason, the scientists aim to find an extremely difficult balance between new material technologies and sustainable development. This work attempts to validate the possibility of replacing petrochemical polyols with previously synthesized bio-polyols and their impact on the structure and properties...

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• Bio‑derived polyurethanes obtained by non‑isocyanate route using polyol‑based bis(cyclic carbonate)s—studies on thermal decomposition behavior

  Publication

  • P. Parcheta-Szwindowska
  • K. Rohde
  • J. Datta

  - JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY - Year 2022

  Non-isocyanate polyurethanes (NIPUs) constitute one of the most prospective groups of eco-friendly materials based on their phosgene-free synthesis pathway. Moreover, one of the steps of their obtaining includes the use of carbon dioxide (CO 2 ), which allows for the promotion of the development of carbon dioxide capture and storage technologies. In this work, non- isocyanate polyurethanes were obtained via three-step synthesis...

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• Effect of bio-polyol molecular weight on the structure and properties of polyurethane-polyisocyanurate (PUR-PIR) foams

  Publication

  • A. Olszewski
  • P. Kosmela
  • L. Vēvere
  • M. Kirpluks
  • U. Cabulis
  • Ł. Piszczyk

  - Scientific Reports - Year 2024

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• Bio-based and Applied Economics

  Journals

  ISSN: 2280-6180 , eISSN: 2280-6172