Waterborne polyurethanes from castor oil-based polyols for next generation of environmentally-friendly hair-styling agents

Environmentally-friendly Hair-styling Agents: Environmentally-friendly, bio-based waterborne polyurethanes were prepared from castor oil-based polyols showed better hair-styling performance than commercial hair spray products, and no evidence of skin irritation, will potentially be a new generation...

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Bibliographic Details
Published in:Progress in organic coatings 2020-05, Vol.142, p.105588, Article 105588
Main Authors: Zhang, Yi, Zhang, Wenbo, Wang, Xiao, Dong, Qianwen, Zeng, Xueyi, Quirino, Rafael L., Lu, Qiming, Wang, Qingwen, Zhang, Chaoqun
Format: Article
Language:English
Subjects:
Bio-based polymers
Biopolymers
Castor oil
Dispersions
Elongation
Hair-styling agents
Hairsprays
Irritation
Mechanical properties
Modulus of elasticity
Moisture
Polymer films
Polyols
Polyurethane
Polyurethane resins
Storage stability
Styling
Toxicity
Waterborne polyurethane
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Summary:Environmentally-friendly Hair-styling Agents: Environmentally-friendly, bio-based waterborne polyurethanes were prepared from castor oil-based polyols showed better hair-styling performance than commercial hair spray products, and no evidence of skin irritation, will potentially be a new generation of hair-styling agent. [Display omitted] •A series of polyurethane dispersions were prepared from castor oils.•The castor oil based polyurethane dispersions show good storage stability.•The polyurethanes exhibit better hair-styling performance than commercial hair spray product.•The castor oil based polyurethanes demonstrate no evidence of skin irritation. Commercial hair-styling spray is often formulated with multiple components that contribute to toxicity and environmental pollution. In this work, a series of bio-based waterborne polyurethanes (CWPU) as hair styling agent were prepared from castor oil-based polyols. The resulting polyurethane dispersions exhibit excellent storage stability for at least 24 months. The effects of the castor oil functionality and chain extender structure on the particle size of the polyurethane dispersions were systematically investigated. Hair-styling performance and skin irritation tests on animals were also carefully performed to assess styling performance and safety of these CWPUs. A series of CWPU films was successfully prepared to study the relationship between the structure and performance of the bio-based polymer films. The resulting films show low moisture uptake rate, high transmittance, hydrophilicity and good mechanical properties. When CWPU films exhibit Young’s modulus >50 MPa, elongation at break in the 15–300 % range, and moisture uptake
ISSN:0300-9440
1873-331X
DOI:10.1016/j.porgcoat.2020.105588