Phosphorus-based flame retardant acrylic pressure sensitive adhesives with superior peel strength and transfer characteristics

• Published in: Progress in organic coatings Vol. 185; p. 107931
• Main Authors: Son, Myoungchan, Kim, Jinho, Oh, Myongkeon, Kim, Dongmin, Choi, Hui Ju, Lee, Kangtaek, Chung, Kyeongwoon, Lee, Sunjong
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.12.2023
• Subjects: Acrylic adhesive; Flame retardant; Peel strength; Pressure sensitive adhesive; Transfer characteristics; Flame retardant; Peel strength; Transfer characteristics; Pressure sensitive adhesive; Acrylic adhesive
• ISSN: 0300-9440; 1873-331X
• DOI: 10.1016/j.porgcoat.2023.107931

Acrylic pressure sensitive adhesives (PSAs) are widely utilized in various fields due to their excellent thermal, weather, and oil resistance. However, due to their flammability, they are vulnerable to fire, which brings a critical challenge for their application in various industries. Here, new phosphorus-based acrylic PSAs which show excellent flame retardancy are demonstrated, without sacrificing adhesion properties. By controlling the monomer composition based on five different monomers, we synthesized seven acrylic copolymers for PSAs, and investigated the correlation between monomer composition and adhesion characteristics in terms of peel strength and transfer characteristics. Among seven polymers, A5H5 which exhibits the highest peel strength (1117 gf/in.) and superior transfer characteristics (transfer area 8.30 %) is selected for further investigation. The phosphorous-based acrylic PSAs are prepared through addition of different amounts of dimethyl methylphosphonate in A5H5 polymeric matrix, and thoroughly investigated in terms of flame retardancy and adhesion characteristics in terms of peel strength and transfer characteristics. The phosphorus-based PSA (A5H5-D30) exhibited superior flame retardancy of V-0 rating under the UL-94 characterization method. Furthermore, the A5H5-D30 present excellent film transfer characteristic showing a transfer area of 0 % and residue of 0 wt% in air without massive decrease in peel strength (991 gf/in.). •Limited use of highly volatile and flammable acrylic pressure sensitive adhesives (PSAs)•The correlation between adhesion characteristics in terms of peel strength and transfer characteristics.•It enhances the cohesion between chains and imparts flame retardant properties by utilizing hydrogen bonds with DMMP.•The PSAs with DMMP exhibit superior peel strength, flame retardancy and low transfer area without decrease in peel strength.