Synthesis and properties of neat, hybrid, and copolymeric polyamide 12 microparticles and composites on their basis

Autor:	Joana Filipa Barros Braz, Nadya Vasileva Dencheva, Zlatan Denchev
Přispěvatelé:	Universidade do Minho
Rok vydání:	2021
Předmět:	Thermal properties Science & Technology Materials science Polymers and Plastics Anionic ring-opening polymerization Tensile properties Copolymers Ring-opening polymerization Synthesis and processing techniques 02 engineering and technology General Chemistry 010402 general chemistry 021001 nanoscience & nanotechnology 01 natural sciences 0104 chemical sciences Surfaces Coatings and Films Polyamide 12 Polyamide Materials Chemistry Copolymer polyamides Composite material 0210 nano-technology Synchrotron X-ray WAXS/SAXS
Zdroj:	Journal of Applied Polymer Science. 139:51784
ISSN:	1097-4628 0021-8995
DOI:	10.1002/app.51784
Popis:	Neat and hybrid polyamide 12 (PA12) based powders are important raw materials for additive manufacturing. This study describes a facile method for the synthesis of pure, hybrid and copolymeric microparticulate materials based on one-pot activated anionic ring-opening polymerization (AAROP) of laurolactam in solution. The results reveal the possibility to obtain in good yields, for reaction times of 2 h and temperatures of up to 110 ºC neat and hybrid PA12 microparticles (MP) carrying metal or carbon fillers. CopolymericPA12/PA6 MP can also be successfully prepared. All MP materials are analyzed by spectral, microscopy, thermal, and synchrotron X-ray scattering methods in order to clarify their morphology, chemical and crystalline structure, melting and degradation behavior. The melting temperature of the PA12MP is lower than of the commercial PA12, the presence of metal particles with PA6 additionally decrease it well below 170ºC. The composites prepared by compression molding of PA12 MP display elastic modulus of up to 1.49 GPa, the stresses at yield and break reaching 50 and 69 MPa, respectively. It is concluded that the neat, hybrid, and copolymeric pulverulent materials obtained via microencapsulation by AAROP in solution may be useful in additive manufacturing processing. The authors gratefully acknowledge the financial sup port of Fundaçao para a Ciência e Tecnologia ~ (FCT), project UID/CTM/50025/2019. Special thank is due to the ALBA synchrotron governance for financing our WAXS/SAXS experiments at NCD SWEET beamline in the framework of the project ID 2018/022726. N. Dencheva is also grateful for the financial support of FCT in the frames of the personal program contract CTTI-51/18-IPC. J. Braz acknowledges the support of the FCT UI/BD/150854/2021 PhD grant.
Databáze:	OpenAIRE
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