INVESTIGADORES
FERREIRA Maria Lujan
congresos y reuniones científicas
Título:
Grafting of PP onto glass fibers. a method for enhanced the interfacial adhesio
Autor/es:
MARIANA ETCHEVERRY; MARÍA LUJÁN FERREIRA; ALESSANDRO PEGORETTI; SILVIA E BARBOSA; NUMA J.CAPIATI
Lugar:
Lima
Reunión:
Simposio; XI Simposio Latinoamericano y IX Congreso Iberoamericano de Polimeros; 2008
Resumen:
In this work, a new approach to increase
polypropylene-fiber adhesion based on propylene
polymerization onto fibers is proposed. In this sense,
chemical anchoring of the matrix on glass fibers was
performed by direct metallocenic propylene
polymerization. The experimental route involves an
initial contact with methilaluminoxane (MAO) and
hidroxy-á-olefin to generate the anchorage points on
fiber surface following of propylene polymerization
catalyzed by EtInd2ZrCl2 (metallocene)/MAO. Then,
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
fiber surface following of propylene polymerization
catalyzed by EtInd2ZrCl2 (metallocene)/MAO. Then,
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
fiber surface following of propylene polymerization
catalyzed by EtInd2ZrCl2 (metallocene)/MAO. Then,
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
fiber surface following of propylene polymerization
catalyzed by EtInd2ZrCl2 (metallocene)/MAO. Then,
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
á-olefin to generate the anchorage points on
fiber surface following of propylene polymerization
catalyzed by EtInd2ZrCl2 (metallocene)/MAO. Then,
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
2ZrCl2 (metallocene)/MAO. Then,
the ?polypropylene? chains grow from glass fibers.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.
that the interface
strength was modified and the PP-glass linkage resists
more than the PP-PP entanglements. PP molecules
?chemically bonded to glass? resist more than PP
entanglements, and then the fracture occurs in PP
around the fibers, not at the interface.