Copolímero de Polipropileno Formolene 2610A Formosa Plastics
Nombre del producto: PP – COPP – MFI10 – FORMOSA – FORMOLENE 2610A
Categoría: Polipropileno
Información del manual del producto: Formolene® 2610A
Impact Copolymer for Compounding and Injection Molded Applications
Formolene® 2610A is a high impact copolymer of polypropylene designed for such applications as Automotive
Compounds and injection molding of Lawn & Garden products and Appliances. It is characterized by its easy mold
flow, excellent physical property balance of stiffness and impact at room temperature and sub ambient conditions as
well as finished product dimensional stability.
Formolene® 2610A meets the requirements of the U.S. Food and Drug Administration as specified in 21 CFR
177.1520, covering safe use of polyolefin articles and components of articles intended for direct food contact. For
additional information on approved conditions of use for food contact applications, please refer to the “Products”
section on our website (http://www.fpcusa.com/ourproducts.html).
This material is free of animal-derived content.
Typical Properties of this Commercial Grade
Property
Test Method
Typical Values
English
SI
Melt Flow Rate, I2 @ 230°C
ASTM D1238
10
g/10 min
10
g/10 min
Density
ASTM D1505
0.9
g/cm3
0.9
g/cm3
Tensile Strength at Yield (50 mm/min)
ASTM D638
2,950
psi
20
MPa
Elongation at Yield (50 mm/min)
ASTM D638
6
%
6
%
Flexural Modulus (1.3 mm/min), 1% Secant
ASTM D790
140,000
psi
965
MPa
Notched Izod Impact Strength @ 73°F
ASTM D256A
11
ft-lb/in
587
J/m
Notched Izod Impact Strength @ 0°F
ASTM D256A
1.9
ft-lb/in
101
J/m
Notched Izod Impact Strength @ -22°F
ASTM D256A
1.7
ft-lb/in
91
J/m
Rockwell Hardness
ASTM D785
95
R Scale
95
R Scale
Heat Deflection Temperature @ 66 psi
ASTM D648
187
°F
86
°C
Heat Deflection Temperature @ 264 psi
ASTM D648
122
°F
50
°C
Notes: Specimens were injection molded according to the conditions specified in ASTM D4101. Data for representative
purposes only; not to be construed as product specification.
Published 3/99, Revised 3/10
10/15