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Blends composition

Unlike most crystalline polymers, PVDF exhibits thermodynamic compatibiUty with other polymers (133). Blends of PVDF and poly(methyl methacrylate) (PMMA) are compatible over a wide range of blend composition (134,135). SoHd-state nmr studies showed that isotactic PMMA is more miscible with PVDF than atactic and syndiotactic PMMA (136). MiscibiUty of PVDF and poly(alkyl acrylates) depends on a specific interaction between PVDF and oxygen within the acrylate and the effect of this interaction is diminished as the hydrocarbon content of the ester is increased (137). Strong dipolar interactions are important to achieve miscibility with poly(vinyhdene fluoride) (138). PVDF blends are the object of many papers and patents specific blends of PVDF and acryflc copolymers have seen large commercial use. [Pg.387]

Fig. 25. Influence of blend composition on birefringence (207). Blend is PC and modified PS. Temperatures noted are mol ding temperatures. Fig. 25. Influence of blend composition on birefringence (207). Blend is PC and modified PS. Temperatures noted are mol ding temperatures.
Other blends such as polyhydroxyalkanoates (PHA) with cellulose acetate (208), PHA with polycaprolactone (209), poly(lactic acid) with poly(ethylene glycol) (210), chitosan and cellulose (211), poly(lactic acid) with inorganic fillers (212), and PHA and aUphatic polyesters with inorganics (213) are receiving attention. The different blending compositions seem to be limited only by the number of polymers available and the compatibiUty of the components. The latter blends, with all natural or biodegradable components, appear to afford the best approach for future research as property balance and biodegradabihty is attempted. Starch and additives have been evaluated ia detail from the perspective of stmcture and compatibiUty with starch (214). [Pg.482]

Conducting Polymer Blends, Composites, and Colloids. Incorporation of conducting polymers into multicomponent systems allows the preparation of materials that are electroactive and also possess specific properties contributed by the other components. Dispersion of a conducting polymer into an insulating matrix can be accompHshed as either a miscible or phase-separated blend, a heterogeneous composite, or a coUoidaHy dispersed latex. When the conductor is present in sufftcientiy high composition, electron transport is possible. [Pg.39]

In a molded polymer blend, the surface morphology results from variations in composition between the surface and the bulk. Static SIMS was used to semiquan-titatively provide information on the surface chemistry on a polycarbonate (PC)/polybutylene terephthalate (PBT) blend. Samples of pure PC, pure PBT, and PC/PBT blends of known composition were prepared and analyzed using static SIMS. Fn ment peaks characteristic of the PC and PBT materials were identified. By measuring the SIMS intensities of these characteristic peaks from the PC/PBT blends, a typical working curve between secondary ion intensity and polymer blend composition was determined. A static SIMS analysis of the extruded surface of a blended polymer was performed. The peak intensities could then be compared with the known samples in the working curve to provide information about the relative amounts of PC and PBT on the actual surface. [Pg.556]

Figure 3. Effects of blend composition on CTE of graphites manufactured from VWGS 13421 derived products... Figure 3. Effects of blend composition on CTE of graphites manufactured from VWGS 13421 derived products...
As another example, a synergistic enhancement of tensile strength has been reached in blends of a sulfo-nated polyacrylonitrile terpolymer (SPAN) with a polyurethane (PU) cationomer [23]. Maximum enhancement was achieved at a blend composition of 30/70 (PU/ SPAN). At this blend composition, the tensile strength was raised from an initial value of 78.5 MPa to 196 MPa and the strain-to-fracture was at its highest. The en-... [Pg.151]

Blend composition Mixing temperature m Curing temperature (°C)... [Pg.466]

In another case where the twin-screw extruder was used, the rubber and plastic were melt mixed with all ingredients in a similar manner as described in blend compositions for static vulcanizations. The product was then dumped, cooled, and granulated. The premixed granules were then fed into a twin-screw extruder where a very narrow temperature profile was maintained with a relative high compression (2 1), and the screw speed was adjusted depending on the final torque and the flow behavior of the extruded stock. The stock was cured by shear force and temperature enforced by the twin-screw extruder. The dynamically crosslinked blend was taken out in the form of a strip or solid rod to determine the... [Pg.467]

Table 13 Blend Composition and Dynamic Curing Characteristics for NR-LDPE ... Table 13 Blend Composition and Dynamic Curing Characteristics for NR-LDPE ...
The rheological parameter variations with blend compositions are shown in Figs. 4,5 and 6. The variation of relaxation time (Fig. 4) seems to show an increasing pattern up to 40% of NBR, then there is a sharp decrease until 60% of NBR, and finally there is a further increase of relaxation time in the preblends. Preheating of blends, however, results in a longer relaxation time than in the preblends and a maximum at 50 50 ratio at all shear rates. [Pg.613]

The rheological parameters with blend compositions are shown in Figs. 10-12. The relaxation time increases with the increase in NBR content up to a 50% level for both the preblends and preheated blends. Comparing the preblends and preheated blends, we see that... [Pg.615]

Blend composition PVC-ENR-XNBR Tg (°C) from tan 5 vs temperature plots... [Pg.682]

FIG. 28 Surfactant adsorption as a function of blend composition. Initial [surfactant] = 900 ppm. Adsorption on montmorillonite from 5% NaCl. (From Ref. 87.)... [Pg.428]

Blend Composition HLo HL20 HL30 HL40 HL50 HUo HL70... [Pg.111]

Blend Composition AT30 AFT30 AFH30 AFD30... [Pg.112]

FIGURE 11,1 Ultrasonic velocity versus acrylonitrile-butadiene mbber/ethylene-propylene-diene monomer (NBR-EPDM) blend composition (a) no compatibiUzer, (b) with chloro-sulfonated polyethylene (CSM), and (c) with chlorinated polyethylene (CM). (From Pandey, K.N., Setua, D.K., and Mathur, G.N., Polym. Eng. Set, 45, 1265, 2005.)... [Pg.305]

Blend Compositions, Blend Ratios, and Max/Min Domain Size of Blend... [Pg.320]

Blend Composition, Solubility Parameter Difference between the Two Components, Interpbase Signal (< iph), and Interpbase Thickness (aiPH)... [Pg.321]

Yanez-Flores et al. have studied the shear properties of blends of PE with polyisoprene rubber (Guayule mbber) [50]. The blends were prepared using a cam-type mixer at 50 rpm for 10 min at 140°C. The blend compositions ranged from 10% to 70% mbber content. [Pg.337]

See other pages where Blends composition is mentioned: [Pg.163]    [Pg.288]    [Pg.410]    [Pg.422]    [Pg.387]    [Pg.184]    [Pg.216]    [Pg.226]    [Pg.230]    [Pg.150]    [Pg.152]    [Pg.469]    [Pg.473]    [Pg.474]    [Pg.640]    [Pg.674]    [Pg.680]    [Pg.110]    [Pg.116]    [Pg.117]    [Pg.128]    [Pg.129]    [Pg.169]    [Pg.301]    [Pg.304]    [Pg.319]    [Pg.319]    [Pg.326]    [Pg.357]    [Pg.554]   
See also in sourсe #XX -- [ Pg.150 ]

See also in sourсe #XX -- [ Pg.302 ]



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Analysis of Blend Compositions

Applications of polymers blends and composites

Blend and composite materials

Blend composition, effect

Blend composition, effect blends

Blends and Composites

Blends different chemical compositions

Blends, composites and multiphase polymeric materials

Characterization of Microfibrillar Reinforced Composites from Polymer Blends

Composite gels blending

Composition blended foods

Composition dependence poly blends

Conducting polymer composites and blends

EMI Shielding Performance of ICPs-Loaded Blends and Composites

Extrusion method, blending composites

Homogenous polymer-blend composite

Hybrid composites natural polymer blends

Immiscible polymer blends composite droplet morphology

Liquid Crystalline Polymer Blends and Molecular Composites

Monitoring the composition of copolymers and polymer blends in an extruder

Nanofibrils reinforced composites from polymer blends

Poly blend composite

Poly blend composition

Polyethylene-Based Conducting Polymer Blends and Composites

Polymer Blend Composites

Polymer blend composition gradients

Polymer blends and composites

Polymer blends blend composition

Polymer blends composite material

Polymer blends organic/inorganic composite materials

Polymers alloys, blends and composites

Recent Advances in Poly(meth)acrylate Based Blends and Composites

Recycled Polymers Overview of their Reuse in Blends, Composites and Nanocomposites

Rubber blend composites

Rubber blend composites elastomer phase

Rubber blend composites homogeneity

Rubber blend composites physical properties

Rubber blend composites reinforcing fillers

SPS/Nylon blends composition

Starch reactive blend compositions

The Dependence of Miscibility on Blend Composition and Temperature

Thermal Degradation of Polymer Blends, Composites and Nanocomposites

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