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Foamed structure

The foregoing discussion leads to the question of whether actual foams do, in fact, satisfy the conditions of zero resultant force on each side, border, and comer without developing local variations in pressure in the liquid interiors of the laminas. Such pressure variations would affect the nature of foam drainage (see below) and might also have the consequence that films within a foam structure would, on draining, more quickly reach a point of instability than do isolated plane films. [Pg.521]

Other interesting Langmuir monolayer systems include spread thermotropic liquid crystals where a foam structure forms on expansion from a collapsed state [23]. Spread monolayers of clay dispersions form a layer of overlapping clay platelets that can be subsequently deposited onto solid substrates [24]. [Pg.542]

The transverse modulus is lower partly because the cell wall is less stiff in this direction, but partly because the foam structure is intrinsically anisotropic because of the cell shape. When wood is loaded across the grain, the cell walls bend (Fig. 26.5b,c). It behaves like a foam (Chapter 25) for which... [Pg.282]

Foam = Structural foam molding T-Form = Thermoforming Blow - Blow molding... [Pg.573]

The laboratory prototype of the Dinex electrochemically promoted catalyst unit is shown in Figure 12.12 and the assembled unit schematically in Fig. 12.13. It consists (Fig. 12.14) of a tubular bundle porous (ceramic foam) structure made of CeOa-GcfeOj (CGO) which is an O2" conductor with ionic conductivity significantly higher than YSZ at temperatures below 500°C... [Pg.526]

Recently, many papers have been published on fiber catalysts and foam structures (Figure 9.2). Although, strictly speaking, fibers and foams might not be considered as structured systems, beds of such catalysts exhibit typical features of structured catalysts, namely, low pressure drop, uniform fiow, a good and uniform access to the catalytic surface, and they are definitely nonrandom. Therefore, we have included them in this chapter. [Pg.189]

Figure 9.2 Fiber and foam structures, (a) Knitted silica fibers catalyst. (Reprinted from [7].) (b) Woven active carbon fiber catalyst. (Reprinted from [8].) (c) Aluminum foam. (Reprinted from [9].)... Figure 9.2 Fiber and foam structures, (a) Knitted silica fibers catalyst. (Reprinted from [7].) (b) Woven active carbon fiber catalyst. (Reprinted from [8].) (c) Aluminum foam. (Reprinted from [9].)...
A substance which assists in holding the foam structure produced by whipping or frothing in the manufacture of latex foam rubber. [Pg.29]

PBT-PC blends show increased melt strength allowing them to be easily processed by blow molding and profile extrusion. The PBT-PC blends have been extruded into sheet and thermoformed into parts. Enhanced melt strength allows PBT-PC blends to be foamed. Structural foam grades for injection molding (10-30% density reduction) are commercially available. [Pg.310]

All the molten-state methods are usable extrusion, injection, blowing, compression, thermoforming, co-injection, machining, welding. Specific grades can be used for foam, structural foam and solvent processing. [Pg.536]

At atmospheric pressure the foam structure depends on the formulation and processing parameters. Foamed sheets and imitation leathers can be manufactured by this process. [Pg.742]

The density of the polymer clearly shows the formation of a foamed polymer. The density values for selected foams together with the polyimide homopolymers are shown in Table 11. The density values for the ODPA/FDA and PM-DA/FDA polyimides were both 1.28 g/cm and 3FDA/PMDA is 1.34, while most of the propylene oxide-based copolymers showed substantially lower values. The densities of the foamed copolymers derived from these copolymers ranged from 1.09 to 1.27 g/cm, which is 85-99 % of that of the polyimide homopolymers. This is consistent with 1-15 % of the film being occupied by voids. From these data (i.e., the comparison of Tables 10 and 11), it appears that the volume fraction of voids or the porosity is substantially less than the volume fraction of propylene oxide in the copolymer (i.e., 70 % or less). Thus the efficiency of foam formation is poor. Conversely, the propylene oxide-based copolymers with PMDA/ODA as the imide component did not show the expected density drop, and the values were essentially identical to that of the homopolymer. In PM-DA/ODA-based systems, molecular ordering and orientation were found to be critical in determining the stability of the foam structure. Where the character-... [Pg.97]

A.T. Florence, T.K. Law, and T.L. Wateley Nonaqueous Foam Structures from Osmotically Swollen W/OAV Emulsion Droplets. J. Colloid Interface Sci. 107,584 (1982). [Pg.196]

DNPT)) were studied using a gas evolution apparatus. The decomposition temperature of ADC decreased with both DNPT and 4,4-oxybis(benzenesulphonyl hydrazide) (OBSH) blending and this affected the structure and properties of the resulting foams. Using a tube mould for an extrudate to vulcanise the NR/EPDM extradate in a hot air oven was found to control the expansion and foam dimensions. The NR compositions affected the foam structure and properties. 16 refs. [Pg.30]

Dallas, Texas, 6th-10th May, 2001, paper 444 INFLUENCING THE FOAM STRUCTURE OF C02-BL0WN POLYPROPYLENE SHEETS Heinz R MichaeU W Aachen,Institut fur Kunststoffverarbeitung (SPE)... [Pg.44]

New York City, 2nd-6th May 1999, p.2084-9. 012 STUDY OF SURROUNDING TEMPERATURE EFFECTS ON EXTRUDED FOAM STRUCTURE Lee S T Lee K Sealed Air Corp. [Pg.64]

Patent Number US 5883145 A 19990316 CROSSLINKED FOAM STRUCTURES OF POLYOLEFINS AND PROCESS FOR MANUFACTURING... [Pg.68]

The density of chemicaUy-blown LDPE foam was altered by varying the amount of blowing agent, degree of crosslinking of the polymer, and the foam expansion temperature. A theory was proposed for the equilibrium density, based on the gas pressures in a Kelvin foam structure, and a rubber-elastic analysis of the biaxial stretching of the cell faces. 20 refs. [Pg.71]

Patent Number EP 702032 A2 19960320 CROSSLINKED FOAM STRUCTURES OF ESSENTIALLY LINEAR POLYOLEFINS AND PROCESS FOR MANUFACTURE... [Pg.90]

Patent Number US 5407965 A 19950418 CROSS-LINKED ETHYLENIC POLYMER FOAM STRUCTURES AND PROCESS FOR MAKING... [Pg.94]

Disclosed is a crossUnked ethylenic polymer foam structure of an ethylenic polymer material of a crosslinked, substantially linear ethylenic polymer. The ethylenic polymer in an uncrossUnked state has (a) a melt flow ratio greater than or equal to 5.63 (b) a molecular weight distribution defined by a given equation and (c) a critical shear rate at onset of surface melt fracture of at least 50% greater than the critical shear rate at the onset of surface melt fracture of a linear ethylenic polymer having about the same melt flow ratio and molecular weight distribution. Further disclosed is a process for making the above foam structure. [Pg.94]

See other pages where Foamed structure is mentioned: [Pg.519]    [Pg.1443]    [Pg.246]    [Pg.600]    [Pg.75]    [Pg.98]    [Pg.264]    [Pg.22]    [Pg.195]    [Pg.304]    [Pg.159]    [Pg.638]    [Pg.159]    [Pg.86]    [Pg.96]    [Pg.98]    [Pg.102]    [Pg.17]    [Pg.27]    [Pg.30]    [Pg.31]    [Pg.32]    [Pg.36]    [Pg.52]    [Pg.64]    [Pg.68]    [Pg.71]    [Pg.76]   
See also in sourсe #XX -- [ Pg.155 ]



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Counter pressure structural foam

Extruded structural foams

Flexible foams crosslinked structure

Flotation, bubble and foam separations structural compatibility

Foam Formation and Surfactant Structure

Foam Wall Structure

Foam structural coefficient

Foam structural parameters

Foam structural parameters characteristics

Foam structure

Foam structure

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Foam volume structure

Foamed closed-cell structures

Foamed open-cell structures

Foamed particles, structure

Foamed polysiloxanes with foam structure

Foamed structure-properties relation

Foaming chemical structure

Foams Structure and Some Properties

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Foams cellular structure

Foams micellar structural forces

Food foams cellular structure

Foods foams, structure measurement

Low-pressure structural foam

Molecular structure, dynamic foams

Nanoporous polymer foams porous structure

Performance examples of structural foam and dense polyetherimide

Plastic product design structural foam molding

Polystyrene foams structural foam process

Porous structure copper foam

Reconstruction of Closed-cell Polymer Foam Structure

Relative Effectiveness of Antifoam Entities and Foam Structure

Results for structural foam samples

Sea Water Effects on Foam-Cored Sandwich Structures

Structural Foam Extrusion

Structural Foam Injection Moulding

Structural Foam Preparation

Structural Foam Trolley Base

Structural Parameters of Foams

Structural foam injection

Structural foam injection molding

Structural foam molding

Structural foam molding economic comparison

Structural foams

Structural foams

Structural foams cellular core

Structural foams preparation method

Structural parameters, foams structured” water

Structural parameters, foams structuring” agents

Structural-Foam Types

Structure and Coarsening of Foams

Structure of Dry Foams

Structure, of foams

Structured foam catalysts

Structured solid foams

Styrenic structural foams, properties

Syntactic foams cellular structure

Syntactic structural foam

Techniques for Studying Structural Parameters of Foams

The Relation of Surfactant Chemical Structure to Foaming in Aqueous Solution

Thermoplastic structural foams

Three-phase foam structure

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