Mechanical properties of modified

Tolbin AY, Nashchokin AV, Kepman AV, Dunaev AV, Malakho AP, Morozov VA, et al. Influence of conditions of catalytic growth of carbon nanostructures on mechanical properties of modified carbon fibers. Fiber Chemistry. 2012 Jul 44(2) 95-100. 

This chapter reports the study of the chemical composition of the polysulfide fraction in dicyclopentadiene and styrene modified materials, the mechanical properties of modified materials, and their use in the preparation of composite materials by the impregnation of polypropylene and glass-fiber fabrics. 

Investigation of mechanical properties of modified and initial CDA before irradiation, as it is seen from Table 25, shows that they are similar in properties. However, irradiation exerts different effect on CDA and its modified analogs. 

R. Kumar, J.S. Dhaliwal, G.S. Kapur, Mechanical properties of modified biofiller polypropylene composites. Polym. Compos. 35, 708-714 (2013)... 

Sonoda et al. [155] observed an increase in relative permittivity of BST/polymer composites by introducing aliphatic carboxylic aids onto the BST surface. The modified nanoparticles with longer carboxylic acid chains had better compatibility with the polymer matrix. In addition, the mechanical properties of modified BST powder/polymer composites were not affected. 

In this book Song et al (10) described a novel nucleation and mineral growth process to produce a bone-like biomineral con site. The crosslinked gelatin-chitosan blend made by Payne et al fi/J may perhaps be used as biomimetic soft tissue or for bioencapsulation. The sorbitol-based polyesters synthesized by Mei at al (27) and Kulshrestha et al (26) may possibly find applications in tissue engineering. Biswas et al (13) described the preparation and the mechanical properties of modified zein. Fishman et al (12) made pectin-starch and pectin-poly(vinyl alcohol) blends and found them to be strong, flexible films. 

TABLE 3-83. PHYSICAL AND MECHANICAL PROPERTIES OF MODIFIED POLYPHENYLENE OXIDE... 

S. Collepardi, L. Coppol, R. Troli and M. Collepardi, Mechanical properties of modified reactive powder concrete , in V.M. Malhotra (ed.) Superpiasticizers and Other Chemical Admixtures, Proc. 5th CANMET/ACI International Conference, ACI SP 173, American Concrete Institute, 1997, pp. 2-21. 

The physical and mechanical properties of steel depend on its microstmcture, that is, the nature, distribution, and amounts of its metaHographic constituents as distinct from its chemical composition. The amount and distribution of iron and iron carbide determine most of the properties, although most plain carbon steels also contain manganese, siUcon, phosphoms, sulfur, oxygen, and traces of nitrogen, hydrogen, and other chemical elements such as aluminum and copper. These elements may modify, to a certain extent, the main effects of iron and iron carbide, but the influence of iron carbide always predominates. This is tme even of medium alloy steels, which may contain considerable amounts of nickel, chromium, and molybdenum. 

E. C. O. Erikson, Mechanical Properties ofUaminated Modified Wood, Report 1639, U.S. Department of Agriculture, Eorest Service, Eorest Products Laboratory, Madison, Wise., 1965. 

To introduce some interfacial physico-chemical linkage between EVA and PRP, blends were made by adding different quantities of M AH-PP. Some results are demonstrated in Table 12, The physico-mechanical properties of the PRP-EVA compositions modified with MAH-PP showed that properties are influenced by MAH-PP concentration. Compositions with better impact strength and improved brittleness can be prepared by varying the modifier concentration. Tensile strength and elongation are not significantly influenced by the addition of a modifier. An increase in the modifier con-... 

The mechanical properties of these blends are also increased with an increase in compatibilizer concentration. The improvement in tensile strength and tear strength on the addition of modified polyolefins are shown in Fig. 15. The mechanical properties also show a leveling off after the optimum concentration. The im-... 

It should be noted that for polymerization-modified perlite the strength parameters of the composition algo go up with the increasing initial particle size. [164]. In some studies it has been shown that the filler modification effect on the mechanical properties of composites is maximum when only a portion of the filler surface is given the polymerophilic properties (cf., e.g. [166-168]). The reason lies in the specifics of the boundary layer formation in the polymer-filler systems and formation of a secondary filler network . In principle, the patchy polymerophilic behavior of the filler in relation to the matrix should also have place in the failing polymerization-modified perlite. 

Physico-Mechanical Properties of Composites with Polymerization-Modified Fillers (PMF)... 

Table 17 provides a list of various polysiloxane-poly(aryl ether) copolymers investigated. Depending on the type, nature and the level of the hard blocks incorporated, physical, thermal and mechanical properties of these materials can be varied over a very wide range from that of thermoplastic elastomers to rubber modified engineering thermoplastics. Resultant copolymers are processable by solution techniques and in some cases by melt processing 22,244). 

Siloxane containing interpenetrating networks (IPN) have also been synthesized and some properties were reported 59,354 356>. However, they have not received much attention. Preparation and characterization of IPNs based on PDMS-polystyrene 354), PDMS-poly(methyl methacrylate) 354), polysiloxane-epoxy systems 355) and PDMS-polyurethane 356) were described. These materials all displayed two-phase morphologies, but only minor improvements were obtained over the physical and mechanical properties of the parent materials. This may be due to the difficulties encountered in controlling the structure and morphology of these IPN systems. Siloxane modified polyamide, polyester, polyolefin and various polyurethane based IPN materials are commercially available 59). Incorporation of siloxanes into these systems was reported to increase the hydrolytic stability, surface release, electrical properties of the base polymers and also to reduce the surface wear and friction due to the lubricating action of PDMS chains 59). 

The polymer is based on a simple head-to-tail arrangement of monomer units and is amorphous, since the specific position of the benzene ring is somewhat variable and hence inhibits crystallisation. Despite its generally desirable properties, for many applications it is considered too brittle. Because of this, a number of approaches have been made to modify the mechanical properties of poly (styrene). The most successful of these have been (i) copolymerisation and (ii) the addition of rubbery fillers. 

Epoxidized oils were also used to modify PLA Ali et ah (2009) reported that its use as a plasticizer to improve flexibility. Thermal and scanning electron microscope analysis revealed that epoxidized soybean oil is partially miscible with PLA. Rheological and mechanical properties of PLA/epoxidized soybean oil blends were studied by Xu and Qu (2009) Epoxidized soybean oil exhibited a positive effect on both the elongation at break and melt rheology. Al-Mulla et al. (2010b) also reported that plasticization of PLA (epoxidized palm oil) was carried out via solution casting process using chloroform as a solvent. The results indicated that improved flexibility could be achieved by incorporation of epoxidized palm oil. 

Takagi, Y., Yasuda, R., Yamaoka, M. and Yamane, T. 2004. Morphologies and mechanical properties of polylactide blends with medium chain length poly(3-hydroxyalkanoate) and chemically modified poly(3-hydroxyalkanoate). Journal of Applied Polymer Science 93 2363-2369. 

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