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Strain Properties (strain + property)

Distribution by Scientific Domains
Medical Sciences60%

Selected Abstracts

Preparation of rubber composites from ground tire rubber reinforced with waste-tire fiber through mechanical milling

JOURNAL OF APPLIED POLYMER SCIENCE, Issue 6 2007
Xin-Xing Zhang
Abstract Composites made from ground tire rubber (GTR) and waste fiber produced in tire reclamation were prepared by mechanical milling. The effects of the fiber content, pan milling, and fiber orientation on the mechanical properties of the composites were investigated. The results showed that the stress-induced mechanochemical devulcanization of waste rubber and the reinforcement of devulcanized waste rubber with waste-tire fibers could be achieved through comilling. For a comilled system, the tensile strength and elongation at break of revulcanized GTR/fiber composites reached maximum values of 9.6 MPa and 215.9%, respectively, with 5 wt % fiber. Compared with those of a composite prepared in a conventional mixing manner, the mechanical properties were greatly improved by comilling. Oxygen-containing groups on the surface of GTR particles, which were produced during pan milling, increased interfacial interactions between GTR and waste fibers. The fiber-filled composites showed anisotropy in the stress,strain properties because of preferential orientation of the short fibers along the roll-milling direction (longitudinal), and the adhesion between the fiber and rubber matrix was improved by the comilling of the fiber with waste rubber. The proposed process provides an economical and ecologically sound method for tire-rubber recycling. © 2006 Wiley Periodicals, Inc. J Appl Polym Sci 103: 4087,4094, 2007 [source]

CHARACTERIZATION OF THE NONLINEAR VISCOELASTIC CONSTITUTIVE PROPERTIES OF MILD CHEDDAR CHEESE FROM INDENTATION TESTS

JOURNAL OF TEXTURE STUDIES, Issue 5-6 2005
S.M. GOH
ABSTRACT A methodology to convert the indentation force,displacement response into the stress,strain properties of nonlinear viscoelastic materials was evaluated. Mild cheddar cheese was used as the test material, and indentation tests were performed using two spherical indenters of different sizes. The indentation tests were performed at different speeds, and the corresponding force,displacement responses were fitted with an analytical solution to obtain the time-dependent constants and the instantaneous force,displacement response. An inverse analysis based on the finite element method was performed to obtain the strain-dependent constants from the instantaneous force,displacement response. The predictions of the viscoelastic stress,strain properties from the indentation tests were compared to independent measurements through uniaxial compression tests, and a reasonable agreement was obtained. [source]

Tension and stress in the rat and rabbit stomach are location- and direction-dependent

NEUROGASTROENTEROLOGY & MOTILITY, Issue 3 2005
J. Zhao
Abstract, Distension studies in the stomach are very common. It is assumed in pressure,volume (barostat) studies of tone and tension in the gastric fundus that the fundus is a sphere, i.e. that the tension in all directions is identical. However, the complex geometry of the stomach indicates a more complex mechanical behaviour. The aim of this study was to determine uniaxial stress,strain properties of gastric strips obtained from rats (n = 12) and rabbits (n = 10). Furthermore, we aimed to study the gastric zero-stress state since the stomach is one of the remaining parts of the gastrointestinal tract where residual strain studies have not been conducted. Longitudinal strips (in parallel with the lesser curvature) and circumferential strips (perpendicular to the lesser curvature) were cut from the gastric fundus (glandular part) and forestomach (non-glandular part). The residual stress was evaluated as bending angles (unit: degree per unit length and negative when bending outwards). The residual strain was computed from the change in length between the zero-stress state and no-load state. The stress,strain test was performed using a tensile test machine. The thickness and width of each strip were measured from digital images. The strips data were compared with data obtained in the intact stomach in vitro. Most residual stresses and strains were bigger in the glandular part than in the forestomach, and in general the rat stomach had higher values than the rabbit stomach. The glandular strips were stiffer than the forestomach strips and the longitudinal glandular strips were stiffer than the circumferential glandular strips (P < 0.05). The gastric strips were stiffer in rats than in rabbits (P < 0.01). The data obtained in the intact rat stomach confirmed the strips data and indicated that those were obtained in the physiological range. In conclusion, the biomechanical properties of the gastric strips from the rat and rabbit are location-dependent, direction-dependent and species-dependent. The assumption in physiological pressure,volume studies that the stomach is a sphere with uniform tension is not valid. Three-dimensional geometric data obtained using imaging technology and mechanical data are needed for evaluation of the stomach function. [source]

Diversity of Veillonella spp. from subgingival plaque by polyphasic approach

APMIS, Issue 3 2010
INGA LEUCKFELD
Leuckfeld I, Paster BJ, Kristoffersen AK, Olsen I. Diversity of Veillonella spp. from subgingival plaque by polyphasic approach. APMIS 2010; 118: 230,42. In a biofilm such as the subgingival microflora, strain-specific properties or factors induced by the host may impart a survival advantage to some bacterial strains. Periodontal disease has been associated with chronic obstructive pulmonary disease (COPD) and we previously found high amounts of Veillonella in the subgingival microflora of COPD subjects. Differentiation of Veillonella is difficult. The aims of this study were to identify subgingival Veillonella isolates by phenotypic, genetic typing and molecular genetic methods, and further, to assess if Veillonella strain properties or identity correlated with periodontal disease or COPD. From 22 subjects, 26 subgingival Veillonella isolates and one pulmonary isolate were analysed. The majority of the subgingival Veillonella isolates were identified as Veillonella parvula. Genotyping showed heterogeneity within strains of the same species. A subgingival and pulmonary isolate in one COPD subject was found to be genetically identical strains of V. parvula. Scanning electron microscopy of the lung biopsy confirmed single small cocci adhering or coaggregating with larger cocci on the airway epithelium. Apart from a variation in cellular fatty acid composition of six subgingival isolates from periodontitis subjects, no correlation between the subgingival Veillonella strains or genotypes and the presence of either periodontitis or COPD was found. In conclusion, V. parvula was the predominant subgingival Veillonella species with high genetic variability within strains of the same species. Subgingival V. parvula can translocate to the lungs; however, Veillonella identity or genotype did not correlate with periodontal disease or COPD. [source]

Strain-Associated Variations in Abnormal PrP Trafficking of Sheep Scrapie

BRAIN PATHOLOGY, Issue 1 2009
FRC Path, MRCVS, Martin Jeffrey BVMS DVM Dip ECVP
Abstract Prion diseases are associated with the accumulation of an abnormal form of the host-coded prion protein (PrP). It is postulated that different tertiary or quaternary structures of infectious PrP provide the information necessary to code for strain properties. We show here that different light microscopic types of abnormal PrP (PrPd) accumulation found in each of 10 sheep scrapie cases correspond ultrastructurally with abnormal endocytosis, increased endo-lysosomes, microfolding of plasma membranes, extracellular PrPd release and intercellular PrPd transfer of neurons and/or glia. The same accumulation patterns of PrPd and associated subcellular lesions were present in each of two scrapie strains present, but they were present in different proportions. The observations suggest that different trafficking pathways of PrPd are influenced by strain and cell type and that a single prion strain causes several PrPd,protein interactions at the cell membrane. These results imply that strains may contain or result in production of multiple isoforms of PrPd. [source]