The Effect of Dispersion and Particle–Matrix Interactions on the Fatigue Behavior of Novel Epoxy/Halloysite Nanocomposites

We are interested in defining the cell-cell and cell-matrix interactions that help direct the differentiation of extraembryonic endoderm in the peri-implantation mouse embryo. At the blastocyst stage the mouse embryo consists of an outer layer of trophectoderm surrounding the fluid-filled blastocoel cavity and an eccentrically located inner cell mass. On the free surface of the inner cell mass, facing the blastocoel cavity, a layer of primitive endoderm forms. Primitive endoderm then generates two distinct cell types; parietal endoderm (PE) which migrates along the inner surface of the trophectoderm and secretes large amounts of basement membrane components as well as tissue-type plasminogen activator (tPA), and visceral endoderm (VE), a columnar epithelial layer characterized by tight junctions, microvilli, and the synthesis and secretion of α-fetoprotein. As these events occur after implantation, we have turned to the F9 teratocarcinoma system as an in vitro model for examining the differentiation of these cell types. When F9 cells are treated in monolayer with retinoic acid plus cyclic-AMP, they differentiate into PE. In contrast, when F9 cells are treated in suspension with retinoic acid, they form embryoid bodies (EBs) which consist of an outer layer of VE and an inner core of undifferentiated stem cells. In addition, we have established that when VE containing embryoid bodies are plated on a fibronectin coated substrate, PE migrates onto the matrix and this interaction is inhibited by RGDS as well as antibodies directed against the β1 integrin subunit. This transition is accompanied by a significant increase in the level of tPA in the PE cells. Thus, the outgrowth system provides a spatially appropriate model for studying the differentiation and migration of PE from a VE precursor.

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Cell matrix interactions in asthma

Clinical & Experimental Allergy ◽

10.1046/j.1365-2222.1997.d01-423.x ◽

1997 ◽

Vol 27 (1) ◽

pp. 22-27

Author(s):

K. GOLDRING ◽

J. A. WARNER

Keyword(s):

Cell Matrix ◽

Matrix Interactions ◽

Cell Matrix Interactions

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THE FATIGUE BEHAVIOR OF FRESHWATER ICE

Le Journal de Physique Colloques ◽

10.1051/jphyscol:1987146 ◽

1987 ◽

Vol 48 (C1) ◽

pp. C1-329-C1-335 ◽

Cited By ~ 3

Author(s):

W. A. NIXON ◽

R. A. SMITH

Keyword(s):

Fatigue Behavior ◽

Freshwater Ice

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Prediction of Cryogenic S-N Fatigue Behavior of Cast 304 Stainless Steel

Korean Journal of Metals and Materials ◽

10.3365/kjmm.2011.49.10.774 ◽

2011 ◽

Vol 49 (10) ◽

Keyword(s):

Stainless Steel ◽

Fatigue Behavior ◽

304 Stainless Steel

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Static and Fatigue Behavior of Pretensioned Composite Bridge Girders Made with High Strength Concrete

PCI Journal ◽

10.15554/pcij.05011993.116.128 ◽

1993 ◽

Vol 38 (3) ◽

pp. 116-128 ◽

Cited By ~ 2

Author(s):

Bruce W. Russell ◽

Ned H. Burns

Keyword(s):

High Strength Concrete ◽

Fatigue Behavior ◽

High Strength ◽

Bridge Girders ◽

Strength Concrete ◽

Composite Bridge

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Calculating Energy Release Rate as a Function of Crack Length Using a Multiple-Step Crack Closure Technique in Tire Finite Element Models

Tire Science and Technology ◽

10.2346/tire.18.460302 ◽

2018 ◽

Vol 46 (3) ◽

pp. 130-152

Author(s):

Dennis S. Kelliher

Keyword(s):

Finite Element ◽

Energy Release Rate ◽

Crack Length ◽

Energy Release ◽

Crack Closure ◽

Release Rate ◽

Fatigue Behavior ◽

Three Dimensions ◽

Quantitative Prediction ◽

Closure Technique

ABSTRACT When performing predictive durability analyses on tires using finite element methods, it is generally recognized that energy release rate (ERR) is the best measure by which to characterize the fatigue behavior of rubber. By addressing actual cracks in a simulation geometry, ERR provides a more appropriate durability criterion than the strain energy density (SED) of geometries without cracks. If determined as a function of crack length and loading history, and augmented with material crack growth properties, ERR allows for a quantitative prediction of fatigue life. Complications arise, however, from extra steps required to implement the calculation of ERR within the analysis process. This article presents an overview and some details of a method to perform such analyses. The method involves a preprocessing step that automates the creation of a ribbon crack within an axisymmetric-geometry finite element model at a predetermined location. After inflating and expanding to three dimensions to fully load the tire against a surface, full ribbon sections of the crack are then incrementally closed through multiple solution steps, finally achieving complete closure. A postprocessing step is developed to determine ERR as a function of crack length from this enforced crack closure technique. This includes an innovative approach to calculating ERR as the crack length approaches zero.

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Fatigue of Unidirectional Cord-Rubber Composites

Tire Science and Technology ◽

10.2346/1.2135975 ◽

1999 ◽

Vol 27 (1) ◽

pp. 48-57 ◽

Cited By ~ 5

Author(s):

Y. Liu ◽

Z. Wan ◽

Z. Tian ◽

X. Du ◽

J. Jiang ◽

...

Keyword(s):

Damage Accumulation ◽

Fatigue Testing ◽

Fatigue Behavior ◽

Constant Load ◽

Testing System ◽

Rubber Composites ◽

Cycle Frequency ◽

Periodic Loading ◽

Fatigue Damage Accumulation ◽

Rubber Composite

Abstract A fatigue testing system is established with which the real-time recording of stress, strain, temperature, and hysteresis loss of rubbers or cord-rubber composite specimens subjected to periodic loading or extension can be successfully carried out. Several problems are connected with the experimental study of the fatigue of rubber composites. In constant extension cycling, the specimen becomes relaxed because of the viscoelasticity of rubber composites, and the imposed tension-tension deformation becomes complex. In this method, the specimen is unlikely to fail unless the imposed extensions are very large. Constant load cycling can avoid the shortcomings of constant extension cycling. The specially designed clamps ensure that the specimen does not slip when the load retains a constant value. The Deformation and fatigue damage accumulation processes of rubber composites under periodic loading are also examined. Obviously, the effect of cycle frequency on the fatigue life of rubber composites can not be ignored because of the viscoelasticity of constituent materials. The increase of specimen surface temperature is relatively small in the case of 1 Hz, but the temperature can easily reach 100°C at the 8 Hz frequency. A method for evaluating the fatigue behavior of tires is proposed.

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SHCA PHOSPHOTYROSINE DERIVED SIGNALING IS REQUIRED FOR THE MAINTENANCE OF CARDIAC FUNCTION

Clinical & Investigative Medicine ◽

10.25011/cim.v31i4.4829 ◽

2008 ◽

Vol 31 (4) ◽

pp. 23

Author(s):

Rachel Vanderlaan ◽

Rod Hardy ◽

Golam Kabir ◽

Peter Back ◽

A J Pawson

Keyword(s):

Extracellular Matrix ◽

Cardiac Function ◽

Tyrosine Kinases ◽

Sh2 Domain ◽

Scaffolding Protein ◽

Restricted Domain ◽

Downstream Signaling ◽

Matrix Interactions ◽

Extracellular Matrix Interactions ◽

Ptb Domain

Background: ShcA, a scaffolding protein, generates signalspecificity by docking to activated tyrosine kinases through distinct phosphotyrosine recognition motifs, while mediating signal complexity through formation of diverse downstream phosphotyrosine complexes. Mammalian ShcA encodes 3 isoforms having a modular architecture of a PTB domain and SH2 domain, separated by a CH1 region containing tyrosine phosphorylation sites important in Ras-MAPK activation. Objective and Methods: ShcA has a necessary role in cardiovascular development^1,2. However, the role of ShcA in the adult myocardium is largely unknown, also unclear, is how ShcA uses its signaling modules to mediate downstream signaling. To this end, cre/loxP technology was employed to generate a conditional ShcA allele series. The myocardial specific ShcA KO (ShcA CKO) and myocardial restricted domain mutant KI mice were generated using cre expressed from the mlc2v locus^3 coupled with the ShcA floxed allele and in combination with the individual ShcA domain mutant KI alleles^2. Results: ShcACKO mice develop a dilated cardiomyopathy phenotype by 3 months of life, typified by depressed cardiac function and enlarged chamber dimensions. Isolated cardiomyocytes from ShcA CKO mice have preserved contractility indicating an uncoupling between global heart function and single myocyte contractile mechanics. Force-length experiments suggest that the loss of shcAmediates the uncoupling through deregulation of extracellular matrix interactions. Subsequent, analysis of the ShcA myocardial restricted domain mutant KImice suggests that ShcA requires PTB domain docking to upstream tyrosine kinases and subsequent phosphorylation of the CH1 tyrosines important for downstream signaling. Conclusion: ShcA is required for proper maintenance of cardiac function, possibly regulation of extracellular matrix interactions. References: 1. Lai KV, Pawson AJ. The ShcA phosphotyrosine docking protein sensitizescardiovascular signaling in the mouse embryo. Genes and Dev 2000;14:1132-45. 2. Hardy WR. et al. Combinatorial ShcA docking interactions supportdiversity in tissue morphogenesis. Science2007;317:251-6. 3.Minamisawa, s. et al. A post-transcriptional compensatory pathway inheterozygous ventricular myosin light chain 2-deficient mice results in lack ofgene dosage effect during normal cardiac growth or hypertrophy. J Biol Chem 1999;274:10066-70.

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