Search results for " tightness"

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Free sequences and the tightness of pseudoradial spaces

2019

Let F(X) be the supremum of cardinalities of free sequences in X. We prove that the radial character of every Lindelof Hausdorff almost radial space X and the set-tightness of every Lindelof Hausdorff space are always bounded above by F(X). We then improve a result of Dow, Juhasz, Soukup, Szentmiklossy and Weiss by proving that if X is a Lindelof Hausdorff space, and $$X_\delta $$ denotes the $$G_\delta $$ topology on X then $$t(X_\delta ) \le 2^{t(X)}$$ . Finally, we exploit this to prove that if X is a Lindelof Hausdorff pseudoradial space then $$F(X_\delta ) \le 2^{F(X)}$$ .

Algebra and Number TheoryApplied Mathematics010102 general mathematicsGeneral Topology (math.GN)Hausdorff spaceMathematics::General TopologySpace (mathematics)01 natural sciencesInfimum and supremum010101 applied mathematicsCombinatoricsMathematics::LogicComputational MathematicsCharacter (mathematics)Free sequence tightness Lindelof degree pseudoradialFOS: MathematicsGeometry and TopologySettore MAT/03 - Geometria0101 mathematicsAnalysisMathematics - General TopologyMathematics
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Variations of selective separability II: Discrete sets and the influence of convergence and maximality

2012

A space $X$ is called selectively separable(R-separable) if for every sequence of dense subspaces $(D_n : n\in\omega)$ one can pick finite (respectively, one-point) subsets $F_n\subset D_n$ such that $\bigcup_{n\in\omega}F_n$ is dense in $X$. These properties are much stronger than separability, but are equivalent to it in the presence of certain convergence properties. For example, we show that every Hausdorff separable radial space is R-separable and note that neither separable sequential nor separable Whyburn spaces have to be selectively separable. A space is called \emph{d-separable} if it has a dense $\sigma$-discrete subspace. We call a space $X$ D-separable if for every sequence of …

54D65 54A25 54D55 54A20H-separable spaceSubmaximalD+-separable spaceSequential spaceFUNCTION-SPACESSeparable spaceSpace (mathematics)INVARIANTSSeparable spaceCombinatoricsGN-separable spaceStrong fan tightnessM-separable spaceMaximal spaceConvergence (routing)Radial spaceFOS: MathematicsFréchet spaceCountable setStratifiable spaceWhyburn propertyTOPOLOGIESDH+-separable spaceTightnessMathematics - General TopologyMathematicsDH-separable spaceD-separable spaceSequenceExtra-resolvable spaceGeneral Topology (math.GN)Hausdorff spaceResolvableR-separable spaceLinear subspaceResolvable spaceSequentialDiscretely generated spaceSubmaximal spaceGeometry and TopologyTOPOLOGIES; FUNCTION-SPACES; INVARIANTSSS+ spaceFan tightnessCrowded spaceSubspace topologyTopology and its Applications
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Effects of Air Tightness Tests on Steel Thin-Wall Box Structures with Circular and Rectangular Cross Sections

2019

In this paper, the effects of air tightness tests on steel box structures with rectangular or circular cross sections typical of port cranes (legs, arms, and crosspieces) are analyzed. Legs and arms are generally made with elements with profiles having a square or rectangular cross section, while the diagonal struts are made with profiles having circular cross sections. To verify the air tightness of these elements, a necessary requirement to protect them from corrosion if they are not protected with other protection techniques, air tightness tests are performed. These tests, in the framework of durability tests, must be carried out while maintaining the structure elasticity well below the …

Air tightnessMaterials sciencebusiness.industrytechnology industry and agriculturePort (circuit theory)Building and ConstructionStructural engineeringNumerical simulationChoice of test pressurebody regionsSettore ICAR/09 - Tecnica Delle CostruzioniBox profiles with rectangular or circular sectionArts and Humanities (miscellaneous)Thin wallSeal testbusinessCivil and Structural Engineering
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