Search results for "Crack"

showing 10 items of 209 documents

Moisture dependence on mechanical properties of pine nuts from Pinus pinea L.

2012

Abstract Mechanical properties of pine nut shell are very important in the cracking process. Before industrial cracking shell moisture is adjusted by water soaking in order to avoid the breaking up of the nuts. In this work the moisture dependence of the mechanical properties of pine nut shells were studied in order to improve the industrial cracking process. Relationship between nut size and moisture content was studied and no significant differences were found for shell dimensions at four different moisture levels, 9.79%, 16.71%, 20.98% and 25.05% (dry basis). Compression tests were carried out on pine nuts at nine different moisture contents between 1.38% and 25.48% (db) and their main m…

NutCrackingBehavioral traitsMaterials scienceMoistureDry basisComposite materialElasticity (economics)Water contentFood ScienceJournal of Food Engineering
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Converting olefins to propene: Ethene to propene and olefin cracking

2018

ABSTRACTDemand for propene as a petrochemical building block keeps growing, while its availability has been decreased by the adoption of shale gas resources, among others. Efforts to optimize its production by conventional means (including modified fluid catalytic cracking) and new on-purpose production technologies (including ethene to propene (ETP) and olefin cracking) are being pursued. This work reviews the progress made on olefin conversion processes, including the ETP reaction, which is still under development, and the cracking of butenes and higher olefins (C5–C8). The factors analyzed include the catalytic performance of different zeolite materials and their modifications to increas…

Olefin fiberChemistryProcess Chemistry and Technology02 engineering and technologyGeneral Chemistry010402 general chemistry021001 nanoscience & nanotechnologyFluid catalytic cracking01 natural sciencesCatalysis0104 chemical sciencesCatalysisPropenechemistry.chemical_compoundCrackingPetrochemicalChemical engineeringYield (chemistry)0210 nano-technologyZeoliteCatalysis Reviews
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Product selectivity effects during cracking of alkanes at very short and longer times on stream

1996

Abstract Cracking of C 7 , C 10 , C 12 and C 14 n-alkanes, over USY, Beta and ZSM-5 zeolites was carried out in a reaction system which allows to obtain instantaneous conversions at very short times on stream. With this system the influence of operation variables, chain length of the paraffin fed, and catalyst structure on product selectivity was established. Positive and negative effects of catalyst decay on product selectivity were obtained, and this behaviour could be simulated by using a deactivation model in which the rate of deactivation depends on the product concentration. It was observed that olefin/paraffin, branched/normal paraffin, branched/normal olefin ratios and aromatic sele…

Olefin fiberHydrogenChemistryHydrideProcess Chemistry and Technologychemistry.chemical_elementCatalysisCatalysisCrackingProduct (mathematics)Physical chemistryOrganic chemistryBeta (finance)SelectivityApplied Catalysis A: General
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Boundary-layer effects in wedges of piezoelectric laminates

2005

An approach to investigate boundary-layer effects in wedges of piezoelectric laminated structures is presented with the aim of ascertaining the electromechanical response characteristics. The wedge layer behavior is described in terms of generalized stress functions, which lead to a model consisting of a set of three coupled partial differential equations. The strength of the solution singularity is determined by solving the eigenvalue problem associated with the resolving system. The solution of the model is obtained by an eigenfunction expansion method coupled with a boundary collocation technique. Correspondingly, the singularity amplitude is assessed by introducing and calculating the g…

Partial differential equationMathematical analysisStress functionsEigenfunctionCondensed Matter PhysicsWedge (geometry)PiezoelectricityAtomic and Molecular Physics and OpticsBoundary layerSingularityMechanics of MaterialsSignal ProcessingPiezoelectric materials Cracks electric displacementGeneral Materials ScienceElectrical and Electronic EngineeringSettore ING-IND/04 - Costruzioni E Strutture AerospazialiStress intensity factorCivil and Structural EngineeringMathematicsSmart Materials and Structures
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Crack dynamics and crack surfaces in elastic beam lattices

1998

The dynamics of propagating cracks is analyzed in elastic two-dimensional lattices of beams. At early times, inertia effects and static stress enhancement combine so that the crack-tip velocity is found to behave as t1/7. At late times a minimal crack-tip model reproduces the numerical simulation results. With no disorder and for fast loading, a “mirror-mist-mirror” crack-surface pattern emerges. Introduction of disorder leads, however, to the formation of the “mirror-mist-hackle”–type interface typical in many experimental situations. Peer reviewed

PhysicsComputer simulationelastic two-dimensional lattices of beamsmedia_common.quotation_subjectPhysicsDynamics (mechanics)Crack tip opening displacementFracture mechanicsMechanicsdynamicsInertiaCrack growth resistance curveCrack closurepropagating cracksFracture toughnessmedia_common
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Roughening of a propagating planar crack front

2000

A numerical model of the front of a planar crack propagating between two connected elastic plates is investigated. The plates are modeled as square lattices of elastic beams. The plates are connected by similar but breakable beams with a randomly varying stiffness. The crack is driven by pulling both plates at one end in Mode I at a constant rate. We find $\ensuremath{\zeta}=1/3, z=4/3,$ and $\ensuremath{\beta}=1/4$ for the roughness, dynamical, and growth exponents, respectively, that describe the front behavior. This is similar to continuum limit analyses based on a perturbative stress-intensity treatment of the front [H. Gao and J. R. Rice, J. Appl. Mech. 56, 828 (1989)]. We discuss the …

PhysicsConstant ratePlanarCondensed matter physicsPhysicsmedicineStiffnesspropagatingSurface finishmedicine.symptomrougheningplanar crack front
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Microcracking in piezoelectric materials by the Boundary Element Method

2019

A 3D boundary element model for piezoelectric polycrystalline micro-cracking is discussed in this contribution. The model is based on the boundary integral representation of the electro-mechanical behavior of individual grains and on the use of a generalized cohesive formulation for inter-granular micro-cracking. The boundary integral formulation allows to address the electro-mechanical boundary value problem in terms of generalized grain boundary and inter-granular displacements and tractions only, which implies the natural inclusion of the cohesive laws in the formulation, the simplification of the analysis pre-processing stage, and the reduction of the number of degrees of freedom of the…

Piezoelectric ceramicBoundary Element MethodPolycrystalline materialsMicrocracking
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Modelling stress-corrosion microcracking in polycrystalline materials by the Boundary Element Method

2019

The boundary element method is employed in this study in conjunction with the finite element method to build a multi-physics hybrid numerical model for the computational study of stress corrosion cracking related to hydrogen diffusion in polycrystalline microstructures. More specifically a boundary integral representation is used to represent the micro-mechanics of the aggregate while an explicit finite element method is used to model inter-granular hydrogen diffusion. The inter-granular interaction between contiguous grains is represented through cohesive laws, whose physical parameters depend on the concentration of inter-granular hydrogen, diffusing along the interfaces according to the …

Piezoelectric ceramicBoundary Element MethodPolycrystalline materialsSettore ING-IND/04 - Costruzioni E Strutture AerospazialiMicrocracking
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Brittle failure in polycrystalline RVEs by a grain-scale cohesive boundary element formulation

2013

Polycrystalline materials are commonly employed in engineering structures. For modern applica- tions a deep understanding of materials degradation is of crucial relevance. It is nowadays widely recognized that the macroscopic material properties depend on the microstructure. The polycrystalline microstructure is characterized by the features of the grains and by the phys- ical and chemical properties of the intergranular interfaces, that have a direct influence on the evolution of the microstructural damage. The experimental investigation of failure mechanisms in 3D polycrystals still remains a challenging task. A viable alternative, or complement, to the experiments is Computational Microm…

Polycrystalline materialComputational modellingDamage and crackingSettore ING-IND/04 - Costruzioni E Strutture AerospazialiMicromechanic
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IM-5 zeolite for steam catalytic cracking of naphtha to produce propene and ethene. An alternative to ZSM-5 zeolite

2013

Steam catalytic cracking of naphtha in smaller FCC units can be considered an option to produce more ethene and propene. These units will operate at high reaction temperatures and in the presence of steam. The profitability of these units could be improved with the use of new catalysts with higher activity and hydrothermal stability, without compromising the selectivity to light olefins. We have explored the possibilities of IM-5 zeolite for high temperature steam catalytic cracking (SCC) of a naphtha, as an alternative to commonly used ZSM-5 zeolite. So, we compare the catalytic activity, the effect of operating variables of the process and the yields of interest products between the two z…

Production of propene and etheneProcess Chemistry and TechnologySteam catalytic cracking (SCC)Inorganic chemistryFluid catalytic crackingCatalysisHydrothermal circulationCatalysisPropenechemistry.chemical_compoundQUIMICA ORGANICAchemistryYield (chemistry)Steam deactivation of IM-5 zeoliteIM-5 hydrothermal stabilityZeoliteSelectivityNaphthaTECNOLOGIA DEL MEDIO AMBIENTE
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