Towards objective simulation of quasi-static failure using a bounded rate local model with damage

Part Two duly concludes by spelling out in more detail what this paradigm shift to a non-dualist historicism would involve in actual practice. Essentially, it requires a distinctly recursive mode of analysis, whereby our historical subjects themselves determine the particular terms upon which their world is to be studied. This mode of analysis would begin by trying to establish the local model of social being upon which a given people’ s way of life was premised. This effectively means recovering their particular prevailing metaphysical and ontological certainties, their dominant shared account of what was and could be always already there in their world. The various practices and mechanisms of their way of life can then be analysed according to this same local model of social being. The chapter ends by answering a range of possible questions that readers may have about the proposed paradigm shift, clarifying further its nature, its theoretical parameters, and its analytical purposes.

Download Full-text

On a conjecture of Pappas and Rapoport about the standard local model for GL_d

Journal für die reine und angewandte Mathematik (Crelles Journal) ◽

10.1515/crelle-2020-0030 ◽

2020 ◽

Vol 0 (0) ◽

Author(s):

Dinakar Muthiah ◽

Alex Weekes ◽

Oded Yacobi

Keyword(s):

Type A ◽

Positive Answer ◽

Local Model ◽

Schubert Varieties ◽

Shimura Varieties ◽

Local Models ◽

Full Generality ◽

Frobenius Splitting ◽

Affine Grassmannians ◽

Main Ideas

AbstractIn their study of local models of Shimura varieties for totally ramified extensions, Pappas and Rapoport posed a conjecture about the reducedness of a certain subscheme of {n\times n} matrices. We give a positive answer to their conjecture in full generality. Our main ideas follow naturally from two of our previous works. The first is our proof of a conjecture of Kreiman, Lakshmibai, Magyar, and Weyman on the equations defining type A affine Grassmannians. The second is the work of the first two authors and Kamnitzer on affine Grassmannian slices and their reduced scheme structure. We also present a version of our argument that is almost completely elementary: the only non-elementary ingredient is the Frobenius splitting of Schubert varieties.

Download Full-text

Local and non-local damage model with extended stress decomposition for concrete

International Journal of Damage Mechanics ◽

10.1177/1056789521998728 ◽

2021 ◽

pp. 105678952199872

Author(s):

Bilal Ahmed ◽

George Z Voyiadjis ◽

Taehyo Park

Keyword(s):

Shear Stress ◽

Degrees Of Freedom ◽

Biaxial Loading ◽

Damage Model ◽

Local Model ◽

Uniaxial Tensile ◽

Gradient Theory ◽

Principal Stresses ◽

Stress Decomposition ◽

Non Local

In this work, a new damage model for concrete is proposed with an extension of the stress decomposition (limited to biaxial cases), to capture shear damage due to the opposite signed principal stresses. To extract the pure shear stress, the assumption is made that one component of the shear stress is a minimum absolute of the two principal stresses. The opposite signed principal stresses are decomposed into shear stress and uniaxial tensile/compressive stress. A local model is implemented in Abaqus UMAT and it is further extended to a non-local model by utilization of the gradient theory. The concept of three length scales (tension, compression, and shear) is kept the same as the recently proposed nonlocal damage model by the authors. The nonlocal model is implemented in the Abaqus UEL-UMAT subroutine with an eight-node quadrilateral user-defined element, having five degrees of freedom at corner nodes (displacement in X/Y direction and tensile/compressive and shear nonlocal equivalent strain) and two degrees of freedom at internal nodes. Some examples of a local model including uniaxial and biaxial loading are addressed. Also, five examples of mixed crack mode and mode-I cracking are presented to comprehensively show the performance of this model.

Download Full-text

Modeling of the buckstay system of membrane-walls in watertube boiler construction

Thermal Science ◽

10.2298/tsci120204174n ◽

2014 ◽

Vol 18 (suppl.1) ◽

pp. 59-72 ◽

Cited By ~ 3

Author(s):

Hasan Nagiar ◽

Tasko Maneski ◽

Vesna Milosevic-Mitic ◽

Branka Gacesa ◽

Nina Andjelic

Keyword(s):

Finite Element ◽

Orthotropic Plate ◽

Global Model ◽

Local Model ◽

Thermal Loads ◽

Water Tube ◽

Bending Load ◽

Specific Geometry ◽

Structural Parts ◽

Help Model

Membrane walls are very important structural parts of water-tube boiler construction. Based on their specific geometry, one special type of finite element was defined to help model the global boiler construction. That is the element of reduced orthotropic plate with two thicknesses and two elasticity matrixes, for membrane and bending load separately. A global model of the boiler construction showed that the high value of stress is concentrated in plates of the buckstay system in boiler corners. Validation of the new finite element was done on the local model of the part of membrane wall and buckstay. A very precise model of tubes and flanges was compared to the model formed on the element of a reduced orthotropic plate. Pressure and thermal loads were discussed. Obtained results indicated that the defined finite element was quite favorable in the design and reconstruction of the boiler substructures such as a buckstay system.

Download Full-text