Applied Mechanics – RWTH Aachen UniversityEditor |
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1. | Oliver Barfusz Reduced integration-based continuum finite elements for gradient-extended damage Volume: 11 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-8604-1, May 2022 Online publication (PDF) Favored by the immense progress in information technology, numerical simulations based on the finite element method have become an indispensable tool in engineering science as well as industry. By using ... more ... | 49,80 € |
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2. | Robert Eggersmann Constitutive-model-free data-driven computational mechanics Volume: 10 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-8455-9, February 2022 Online publication (PDF) For many years, researchers have been developing great improvements to the finite element method. Here, a central challenge is to formulate material models. To circumvent the complexity of material modeling, ... more ... | 45,80 € |
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3. | Marek Fassin Modeling of gradient-extended anisotropic damage using a second order damage tensor Volume: 9 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-6974-7, October 2019 Online publication (PDF) Numerical simulations are indispensible in many engineering disciplines since they can reduce the number of costly and time-consuming experiments. For the prediction of material and structural failure, ... more ... | 49,80 € |
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4. | Julian Kochmann Efficient FE- and FFT-based two-scale methods for micro-heterogeneous media Volume: 8 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-6904-4, September 2019 Online publication (PDF) Most materials of technological importance are heterogeneous at a certain scale. Typical examples include polycrystalline aggregates, fiber-reinforced composites, high-strength ceramics, and porous media. ... more ... | 48,80 € |
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5. | Jan Frischkorn New finite element modelling techniques for functional materials and devices Volume: 7 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-6832-0, August 2019 Online publication (PDF) In this thesis, focus is drawn to the modelling of the mechanical behaviour of two types of products that feature increased functionality. To this end, the finite element method (FEM) is utilized and ... more ... | 48,80 € |
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6. | Tim Brepols Theory and numerics of gradient-extended damage coupled with plasticity Volume: 6 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-6512-1, February 2019 Online publication (PDF) Numerical simulations for predicting damage and failure of materials and structures are of fundamental importance in many engineering disciplines. The significance of such simulations depends to a large ... more ... | 49,80 € |
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7. | Bertram Stier Experimental and Numerical Multi Scale Analysis of Fiber Reinforced Composites Volume: 5 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-5488-0, October 2017 Online publication (PDF) Increasing energy costs necessitate efficient lightweight constructions particularly in the fields of mobility and transport. For these applications, tailorable materials like fiber reinforced plastics ... more ... | 49,80 € |
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8. | Yalin Kiliclar Finite element analysis of quasistatic and combined quasistatic-electromagnetic forming processes by means of coupled plasticity-damage modeling Volume: 4 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-5472-9, September 2017 Based on the increasing computational power, efficient numerical analysis methods for sheet metal forming processes play a major role in the manufacturing industry. The finite element method ... more ... | 45,80 € |
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9. | Reza Kebriaei Multiscale modeling and experimental investigation of metallic composite structures with application to bulk and sheet metal forming Volume: 3 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-4003-6, November 2015 The dissertation focuses on the simulation and experimental investigations of innovative structures. The major objective of this research work is the development of improved, efficient, feasible and reliable ... more ... | 48,80 € |
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10. | Annika Radermacher Proper orthogonal decomposition-based model reduction in nonlinear solid mechanics Volume: 2 Series: Applied Mechanics – RWTH Aachen University 978-3-8440-3374-8, February 2015 The present dissertation discusses projection-based model reduction techniques to reduce the computational effort of finite element simulations in nonlinear solid mechanics preserving a sufficient accuracy. ... more ... | 48,80 € |
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