Cracking The Elements
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Cracking the Elements
From the earliest-known elements to those named in 2016, this book takes a comprehensive look at the development of the periodic table - and reveals untold stories, unsung pioneers and plenty of fascinating science along the way. In twelve illustrated chapters, the book makes sense of the patterns and groups within the periodic table, introducing each of the 118 known elements individually and exploring questions including: - Why did the history of fizzy water give early chemistry a sparkle? - How did hydrogen reveal the structure of the atom? - What was the Bunsen burner's role in discovering new elements? - Which of the alkaline earth metals accounts for a kilogramme of your weight? - Why is Marie Curie such a scientific star? - How do tungsten and vanadium explain the secret of super-sharp Syrian swords? - Who discovered the most elements in the periodic table? - What made nihonium, element 113, such a wonderful new year's gift for Japan? - Is glass a liquid or a solid? - How did nitrogen fulfill the alchemists' dream? - Would you have smeared antimony on your face if you'd lived in ancient Egypt? - Why might naked mole rats have clues for surviving a heart attack? - How did the Haya people of Tanzania make steel 1500 years ago? - What makes xenon a great anaesthetic - and why can't all patients use it? - Might there be a pattern in yet undiscovered elements beyond number 118?
Extended Finite Element Method for Crack Propagation
Novel techniques for modeling 3D cracks and their evolution in solids are presented. Cracks are modeled in terms of signed distance functions (level sets). Stress, strain and displacement field are determined using the extended finite elements method (X-FEM). Non-linear constitutive behavior for the crack tip region are developed within this framework to account for non-linear effect in crack propagation. Applications for static or dynamics case are provided.
Computational Modelling of Concrete Structures
This conference proceedings brings together the work of researchers and practising engineers concerned with computational modelling of complex concrete, reinforced concrete and prestressed concrete structures in engineering practice. The subjects considered include computational mechanics of concrete and other cementitious materials, including masonry. Advanced discretisation methods and microstructural aspects within multi-field and multi-scale settings are discussed, as well as modelling formulations and constitutive modelling frameworks and novel experimental programmes. The conference also considered the need for reliable, high-quality analysis and design of concrete structures in regard to safety-critical structures, with a view to adopting these in codes of practice or recommendations. The book is of special interest to researchers in computational mechanics, and industry experts in complex nonlinear simulations of concrete structures.