Progress in Materials Science
Papers 781
1 page of 79 pages (781 results)
#1Shayan Angizi (McMaster University)H-Index: 9
#2Sayed Ali Ahmad Alem (Politecnico di Milano)H-Index: 3
Last. Abdolreza Simchi (SUT: Sharif University of Technology)H-Index: 63
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Abstract null null Moving from two-dimensional hexagonal boron nitride (2D h-BN) flatlands towards their quantum sized zero-dimensional (0D) islands, as the newest member of the h-BN family, has recently opened up novel research areas due to the emergence of unique optical and physicochemical properties, excellent thermal and chemical stability, and desirable biocompatibility. This review elaborates on the fundamental properties of 2D and 0D h-BN nanomaterials and covers the latest progress in t...
#1M. Galano (University of Oxford)
#2F. Audebert (OBU: Oxford Brookes University)
Abstract null null The Al-based nanoquasicrystalline alloys are modern light weight alloys that respond to a strategy to develop new Al-based alloys with excellent combination of properties over a large range of temperatures when compared with standard aluminium alloys. The review describes their historical development, the manufacturing processes used for the alloy production and the microstructure obtained. A summary of the different systems and alloying elements used in the development is pre...
#1Praveen Sathiyamoorthi (POSTECH : Pohang University of Science and Technology)H-Index: 10
#2Hyoung Seop Kim (POSTECH : Pohang University of Science and Technology)H-Index: 64
Abstract Engineering metallic materials are an essential class of materials for a variety of industrial applications due to their competitive mechanical properties, especially strength and ductility. Metallic materials with excellent mechanical properties are highly sought-after as engineering materials for various applications considering safety, environmental, and economic requirements. Thus, the development of high-performance alloys with high strength and high ductility is an unfading resear...
Abstract Heterogeneous nucleation models in solidification have been developed to predict grain size over several decades. Up to now, the models are divided into three categories. The first is a well-known spherical cap nucleus model, where the effectiveness of nucleant, i.e. contact angle, is mainly focused on characterising the nucleants. In this model, the kinetics is determined by activation energy of embryos formation and the adsorption rate of atoms into the embryos. The second is a free g...
#1Chandra Sekhar Tiwary (IIT KGP: Indian Institute of Technology Kharagpur)H-Index: 40
#2Prafull Pandey (IISc: Indian Institute of Science Bangalore)H-Index: 9
Last. Kamanio Chattopadhyay (IISc: Indian Institute of Science Bangalore)H-Index: 51
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Abstract We present a brief review and perspective on the development of eutectic alloys, emphasizing the emergence of complex microstructures during eutectic solidification of ternary and higher-order multicomponent alloys. Such alloys' abundant existence promises a large domain in the alloy development space for newer materials suitable for high-temperature applications. Hence the review explores these developments in eutectic alloys based on aluminum, titanium, nickel, intermetallics, and rec...
#1Mark Jolly (Cranfield University)H-Index: 15
#2Laurens Katgerman (Delft University of Technology)H-Index: 45
Abstract null null Over the last 4 decades, remarkable progress has been made in the modelling of casting processes. The development of casting models is well reflected in the proceedings of the 15 Modelling of Casting, Welding and Advanced Solidification Processes (MCWASP) conferences that have been held since 1980. null Computer simulations have enabled a better understanding of the physical phenomena involved during solidification. Modelling gives the opportunity to uncouple the physical proc...
#1Anthony R. Bunsell (PSL: PSL Research University)H-Index: 2
#2Alain ThionnetH-Index: 12
Abstract The increasing use of advanced composite materials means that they must now be considered as major materials for a wide variety of structures some of which will be in service for decades. There is therefore an important need to be able to quantify damage accumulation leading to failure in these materials particularly as they are often used in extreme situations for which failure must be avoided. This review shows how damage accumulation in many major composite structures is dominated by...
#1John Durodola (OBU: Oxford Brookes University)H-Index: 18
Abstract Machine learning is now applied in virtually every sphere of life for data analysis and interpretation. The main strengths of the method lie in the relative ease of the construction of its structures and its ability to model complex non-linear relationships and behaviours. While application of existing materials have enabled significant technological advancement there are still needs for novel materials that will enable even greater achievement at lower cost and higher effectiveness. Th...
#1Zhouran Zhang (University of Oxford)H-Index: 1
#2David E.J. Armstrong (University of Oxford)H-Index: 31
Last. Patrick S. Grant (University of Oxford)H-Index: 42
view all 3 authors...
Abstract High-entropy alloys (HEAs), based on equiatomic or near-equiatomic mixture of usually four or more elements, have attracted considerable attention as there are indications that along with surprising microstructural simplicity of some alloys, they may also offer intriguing combinations of mechanical and other properties. Amongst these properties, there is growing interest in the irradiation response of HEAs and their potential to withstand the neutron bombardment environment of future ci...
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