Titlebook: Shape Memory Composites Based on Polymers and Metals for 4D Printing; Processes, Applicati Muni Raj Maurya,Kishor Kumar Sadasivuni,Samrana

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Characterization Techniques for Shape-Memory Alloys,y, SMAs reveal the existence of two phases, namely the austenitic phase (“A”) and the martensitic phase (“M”). As compared to the austenitic phase (stronger phase occurring at a higher temperature), the martensitic phase is soft. The martensitic phase exists at lower temperatures and can be easily d

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Nitinol-Based Shape-Memory Alloys,lent mechanical properties. Nitinol has gained significant interest as micro/nano-electromechanical system (M/NEMS)-based micro/nano-actuators which are precision control devices that work based on mechanical forces at the microscale level. Other advantages of nitinol including large actuation force

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Molecular Dynamics Simulations for Nanoscale Insight into the Phase Transformation and Deformation r original shape after deformation on the application of the right stimulus such as heat, light, and chemical reaction. The shape-memory properties make these materials unique for structural applications, automobile, biomedical, aerospace, and actuators in micro-electromechanical systems (MEMSs). Fe

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,Influences of Powder Size (SMAs) Distribution Fe–Mn/625 Alloy Systematic Studies of 4D-Printing Conges. The alloy 625, Mn accumulation in Fe–40wt (%) Mn complicated explanation, predicts growth with deprivation charges. The experimental fit for high-temperature investigation on SMA properties is studied by the cycles like constant-temperature stress, stress-free thermal, and constant-stress therm

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Synthesis Techniques of Shape-Memory Polymer Composites,nd environment-friendly choice to well-established shape-memory alloys. In contrast, SMPs usually elicit less strength and rigidness, limiting their use in many superior functions. To improve their applications, shape-memory polymer composites have emerged as an attractive substitute. The shape-memo

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Effect of Nano and Hybrid Fillers on Shape-Memory Polymers Properties,xternal stimulus. These materials can pile a temporary shape, restored to their original shape upon application of an external stimulus, for instance, heat. Especially, shape-memory polymer composites (SMPCs) can be established into multifunctional materials actuated by various methods, such as ther

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Meso, Micro, and Nano Particulate Filled Shape-Memory Polymers,ide range of materials. Shape-memory polymers (SMPs) can be programmed to a temporary shape and then recover their original shape by applying environmental stimuli. To expand the applications of SMPs, the shape-memory polymer composites (SMPCs) were fabricated to improve the properties and also to i