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Manufacturing Processes for Engineering Materials
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TLDR
In this paper, the authors present the fundamental properties of materials and their properties, including surfaces, tribology, dimensional characteristics, inspection, and product quality assurance, and manufacturing properties of metals.Abstract:
1 Introduction 2 Fundamentals of the mechanical behavior of materials 3 Structure and manufacturing properties of metals 4 Surfaces, tribology, dimensional characteristics, inspection, and product Quality assurance 5 Metal-casting processes and equipment heat treatment 6 Bulk deformation processes 7 Sheet-metal forming processes 8 Material-removal pocesses: cutting 9 Material-removal processes: abrasive, chemical, electrical, and high-energy beams 10 Properties and processing of polymers and reinforced plastics rapid prototyping and rapid tooling 11 Properties and processing of metal powders, ceramics, glasses, composites, and superconductors 12 Joining and fastening processes 13 Fabrication of microelectronic, micromechanical, and microelectromechanical devices nanomanufacturing 14 Automation of manufacturing processes and operations 15 Computer-integrated manufacturing systems 16 Product design and manufacturing in a global competitive environmentread more
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Simulations of Ductile Fracture in an Idealized Ship Grounding Scenario Using Phenomenological Damage and Cohesive Zone Models
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Analytical, experimental and numerical study of a graded honeycomb structure under in-plane impact load with low velocity
TL;DR: In this paper, the performance of a graded honeycomb structure (GHS) under in-plane and out-of-plane impact loading and its optimisation has been analyzed by applying sequential quadratic programming method and genetic algorithm.
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Process characterization of vibrostrengthening and application to fatigue enhancement of aluminum aerospace components—part I. Experimental study of process parameters
TL;DR: In this paper, the effects of various process parameters on the fatigue strength of a specimen are studied to experimentally characterize the process, and a computational model is produced to characterize the fatigue enhancement of the process through the compressive residual stress field and surface topography.
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Friction stir consolidation of aluminum machining chips
TL;DR: In this paper, solid discs were made from AA6061 aluminum alloy machining chips by friction stir consolidation (FSC) and the progression of the process was revealed by analyzing the motion of the tool, consolidating force, power history, and macro/microstructure of discs produced from a series of partial consolidation experiments.