![]() ![]() Supplemented by brand new case studies from engineering and technology projects, as well as improved instructor support materials, this text is an ideal resource and reference for anyone studying or practicing project management within business or engineering environments. The new edition has been updated to provide closer alignment with PMBOK terms and definitions for more ease of use alongside PMI qualifications and covers the latest developments in project management methodologies. Project initiation and proposals Scope and task definition Scheduling Budgeting Risk analysis The book encompasses the essential background material required, from philosophy to methodology, before presenting concepts and techniques for practical application on topics including: By emphasizing practical applications, this book targets the ultimate purpose of project management: to unify and integrate the interests, resources, and work efforts of many stakeholders to accomplish the overall project goal. It is noted that the through-thickness shear effect is significant for moderately thick composite laminates.Project Management for Engineering, Business and Technology There is an ever-growing need for better project management within the disciplines of engineering, business, and technology and this new edition is a direct response to that need. ![]() Satisfactory agreement is demonstrated between the present predictions and existing numerical and experimental data. The model is also used to study the buckling, post-buckling and delamination propagation in moderately thick composite beams. Excellent agreement is observed with analytical and existing numerical and experimental data. The model is used to simulate double cantilever composite beam structure tests and end notched flexure tests. It is found that the beam element suffers from membrane locking for non-symmetric laminates. Ply interfaces are modelled with high-stiffness springs. A tensor symmetrisation technique is used to formulate the beam element based on the Euler beam theory with full geometrical non-linearity to achieve high computational efficiency. ![]() A robust numerical method is developed to study delamination in composite beam structures under lateral and axial loads. ![]()
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