[PDF] The teaching of structural analysis - Semantic ScholarSkip to search form Skip to main content. We were attracted by the proposal because we were already providing funds for a separate paper outlining research into the teaching of design to engineering undergraduates, and structural analysis is one of the essential building blocks for good design in engineering and architecture. View PDF. Save to Library. Create Alert. Share This Paper. Tables from this paper.
8.3.3-PDEs: Finite Element Method: Element Equations Part 1
Finite Element Analysis
This text treats the fundamental principles of the method in a simple, logical manner, placing the emphasis on the practical applications of the method in those areas where it is most commonly used. Please choose whether or not you want other users to be able to see on your profile that this library is a favorite of yours. Finding libraries that hold this item You may have already requested this item. Please select Ok if you would like to proceed with this request anyway.
Lizard skulls vary greatly in shape and construction, and radical changes in skull form during evolution have made this an intriguing subject of research. The mechanics of feeding have surely been affected by this change in skull form, but whether this is the driving force behind the change is the underlying question that we are aiming to address in a programme of research. Here we have implemented a combined finite element analysis FEA and multibody dynamics analysis MDA to assess skull biomechanics during biting. A skull of Uromastyx hardwickii was assessed in the present study, where loading data such as muscle force, bite force and joint reaction for a biting cycle were obtained from an MDA and applied to load a finite element model. Fifty load steps corresponding to bilateral biting towards the front, middle and back of the dentition were implemented.
The development of virtual methods for anatomical reconstruction and functional simulation of skeletal structures offers great promise in evolutionary and ontogenetic investigations of form—function relationships. Key developments reviewed here include geometric morphometric methods for the analysis and visualization of variations in form size and shape , finite element methods for the prediction of mechanical performance of skeletal structures under load and multibody dynamics methods for the simulation and prediction of musculoskeletal function. These techniques are all used in studies of form and function in biology, but only recently have they been combined in novel ways to facilitate biomechanical modelling that takes account of variations in form, can statistically compare performance, and relate performance to form and its covariates. Here we provide several examples that illustrate how these approaches can be combined and we highlight areas that require further investigation and development before we can claim a mature theory and toolkit for a statistical biomechanical framework that unites these methods. Functional morphologists apply a variety of methods to explore the workings of and constraints on skeletal form and function. These include building physical models e.