The continuous development of sport technologies constantly demands advancements in protective headgear to reduce the risk of head injuries. This article introduces new cellular helmet liner designs through two approaches. The first approach is the study of energy-absorbing biological materials. The second approach is the study of lattices comprised of force-diverting compliant mechanisms. On the one hand, bio-inspired liners are generated through the study of biological, hierarchical materials. An emphasis is given on structures in nature that serve similar concussion-reducing functions as a helmet liner. Inspiration is drawn from organic and skeletal structures. On the other hand, compliant mechanism lattice (CML)-based liners use topology optimization to synthesize rubber cellular unit cells with effective positive and negative Poisson's ratios. Three lattices are designed using different cellular unit cell arrangements, namely, all positive, all negative, and alternating effective Poisson's ratios. The proposed cellular (bio-inspired and CML-based) liners are embedded between two polycarbonate shells, thereby, replacing the traditional expanded polypropylene foam liner used in standard sport helmets. The cellular liners are analyzed through a series of 2D extruded ballistic impact simulations to determine the best performing liner topology and its corresponding rubber hardness. The cellular design with the best performance is compared against an expanded polypropylene foam liner in a 3D simulation to appraise its protection capabilities and verify that the 2D extruded design simulations scale to an effective 3D design.
The complexity of preserving virtual reality environments combines the challenges of preserving singular digital objects, the relationships among those objects, and the processes involved in creating those relationships. A case study involving the preservation of the Virtual Bethel environment is presented. This case is active and ongoing. The paper provides a brief history of the Bethel AME Church of Indianapolis and its importance, then describes the unique preservation challenges of the Virtual Bethel project, and finally provides guidance and preservation recommendations for Virtual Bethel, using the National Digital Stewardship Alliance Levels of Preservation. Discussion of limitations of the guidance and recommendations follow.
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