Virtual-Reality graph visualization based on Fruchterman-Reingold using Unity and SteamVR

The paper describes a method for the immersive, dynamic visualization of undirected, weighted graphs. Using the Fruchterman-Reingold method, force-directed graphs are drawn in a Virtual-Reality system. The user can walk through the data, as well as move vertices using controllers, while the network display rearranges in realtime according to Newtonian physics. In addition to the physics behind the employed method, the paper explains the most pertinent computational mechanisms for its implementation, using Unity, SteamVR, and a Virtual-Reality system such as HTC Vive (the source package is made available for download). It was found that the method allows for intuitive exploration of graphs with on the order of [Formula: see text] vertices, and that dynamic extrusion of vertices and realtime readjustment of the network structure allows for developing an intuitive understanding of the relationship of a vertex to the remainder of the network. Based on this observation, possible future developments are suggested.

Technological features of reactive dynamic extrusion of nanocomposites based on polyolefins, aluminum and technical carbon

The effect of the concentration of aluminum powder and technical carbon nanoparticles on the main physical and mechanical properties of nanocomposites based on high density polyethylene, low density polyethylene and an ethylene-hexene copolymer is considered. The optimal technological parameters of the reaction extrusion of nanocomposites vulcanized with sulfur and dicumyl peroxide have been determined. The influence of the type of polyolefin, fillers and crosslinking agents on the formation of isotropic nanocomposites during the production of sheet products has been investigated.

No dynamic extrusion in medial meniscus root lesions - an ultrasound study

Aims and Objectives: Extrusion of the medial meniscus in MRI is an indirect radiological sign for a meniscus root tear. However, a recent study has shown that ultrasound-detectable dynamic extrusion is considered physiological in healthy volunteers. The aim of our study was to analyze the dynamic meniscal extrusion in patients with proven root injury in ultrasound. Our hypothesis was that dynamic extrusion is reduced in patients with root injury of the medial meniscus compared to healthy volunteers. Materials and Methods: Inclusion criteria for this prospective study were MRI signs for a root lesion of the medial meniscus (ghost sign, extrusion > 3 mm). An age matched group of healthy volunteers served as control. Exclusion criterion was osteoarthritis > II° of the medial compartment according to Kellgren & Lawrence. The extrusion of the medial meniscus (MME) of the affected knee was measured by ultrasound (US) in supine position and under full weight bearing. Results: 25 patients with a medial root lesion were included in the study. The evaluation of the ultrasound results revealed a significant decreased dynamic medial displacement of the meniscus in patients with root injury. In the supine position, the mean medial meniscus extrusion was 3.60 mm (± 1.00 mm). In the standing position, the mean medial meniscus extrusion increased to 3.72 mm (± 0.96 mm). The mean delta-extrusion was 0.11 mm (± 0.17 mm). This difference was statistically not significant. In 14 patients, no dynamic extrusion was detectable at all. All patients belonging to the medial root tear group had a significant varus deformity (mechanical axis hits the tibial joint line more than 15 mm medially form the center). In the control group, the mean medial meniscus extrusion was 1.34 mm (± 0.37 mm) in supine position and 2.20 mm (± 0.34 mm) under full weight bearing. The mean delta-extrusion was 0.85 mm (± 0.30 mm). The difference in mean delta-extrusion between the root tear and control group was statistically significant. Conclusion: Ultrasonography is a diagnostic tool to detect the dynamic extrusion of the medial meniscus. Lack of dynamic extrusion (“dead meniscus sign”) may serve as an indicator for medial root injury.

Study of Rheological Behavior of Calcium Carbonate Filled Polypropylene in Dynamic Extrusion

A novel rheological measuring apparatus was designed, which introduced an additional sinusoidal vibration in parallel on the extruding direction of polymer melt in this paper. Melt rheology of polypropylene filled CaCO3 particles in various amounts of filler (i.e. with 3 and 20 wt%) during capillary melt-extrusion were investigated respectively. The effects of vibration parameters on rheological behaviors were studied. Compared with the steady extrusion, the apparent viscosity of filled system decreased remarkably with the increase of vibration frequency and amplitude. The apparent viscosity reached to the minimum value as vibration frequency was about 8 Hz. When the filled percentage of CaCO3 was low, the response of apparent viscosity will be more distinct with the increasing vibration parameters.