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2022 ◽  
Vol 924 (2) ◽  
pp. 78
Author(s):  
Macy Huston ◽  
Jason Wright

Abstract The search for signs of extraterrestrial technology, or technosignatures, includes the search for objects which collect starlight for some technological use, such as those composing a Dyson sphere. These searches typically account for a star’s light and some blackbody temperature for the surrounding structure. However, such a structure inevitably returns some light back to the surface of its star, either from direct reflection or thermal reemission. In this work, we explore how this feedback may affect the structure and evolution of stars, and when such feedback may affect observations. We find that in general this returned light can cause stars to expand and cool. Our MESA models show that this energy is only transported toward a star’s core effectively by convection, so low-mass stars are strongly affected, while higher-mass stars with radiative exteriors are not. Ultimately, the effect only has significant observational consequences for spheres with very high temperatures (much higher than the often assumed ∼300 K) and/or high specular reflectivity. Lastly, we produce color–magnitude diagrams of combined star–Dyson sphere systems for a wide array of possible configurations.


2021 ◽  
Vol 11 (19) ◽  
pp. 9263
Author(s):  
Marion Charlier ◽  
Jean-Marc Franssen ◽  
Fabien Dumont ◽  
Ali Nadjai ◽  
Olivier Vassart

The term “travelling fire” is used to label fires which burn locally and move across the floor over a period of time in large compartments. Through experimental and numerical campaigns and while observing the tragic travelling fire events, it became clear that such fires imply a transient heating of the surrounding structure. The necessity to better characterize the thermal impact generated on the structure by a travelling fire motivated the development of an analytical model allowing to capture, in a simple manner, the multidimensional transient heating of a structure considering the effect of the ventilation. This paper first presents the basic assumptions of a new analytical model which is based on the virtual solid flame concept; a comparison of the steel temperatures measured during a travelling fire test in a steel-framed building with the ones obtained analytically is then presented. The limitations inherent to the analyticity of the model are also discussed. This paper suggests that the developed analytical model can allow for both an acceptable representation of the travelling fire in terms of fire spread and steel temperatures while not being computationally demanding, making it potentially desirable for pre-design.


2021 ◽  
Vol 503 (3) ◽  
pp. 4276-4296
Author(s):  
Ryosuke Hirai ◽  
Philipp Podsiadlowski ◽  
Stanley P Owocki ◽  
Fabian R N Schneider ◽  
Nathan Smith

ABSTRACT η Carinae is an extraordinary massive star famous for its 19th century Great Eruption and the surrounding Homunculus nebula ejected in that event. The cause of this eruption has been the centre of a long-standing mystery. Recent observations, including light-echo spectra of the eruption, suggest that it most likely resulted from a stellar merger in an unstable triple system. Here we present a detailed set of theoretical calculations for this scenario; from the dynamics of unstable triple systems and the mass ejection from close binary encounters, to the mass outflow from the eruption caused by the stellar merger and the post-merger wind phase. In our model the bipolar post-merger wind is the primary agent for creating the Homunculus, as it sweeps up external eruption ejecta into a thin shell. Our simulations reproduce many of the key aspects of the shape and kinematics of both the Homunculus nebula and its complex surrounding structure, providing strong support for the merger-in-a-triple scenario.


2021 ◽  
Vol 911 ◽  
Author(s):  
Innocentio A. Loe ◽  
Hiroya Nakao ◽  
Yasuhiko Jimbo ◽  
Kiyoshi Kotani

Abstract


2020 ◽  
pp. 1-2
Author(s):  
Lê Phúc ◽  

In Vietnam, Incidence of Old Unreduced Hip Dislocation may account for up to 20%. Old Dislocation is defined as older than 3 weeks not relocated. Inside the dislocated hip, develop many inflammatory tissues such as granulation, fibrous with injured a surrounding structure (capsule, ligaments, tendons, bony pieces etc...) which filled up the acetabulum, prevents the head to be relocated. Over effort to reduce closely an old hip dislocation risks fracture of neck or trochanteric femur. In this case, open reduction is almost mandatory. There are many approaches to access and relocate a dislocated hip, we propose a new one which enables surgeon to expose the acetabulum, to liberate the femoral head, reconstruct the defect of acetabulum and /or femoral head and relocate the hip. Skin incision in shape of S for the left hip, in shape of Z for the right hip, from iliac wing to trochanter, then along the femoral shaft. Figure1 Follow strictly on the bone of lateral iliac wing, go posteriorly will find out the acetabulum; determine the anterior border of Gluteus Medius, dissect the muscles toward greater trochanter, and get complete exposure of operative field. Femoral head is found out & liberated from surrounding tissue. Clear up the acetabulum, reconstruct the bony lesions. Relocate the femoral head in acetabulum, and stabilize with a K-wire. The hip is often immobilized with a Spica casting for > 3 weeks.


Coatings ◽  
2020 ◽  
Vol 10 (5) ◽  
pp. 498 ◽  
Author(s):  
Qin Shi ◽  
Hejun Zhu ◽  
Changsheng Li

This study explored the effects of Ti3SiC2 on the microstructure and properties of laser cladding coatings using X-ray diffractometer, scanning electron microscope, electrochemical workstation, and UMT-2 wear tester analyses. It was found that with the addition of Ti3SiC2, the reinforcing phases in the composite coating were TiC, Ti(B,C)2, honeycomb-like (Cr, Fe)23C6, and a novel composite ceramic with an “eyeball” structure, which had an inside core of Al2O3 and TiC outer surrounding structure. The microhardness, wear, and corrosion resistance of the composite coating were about 1.35, 2, and 4.3 times those of the original coating, respectively. The main wear mechanisms of the original coating were severe fatigue spalling and microcutting, while the main mechanisms of the composite coating were slight microcutting and the formation of the transferred film.


2020 ◽  
Vol 66 (257) ◽  
pp. 496-508
Author(s):  
Kenneth D. Mankoff ◽  
Dirk van As ◽  
Austin Lines ◽  
Thue Bording ◽  
Joshua Elliott ◽  
...  

On 30 September 2017, an Air France Airbus A380-800 suffered a failure of its fourth engine while over Greenland. This failure resulted in the loss of the engine fan hub, fan blades and surrounding structure. An initial search recovered 30 pieces of light debris, but the primary part of interest, a ~220 kg titanium fan hub, was not recovered because it had a different fall trajectory than the light debris, impacted into the ice-sheet's snow surface, and was quickly covered by drifting snow. Here we describe the methods used for the detection of the fan hub and details of the field campaigns. The search area included two crevasse fields of at least 50 snow-covered crevasses 1 to ~30 m wide with similar snow bridge thicknesses. After 21 months and six campaigns, using airborne synthetic aperture radar, ground-penetrating radar, transient electromagnetics and an autonomous vehicle to survey the crevasse fields, the fan hub was found within ~1 m of a crevasse at a depth of ~3.3 to 4 m and was excavated with shovels, chain saws, an electric winch, sleds and a gasoline heater, by workers using fall-arrest systems.


2019 ◽  
Vol 10 (1) ◽  
pp. 118 ◽  
Author(s):  
In-Ho Song ◽  
Jun-Woo Kim ◽  
Jeong-Seo Koo ◽  
Nam-Hyoung Lim

As the operating speed of a train increases, there is a growing interest in reducing damage caused by derailment and collision accidents. Since a collision with the surrounding structure after a derailment accident causes a great damage, protective facilities like a barrier wall or derailment containment provision (DCP) are installed to reduce the damage due to the secondary collision accident. However, the criteria to design a protective facility such as locations and design loads are not clear because of difficulties in predicting post-derailment behaviors. In this paper, we derived a simplified frame model that can predict post derailment behaviors in the design phase of the protective facilities. The proposed vehicle model can simplify for various frames to reduce the computation time. Also, the actual derailment tests were conducted on a real test track to verify the reliability of the model. The simulation results of the proposed model showed reasonable agreement to the test results.


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