Radio in hydroscience

Niemeier, J. J.

doi:10.17077/etd.ekuzzhjg

Cited by 3 publications

(3 citation statements)

References 30 publications

(46 reference statements)

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“…For the purpose to eliminate a pointing error, coordinates of the particular points were converted into a projected system by using track-projected parameters. The analysis of track positional changes belongs to the statistical hypothesis testing based on the postulate of null hypothesis [14]:…”

Section: Analysis Of Spatial Observationsmentioning

confidence: 99%

Analysis of Methods Used to Diagnostics of Railway Lines

Izvoltova¹,

Ižvolt²,

Šestáková³

2022

Railway Transport Planning and Management

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Complex diagnostics of railway lines involves techniques based on discrete and continual data acquisition. While discrete measurements belong to conventional methods, the modern continual ones use automated robotized instruments with continuous recording. Observations have become more time-efficient, but the processing epoch has become longer to evaluate a large number of data. Railway line diagnostics is realized by relative methods lead to determine relative track parameters as the track gauge, elevation, and track gradients and absolute, geodetic techniques determine directional and height ratios of the track, defined in a global coordinate and height system.

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Section: Analysis Of Spatial Observationsmentioning

confidence: 99%

Analysis of Methods Used to Diagnostics of Railway Lines

Izvoltova¹,

Ižvolt²,

Šestáková³

2022

Railway Transport Planning and Management

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“…During the whole process, occurring stress in the materials is reduced by pre-and post-heating of the parts. [13] During cooling of the assembly tensions occur in the materials. Both effects are due to different thermal expansion coefficients of the used material.…”

Section: Joining Of Materials With Reactive Multilayer Systemsmentioning

confidence: 99%

“…That is why the back side will cool faster than the front, creating additional tension in the assembly. [13] The bases for using RMS for the joining of polymers are computational simulations that were conducted to investigate the heat distribution and properties during the joining process for thermoplastics. These calculations deliver information about possible constraints for the design of the RMS in order to avoid damaging of the thermoplastics to be joined.…”

Section: Joining Of Materials With Reactive Multilayer Systemsmentioning

confidence: 99%

Fabrication of Nanoparticle‐Containing Films and Nano Layers for Alloying and Joining

et al. 2014

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Nanoparticles (NPs) can improve mechanical properties of construction elements. However, the integration is not trivial due to the nanoscopic nature of the particles and the different material properties of particle and device: new processing routes have to be found for homogeneous incorporation. Therefore, a wet chemical synthesis is established to incorporate various ceramic NPs such as TiO 2 , TiC, SiC, and WC in copper films in desired concentrations. Depending on the kind and concentration of NPs, hardness and wear resistance of copper are enhanced. The resulting metal matrix composite films are thus of high interest for various applications such as reinforced electrical contacts and in aerospaceand automotive technology.The energy releasedinan exothermic reaction ofa reactive multilayer system (RMS) can be used as a precise and well-defined local heat source for joining the surface of polymers. In this case, a RMS consisting of alternating layers of nickel and aluminum is used. Thedesign oftheRMSisadjustedina waythatdespitetheintensivebut veryshort reaction nodamaging ofthepolymersoccurs.Thejoiningprocesstakesonlymillisecondsanddoesnotrequireanypre-orposttreatment of the polymers. With the optimal joining parameters, e.g., the joining load, for fiber nonreinforced polymers tensile strengths can be achieved, which lead to a material failure by tensile attempts. Preliminary tests of fiber reinforced polymers result in a tensile strength that is characteristic for adhesive polymer bonding. Model simulations show that only the first few micrometers of the materials surface are in a liquid state for a very short period of time. In addition to the applied joining load,thematerialscomposition andspecificallytheresulting solidificationprocessoftheliquidpolymer phase result in a strong bond between polymer samples that have to be joined. Materials with different thermal expansion coefficients are difficult to join thermally. Among them is the joining of solar cells. It is conventionally carried out by heating the whole assembly. Due to the thermal differences between tabbing wire and silicon, deformations as well as changes in the microstructure can occur. In the worst case, damage of the whole assembly is possible. Upon inspection of the joining process, the high energy consumption of the process itself is also critical.

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