Results 121 to 130 of about 106,439 (257)

Investigation of Oxygen‐Free Wetting Behavior of Aluminum on Copper via Molecular Dynamics Simulations and Experiments

open access: yesAdvanced Engineering Materials, EarlyView.
The wettability of aluminum droplets (Al) on different copper substrates (Cu), where liquid Al spreads on solid Cu surfaces to form a liquid–solid interface, is studied numerically and experimentally. The experimental and numerical results show good agreement in the fast‐spreading regime.
Shan Lyu   +8 more
wiley   +1 more source

Corrosion and Process Analysis of a Preoxidized MgO Recyclate‐Based Cermet Anode in Laboratory‐Scale Na‐Cryolite Molten Salt Electrolysis of Aluminum at 1000°C

open access: yesAdvanced Engineering Materials, EarlyView.
EDX elemental map of the pre‐oxidized MgO–steel cermet anode cross section after electrolysis. The development of inert anodes for aluminum electrolysis remains challenging due to the high corrosivity of cryolite‐based melts at 950°C–1000°C. This study investigates the corrosion and process behavior of a carbon‐free MgO–steel cermet anode derived from ...
Alexander Adamczyk   +7 more
wiley   +1 more source

Resistance Rapid Heating of Aluminum Coatings in an Extreme High Vacuum–Adequate Atmosphere for Hot Stamping

open access: yesAdvanced Engineering Materials, EarlyView.
The subject of this work is the development of a corrosion‐protective coating on steel sheets for form hardening. Rapid heating in an extreme high vacuum (XHV)‐adequate atmosphere is a useful method to prevent oxidation during alloying of 22MnB5 and aluminum to obtain a metallurgical bonding.
Lorenz Albracht   +5 more
wiley   +1 more source

Rafting of Ni‐Based Superalloys Under Multiaxial Load as Understood by Phase‐Field Simulations and Critical Experiments

open access: yesAdvanced Engineering Materials, EarlyView.
Phase‐field simulations coupled with dislocation‐density‐based crystal plasticity modeling reproduce γ′ rafting behavior in single‐crystal Ni‐based superalloys under varied loading conditions. The model captures both macroscopic creep and microscopic morphology evolution, with results matching high‐temperature creep experiments.
Micheal Younan   +5 more
wiley   +1 more source

Phase Field Failure Modeling: Brittle‐Ductile Dual‐Phase Microstructures under Compressive Loading

open access: yesAdvanced Engineering Materials, EarlyView.
The approach by Amor and the approach by Miehe and Zhang for asymmetric damage behavior in the phase field method for fracture are compared regarding their fitness for microcrack‐based failure modeling. The comparison is performed for the case of a dual‐phase microstructure with a brittle and a ductile constituent.
Jakob Huber, Jan Torgersen, Ewald Werner
wiley   +1 more source

PASTA‐ELN: Simplifying Research Data Management for Experimental Materials Science

open access: yesAdvanced Engineering Materials, EarlyView.
Research data management faces ongoing hurdles as many ELNs remain complex and restrictive. PASTA‐ELN offers an open‐source, cross‐platform solution that prioritizes simplicity, offline access, and user control. Its in tuitive folder structure, modular Python add‐ons, and open formats enable seamless documentation, FAIR data practices, and easy ...
S. Brinckmann, G. Winkens, R. Schwaiger
wiley   +1 more source

Exploring Dipolar Dynamics and Ionic Transport in Metal‐Organic Frameworks: Experimental and Theoretical Insights

open access: yesAdvanced Functional Materials, EarlyView.
In this study, the interplay of dipolar dynamics and ionic charge transport in MOF compounds is investigated. Synthesizing the novel structure CFA‐25 with integrated freely rotating dipolar groups, local and macroscopic effects, including interactions with Cs cations are explored.
Ralph Freund   +6 more
wiley   +1 more source

Higher order terms for the quantum evolution of a Wick observable within the Hepp method</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Cubo</i>, 2012 </span><br><span class="r_content">El metodo de Hepp describe en terminos de estados coherentes la dinamica en campo medio de bosones o la propagación semiclasica. Un punto clave es la evolución asintótica de observables de Wick bajo la evolucion dada por un Hamiltoniano cuadratico ...</span><br><span class="r_sub"><i>Sébastien Breteaux</i></span><br><small><a href="https://doaj.org/article/4b1de5db30a347e9a4f66db355c6c5b6" target="_blank" rel="nofollow" title="doaj.org/article/4b1de5db30a347e9a4f66db355c6c5b6">doaj</a> </small>   <br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1002/adfm.202506704" target="_blank" rel="nofollow">Combinatorial Synthesis of Next Generation Water‐Soluble Quaternized N‐Halamine Oligomers with Long‐Lasting Antiviral Properties</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Advanced Functional Materials, EarlyView.</i></span><br><span class="r_content">A combinatorial library of dual‐functional antiviral oligomers incorporating N‐halamine and quaternary ammonium functionalities is developed for long‐lasting antiviral activity. The lead materials exhibit rapid and durable antiviral activity against SARS‐CoV‐2 variants and influenza H1N1, with 4 to 5 log reduction in viral copies at 5 mg mL−1 ...</span><br><span class="r_sub"><i>Eid Nassar‐Marjiya<span id="ma_9" style="display:none">, Konda Reddy Kunduru, Krishanu Ghosal, Luna Rizik, Nofar Atari, Mahran Daifa, Neta Kutner, Bassma Khamaisi, Qi Wu, Simran Jindal, Merna Shaheen‐Mualim, Ranabir Majumder, Mahitosh Mandal, Michal Mandelboim, Shady Farah</span>   <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_9')">+14 more</a></small></i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/adfm.202506704?mi=2or9o2m&af=R&AllField=coherent states&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/adfm.202506704?mi=2or9o2m&af=R&AllField=coherent states&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small>   <div id="more_9" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Fadfm.202506704" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/adfm.202506704'); alert('Copied the doi');">copy doi</a> <small>(10.1002/adfm.202506704)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_9')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.2478/s11534-009-0039-3" target="_blank" rel="nofollow">Coherent states for Smorodinsky-Winternitz potentials</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Open Physics</i>, 2009 </span><br><span class="r_sub"><i>Ünal Nuri</i></span><br><small><a href="https://doaj.org/article/1afee7c14fcb4623a0118339d6b5222c" target="_blank" rel="nofollow" title="doaj.org/article/1afee7c14fcb4623a0118339d6b5222c">doaj</a> </small>   <div id="more_10" style="display:none"><a href="/sci_redir.php?doi=10.2478%2Fs11534-009-0039-3" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.2478/s11534-009-0039-3'); alert('Copied the doi');">copy doi</a> <small>(10.2478/s11534-009-0039-3)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_10')">+1 more source</a></small><br></div><div class="r"><div style="margin-bottom:2px;overflow:hidden"><div style="display: inline-block; float: left; font-size: small; padding-right: 16px; margin-top: -1px; padding-bottom: 1px;"><a href="/q-fos%3A_physical_sciences/" class="suggestion"onclick="show_loader();"><b>fos: physical sciences</b></a><br/><a href="/q-physics/" class="suggestion"onclick="show_loader();"><b>physics</b></a><br/><a href="/q-quantum_physics/" class="suggestion"onclick="show_loader();"><b>quantum physics</b></a><br/></div><div style="display: inline-block; float: left; font-size: small; padding-right: 16px; margin-top: -1px; padding-bottom: 1px;"><a href="/q-quantum_physics_quant-ph/" class="suggestion"onclick="show_loader();"><b>quantum physics quant-ph</b></a><br/><a href="/q-coherent_state/" class="suggestion"onclick="show_loader();"><b>coherent state</b></a><br/><a href="/q-mathematical_physics_math-ph/" class="suggestion"onclick="show_loader();"><b>mathematical physics math-ph</b></a><br/></div><div style="display: inline-block; float: left; font-size: small; padding-right: 16px; margin-top: -1px; padding-bottom: 1px;"><a href="/q-mathematical_physics/" class="suggestion"onclick="show_loader();"><b>mathematical physics</b></a><br/><a href="/q-entanglement/" class="suggestion"onclick="show_loader();"><b>entanglement</b></a><br/><a href="/q-squeezed_states/" class="suggestion"onclick="show_loader();"><b>squeezed states</b></a><br/></div></div></div><div class="pagenav"><a href="/q-coherent_states/p-12/" rel="nofollow"><b>previous</b></a>   <a href="/q-coherent_states/p-11/" rel="nofollow">11</a>  <a href="/q-coherent_states/p-12/" rel="nofollow">12</a>  <b>13</b>  <a href="/q-coherent_states/p-14/" rel="nofollow">14</a>  <a href="/q-coherent_states/p-15/" rel="nofollow">15</a>   <a href="/q-coherent_states/p-14/" id="next" rel="nofollow"><b>next</b></a> </div><br></div> </div> <script>document.getElementById('loadingGif').style.display='none';</script><div style="width: 100%; height: 40px; bottom: 0px; background-color: #f5f5f5;"><div style="padding-left: 15px; padding-top: 10px"> <a href="/" rel="nofollow">Home</a> - <a href="/page-about/" rel="nofollow">About</a> - <a href="/page-disclaimer/" rel="nofollow">Disclaimer</a> - <a href="/page-privacy/" rel="nofollow">Privacy</a> </div></div> <link rel="stylesheet" href="//ajax.googleapis.com/ajax/libs/jqueryui/1.11.4/themes/smoothness/jquery-ui.min.css"/> </body> </html>