Relevant bibliographies by topics / Cladding Magnets

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers
  5. Reports

Academic literature on the topic 'Cladding Magnets'

Author: Grafiati
Published: 25 June 2021
Last updated: 4 February 2022

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Journal articles on the topic "Cladding Magnets"

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Jalas, Dirk, Alexander Petrov, Michael Krause, Jan Hampe, and Manfred Eich. "Integrated Non Reciprocal Ring Resonators." Advanced Materials Research 216 (March 2011): 533–38. http://dx.doi.org/10.4028/www.scientific.net/amr.216.533.

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We present the theoretical concept of an optical isolator based on a resonance splitting in a silicon ring resonators covered by a magneto-optical polymer cladding. A polymer magneto optical cladding causing a 0.01 amplitude of the off-diagonal element of the dielectric tensor is assumed. Using a perturbation method it is shown that the resonance splitting of the clockwise and counter-clockwise modes increases for smaller ring radii. For the ring with a radius of approximately 1.5μm a 29GHz splitting is demonstrated. An optical isolator is proposed based on a critically coupled ring resonator.
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Li Hongbo, 李洪波, 高强强 Gao Qiangqiang, 李康英 Li Kangying, and 李班 Li Ban. "表面激光熔覆H13/NiCr-Cr3C2复合粉末熔覆层性能研究." Chinese Journal of Lasers 48, no. 18 (2021): 1802017. http://dx.doi.org/10.3788/cjl202148.1802017.

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Chen, Qiuling, Hui Wang, Qingwei Wang, and Qiuping Chen. "Properties of tellurite core/cladding glasses for magneto-optical fibers." Journal of Non-Crystalline Solids 400 (September 2014): 51–57. http://dx.doi.org/10.1016/j.jnoncrysol.2014.05.001.

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Wang, Wei, Peng Qi, Guang Yang, Gang Wang, Lan Yun Qin, Hong You Bian, Lei Cai, Qiang Wei, and Li Juan Jiang. "Effects of Permanent Magnet Electromagnetic Stirring on TA15 Laser Metal Deposition." Materials Science Forum 723 (June 2012): 471–75. http://dx.doi.org/10.4028/www.scientific.net/msf.723.471.

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Electromagnetic stirring (EMS) is an important method to homogenize the hard phase of the cladding layer. Rotary Permanent magnet electromagnetic stirring (PEMS) is adopted during the experiment. The changes of heat affected zone, solidification character, microstructure and hardness of TA15 Laser Metal Deposition (LMD) based on PEMS have been researched during the experiment. The results show that the PEMS can refine the grain, homogenize the microstructure, eliminate the disfigurement and enhance the hardness.
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Mahmoud, Essam R. I., Vineet Tirth, Ali Algahtani, and Sohaib Z. Khan. "Microstructural characterization of different metal matrix composite claddings reinforced by TiC through YAG laser cladding." Materials Research Express 7, no. 6 (June 18, 2020): 066407. http://dx.doi.org/10.1088/2053-1591/ab9bc4.

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Liu, Rui, Dapeng Yan, Ming Chen, Jianming Wang, Jianhong Shi, and Qixin Zhu. "Enhanced cladding pump absorption of ytterbium-doped double cladding fiber with internally modified cladding structures." Optical Materials Express 10, no. 1 (December 2, 2019): 36. http://dx.doi.org/10.1364/ome.10.000036.

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Demirer, Figen Ece, Chris van den Bomen, Reinoud Lavrijsen, Jos J. G. M. van der Tol, and Bert Koopmans. "Design and Modelling of a Novel Integrated Photonic Device for Nano-Scale Magnetic Memory Reading." Applied Sciences 10, no. 22 (November 21, 2020): 8267. http://dx.doi.org/10.3390/app10228267.

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Design and simulations of an integrated photonic device that can optically detect the magnetization direction of its ultra-thin (∼12 nm) metal cladding, thus ‘reading’ the stored magnetic memory, are presented. The device is an unbalanced Mach Zehnder Interferometer (MZI) based on InP Membrane on Silicon (IMOS) platform. The MZI consists of a ferromagnetic thin-film cladding and a delay line in one branch, and a polarization converter in the other. It quantitatively measures the non-reciprocal phase shift caused by the Magneto-Optic Kerr Effect in the guided mode which depends on the memory bit’s magnetization direction. The current design is an analytical tool for research exploration of all-optical magnetic memory reading. It has been shown that the device is able to read a nanoscale memory bit (400 × 50 × 12 nm) by using a Kerr rotation as small as 0.2∘, in the presence of a noise ∼10 dB in terms of signal-to-noise ratio. The device is shown to tolerate performance reductions that can arise during the fabrication.
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Agruzov, Petr M., Ivan V. Pleshakov, Efim E. Bibik, and Alexander V. Shamray. "Magneto-optic effects in silica core microstructured fibers with a ferrofluidic cladding." Applied Physics Letters 104, no. 7 (February 17, 2014): 071108. http://dx.doi.org/10.1063/1.4866165.

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Kim, Yookyung, Byungrok Moon, Namhyun Kang, and Eun-Joon Chun. "Effect of Cladding Conditions on Solidification Cracking Behavior during Dissimilar Cladding of Inconel Alloy FM 52 and 308L Stainless Steel to Carbon Steel: Evaluation of Solidification Brittle Temperature Range by Transverse−Varestraint Test." Korean Journal of Metals and Materials 58, no. 6 (June 5, 2020): 403–12. http://dx.doi.org/10.3365/kjmm.2020.58.6.403.

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In this study, solidification cracking behavior and susceptibility in dissimilar cladding of Inconel alloy FM 52, 308L stainless steel to carbon steel, was investigated by submerged arc welding and transverse−Varestraint testing with gas tungsten arc welding. The effect of cladding conditions on cracking behavior and susceptibility was extensively evaluated, and metallurgical factors affecting susceptibility were clarified. Depending on the cladding sequence (cladding combination A: Inconel 52→308L, cladding combination B: 308L→Inconel 52), opposite types of solidification cracking behavior were observed. Specifically, solidification cracking was observed only for cladding combination A. Using transverse−Varestraint tests, the solidification brittle temperature range (BTR) was determined to be 298 K for cladding combination A and 200 K for cladding combination B. The reason for solidification cracking in cladding combination A could be its higher solidification susceptibility (i.e., a larger BTR (298 K)) compared with cladding combination B (BTR: 200 K). To elucidate differences in solidification cracking susceptibility, a numerical simulation of non−equilibrium solidification segregation for impurity elements (P, S) was performed, based on velocity dependent solidification theories and the finite differential method. Different segregation behaviors were calculated upon the cladding combinations. The severe segregation of P and S during solidification was found to be one of the important metallurgical factors for the large BTR of cladding combination A, compared with cladding combination B.
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Guyard, Romain, Dominique Leduc, Cyril Lupi, and Yann Lecieux. "Critical cladding radius for hybrid cladding modes." Optics & Laser Technology 101 (May 2018): 116–26. http://dx.doi.org/10.1016/j.optlastec.2017.11.002.

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Dissertations / Theses on the topic "Cladding Magnets"

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Losey, Bradley. "Analysis of Magnetic Gear End-Effects to Increase Torque and Reduce Computation Time." The Ohio State University, 2020. http://rave.ohiolink.edu/etdc/view?acc_num=osu1595514209192582.

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Yu-Hsin, Su. "Analysis of Magnetic Field of the Conducting Line with cladding layer." 2006. http://www.cetd.com.tw/ec/thesisdetail.aspx?etdun=U0001-2807200609145000.

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Su, Yu-Hsin, and 蘇又新. "Analysis of Magnetic Field of the Conducting Line with cladding layer." Thesis, 2006. http://ndltd.ncl.edu.tw/handle/78143172055630831454.

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碩士
國立臺灣大學
物理研究所
94
Abstract In the structure of Magnetic Random Access Memory (MRAM), there exists orthogonal conducting wires clad with high permeability magnetic materials, and the Tunneling Magnetoresistance (TMR) cells is located between them. By passing the current into wires, they will produce two orthogonal magnetic …elds on the cells, so the magnetic moment of the free layer in TMR will rotate to parallel or antiparallel the magnetic moment of the pinned layer in order to write the cell into 0 or 1. The high permeability magnetic materials is used to concentrate the magnetic flux, once the wires are clad with them, we can pass less current to produce the same magnetic field. It has advantages of saving the power and preventing the current over the load of the wires. The main topic of the thesis is to calculate the magnetic field produced by the conducting wires clad with high permeability magnetic materials. The geometry of the conducting wire and the high permeability magnetic materials is larger in one dimension (along the current direction, say z-direction) than that in the other two dimensions, so we approximately take the two dimensional real space into account. It implies that the magnetic field is independent of z-axis. According to this fact, we make use of one way which transforms the real space into the imaginary space to evaluate the magnetic field on TMR cells. That is "Schwarz-Christo¤el Transformation". Schwarz-Christos¤fel Transrmation provides a method that maps the interior of the polygon to the upper-half plane, so we can deal with the problem in the upper-half plane. Finally, we integrate directly the current and the image current source in the real space to obtain the magnetic field. In addition we study the features of magnetic …eld under several kinds of geometry of cladding layer.
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Book chapters on the topic "Cladding Magnets"

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Leupold, H. A. "Permanent Magnet Design: Magnetic Cladding and Periodic Structures." In Magnetic Hysteresis in Novel Magnetic Materials, 811–44. Dordrecht: Springer Netherlands, 1997. http://dx.doi.org/10.1007/978-94-011-5478-9_86.

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Conference papers on the topic "Cladding Magnets"

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Kovalenko, Volodymyr S., Anatoly M. Lutay, Mykola S. Anyakin, and Zraidi Mounir. "Gas-powder laser cladding with electro-magnetic agitation." In ICALEO® ‘97: Proceedings of the Laser Materials Processing Conference. Laser Institute of America, 1997. http://dx.doi.org/10.2351/1.5059701.

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Wilden, Johannes, Jean Pierre Bergmann, and Markus Dolles. "Enhanced cladding quality through application of high frequency magnetic fields." In XVI International Symposium on Gas Flow, Chemical Lasers, and High-Power Lasers. SPIE, 2006. http://dx.doi.org/10.1117/12.738145.

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Kono, N., and M. Koshiba. "Magneto-photonic crystal slab waveguides with lower-refractive-index claddings." In OFCNFOEC 2006. 2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference. IEEE, 2006. http://dx.doi.org/10.1109/ofc.2006.215882.

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Agruzov, Petr, Ivan Pleshakov, Alexander Shamray, and Efim Bibik. "Magneto-optic effects in microstructured fiber with ferrofluid cladding in the pulsed mode." In 2014 International Conference Laser Optics. IEEE, 2014. http://dx.doi.org/10.1109/lo.2014.6886355.

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Fitzpatrick, Gerald L., Richard L. Skaugset, David K. Thome, and William C. Shih. "Detection of cracks under cladding using magneto-optic imaging and rotating in-plane magnetization." In Nondestructive Evaluation Techniques for Aging Infrastructure and Manufacturing, edited by Martin Prager and Richard M. Tilley. SPIE, 1996. http://dx.doi.org/10.1117/12.259157.

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Wilden, Johannes, Jean-Pierre Bergmann, and Markus Dolles. "Improving laser cladding process conditions by inducing skin effect through high frequency magnetic field." In ICALEO® 2006: 25th International Congress on Laser Materials Processing and Laser Microfabrication. Laser Institute of America, 2006. http://dx.doi.org/10.2351/1.5060746.

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Holmes, B. M., and D. C. Hutchings. "Quasi-phase-matched polarisation rotation in III–V waveguides incorporating magneto-optic claddings." In 2006 Conference on Lasers and Electro-Optics and 2006 Quantum Electronics and Laser Science Conference. IEEE, 2006. http://dx.doi.org/10.1109/cleo.2006.4627803.

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McCracken, Steven L., X. Yu, Y. C. Lim, D. F. Farson, and S. S. Babu. "Grain Structure Refinement in Nickel Alloy Welds by Magnetic Arc Stirring." In ASME 2011 Pressure Vessels and Piping Conference. ASMEDC, 2011. http://dx.doi.org/10.1115/pvp2011-57681.

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Nickel alloys with high chromium content provide optimum resistant to stress corrosion cracking for service in the reactor coolant system of commercial nuclear power plants. High chromium nickel-base alloys however present many challenges, such as less than ideal weldability and susceptibility to solidification cracking or solid-state cracking depending on welding conditions and dilution effects with dissimilar metals. Moreover, the presence of large solidification grains, typical of nickel alloy weld metals, makes ultrasonic examination of the weldment difficult. Magnetic stirring of the nickel alloy weld pool has the potential to address these challenges and improve joining, overlay welding, cladding, and repair of critical components in commercial nuclear power plants. This study evaluates use of magnetic arc stirring to modify weld pool solidification conditions in order to promote a fine solidification grain structure in nickel alloy welds.
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Hu, Yong, Liang Wang, Qunli Zhang, Yinghua Lin, Juehui Li, and Jianhua Yao. "Influence of steady electric-magnetic compound field on the melt pool dynamics behavior during laser cladding." In ICALEO® 2017: 36th International Congress on Applications of Lasers & Electro-Optics. Laser Institute of America, 2017. http://dx.doi.org/10.2351/1.5138185.

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WANG, Tao, Jin-Long ZHU, Long Fei MA, Xin-Chao ZHAO, Ya-Peng HU, Zhan-Hua ZAN, and Fu-Zeng LI. "Research on laser cladding of the ND-FE-B permanent magnetic materials in the ocean wave power generator." In 2016 International Workshop on Material Science and Environmental Engineering (IWMSEE2016). WORLD SCIENTIFIC, 2016. http://dx.doi.org/10.1142/9789813143401_0022.

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Reports on the topic "Cladding Magnets"

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Cao, Guoping, and Yong Yang. Pulsed Magnetic Welding for Advanced Core and Cladding Steel. Office of Scientific and Technical Information (OSTI), December 2013. http://dx.doi.org/10.2172/1154740.

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