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A Hybrid Optimization Technique for Fault Classification in Power Transformer Using Dissolved Gas Analysis

Online since: June 2014

Authors: V. Gomathy, S. Sumathi

EL, vol. 85, pp. 60-63, June 2004
Li, et al.

Lifetime and Reliability Assessment of AlN Substrates Used in Harsh Aeronautic Environments Power Switch Modules

Online since: May 2010

Authors: Moussa Karama, Arezki Bouzourene, Olivier Dalverny, Adrien Zéanh

These chips are brazed on the bottom substrate and connected to the upper one using power bumps, the whole being brazed on an Al-SiC base plate.
El Ganaoui, J.

Evaluation of Radio-Photoluminescence Spectra of Copper-Doped Phosphate Glass Dosimeter Irradiated with Ionized Particles

Online since: July 2016

Authors: Kenta Miura, Osamu Hanaizumi, Akihito Yokoyama, Makoto Sakai, Raj Kumar Parajuli, Shunsuke Kawabata, Yoshinori Matsubara, Wataru Kada, Moriyoshi Haruyama

Evaluation of Radio-photoluminescence Spectra of Copper-doped Phosphate Glass Dosimeter Irradiated with Ionized Particles Raj Kumar Parajuli1,a, Wataru Kada1,b, Shunsuke Kawabata1,2,c, Yoshinori Matsubara1,d, Kenta Miura1,e, Akihito Yokoyama1,2,f, Moriyoshi Haruyama1,2,g, Makoto Sakai3,h, and Osamu Hanaizumi1,i 1Division of Electronics and Informatics, Faculty of Science and Technology, Gunma University, 1-5-1 Tenjin-cho, Kiryu, Gunma 376-8515, Japan 2 Takasaki Advanced Radiation Research Institute (TARRI), Japan Atomic Energy Agency (JAEA), 1233 Watanuki-machi, Takasaki, Gunma 370-1292, Japan, 3 Education and Research Support Center, Graduate School of Medicine, Gunma University 3-39-22 Showa-machi, Maebashi, Gunma 371-8511, Japan at12802474@gunma-u.ac.jp, bkada.wataru@gunma-u.ac.jp, ct15804025@gunma-u.ac.jp, dt15804087@gunma-u.ac.jp, emiura@el.gunma-u.ac.jp, fyokoyama.akihito@jaea.go.jp, gharuyama.moriyoshi@jaea.go.jp hsakai-m@gunma-u.ac.jp, ihana@gunma-u.ac.jp Keywords
We therefore fabricated an RPL phosphate glass dosimeter in our laboratory using a conventional method [12, 13], namely, melting industrial-grade powders of sodium metaphosphate (NaPO3) and aluminum metaphosphate (Al(PO3)3) (Taihei Chemical Industrial Co.

Implementation of a Test Plan Ontology for Incremental Sheet Metal Forming Made with Models for Manufacturing (MfM) Methodology

Online since: October 2023

Authors: Fernando Mas, Carpoforo Vallellano, Domingo Morales-Palma, Manuel Oliva, Rebeca Arista

The use case to evaluate the MfM methodology is based in the experimental work of Borrego et al. [13].
El Kadiri, W.

Optimizing Mesh Sizes of Thin Shells Using Biomimicry for a Sustainable Solution

Online since: July 2023

Authors: S. Sindhu Nachiar, Pennarasi Gunasekaran, Anandh Sekar

., El Sherif, A.
[5] Othmani, N.I., Mohamed, S.A., Abdul Hamid, N.H. et al, Reviewing biomimicry design case studies as a solution to sustainable design.

Simulation of Design Optimization and Performance of CoCrMo Acetabular Hip Prosthesis Implants on Climbing Stairs Activity Using Finite Element Method

Online since: January 2024

Authors: Fakhreza Abdul, Kariza Defarrel Aqil Ilman, Fahny Ardian, Sungging Pintowantoro, Yuli Setiyorini

El-shiekh, “Finite Element Simulation of Hip Joint Replacement under Static and Dynamic Loading,” no.
Al-Sanea, M.

Diffusion Kinetics Analysis of Cation Diffusion in YSZ and LSGM

Online since: February 2008

Authors: Graeme E. Murch, Manfred Martin, D. Samuelis, Irina V. Belova

To explain these experimental findings a bound defect cluster mechanism containing cation vacancies of both the A- and the B- sublattice and anion vacancies was proposed recently by Schultz et al. [3] as being the principal vehicle for cation diffusion in LSGM.
Allnatt and E.L.

Fatigue Analysis of Light Aircraft Landing Gear

Online since: July 2012

Authors: Pu Woei Chen, Tai Sing Sun, Quen Yaw Sheen, Harn Wen Tan

In 2008 and 2010, Pu-Woei Chen et al. [15] conducted static and dynamic load analysis of light sport aircraft landing gear.
Material parameters used in this experiment Aluminum Alloy 6061-T6 Carbon/Vinyl Ester Composite Elastic Modulus 68.9 GPa EL 89.7 GPa ET 6.8 GPa Shear Modulus 26 GPa GLT 2.36 GPa Poisson’s Ratio 0.33 νLT 0.22 Yielding Strength 276 MPa - Max.

Influence of Breakages of Reinforcing Elements of a Composite Orthotropic Stay Rope on Its Stress-Strain State

Online since: December 2024

Authors: Dmytro Kolosov, Serhii Onyshchenko, Kateryna Antonova, Hanna Tantsura, Ivan Belmas, Olena Bilous

El-Dardiry, Mohamed N.
Stress-strain state of rubber-cable tractive element of tubular shape Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu (2) pp 60-69 DOI:10.29202/nvngu/2018-2/5 [11] Blazej R, Jurdziak L, and Kirjanow-Blazej A et al. (2021) Identification of damage development in the core of steel cord belts with the diagnostic system Sci Rep 11 12349 DOI:10.1038/s41598-021-91538-z [12] Kravets V, Samusia V, Kolosov D, Bas K, and Onyshchenko S. (2020).

The Microstructure and Formability Study on DP Steel of Lightweight Automobile

Online since: December 2011

Authors: Da Sen Bi, Liang Chu, Yun Tao Li, Jin Wu, Jian Zhang

Referring on the related works [18][19] the forming limit formula is provided: Bulging deformation zone (project strain e2＞0) （11） Drawing zone (project strain e2＜0) （12） When el=0, e2=FLD0.
[14]Huh H,et al.Dynamic Tensile Characteristics of TRIP-Type and DP-Type Steel Sheets for an Auto-Body.International Journal ofMechanical Sciences.2007

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