Hamidreza Najafi scite author profile

Novel special optical fibers nowadays can take advantage of several new preform production techniques. During the last years we have devoted our attention to the granulated silica method. It is one of the variants of the powder-in-tube technique and potentially offers a high degree of freedom regarding the usable dopants, the maximum possible dopant concentration, the homogeneity of the dopants, the geometry and minimal refractive index contrast. We developed and refined an approach for the production of doped granulated silica material based on the sol-gel process.Here, we present material analysis results of an ytterbium (Yb) doped, aluminum (Al) and phosphorous (P) co-doped glass on the basis of our sol-gel glass based granulated silica method as well as first measurements of two LMA fibers obtained from this material. For the material analysis we used advanced analysis techniques, such as HAADF-STEM and STEM-EDX spectroscopy to determine the composition of the material and the distribution of the dopants and the codopants. The chemical mapping of the STEM-EDX shows an extremely homogeneous distribution of the dopants and co-dopants in nano-scale. Based on self-made LMA fibers, we measured the refractive index contrast of the sol-gelbased granulated silica derived core compared to the pure silica cladding. In addition we quantified optical characteristics such as the emission and absorption spectrum. The measured upper state lifetime of the optical active dopant ytterbium was 0.99ms, which in turn confirms the homogeneous distribution of the Yb atoms. The propagation losses were determined to be 0.2dB/m at 633nm and 0.02414dB/m at1550nm.

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Effect of tool travel and rotation speeds on weld zone defects and joint strength of aluminium steel lap joints made by friction stir welding

Movahedi

Kokabi

Reihani

et al. 2012

Science and Technology of Welding and Joining

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In this study, Al-5083 and St-12 alloy sheets were friction stir lap welded at different travel (7-23 cm min 21 ) and rotation (750-1125 rev min 21 ) speeds of the welding tool. The welded joints were characterised by various methods including shear tensile and Vickers microhardness tests, optical and scanning electron microscopies and X-ray diffraction analysis. The results showed that the weld zone defects decreased, and the joint strength also improved significantly with the reducing tool travel speed from 23 to 7 cm min 21 . The travel speed of 11 cm min 21 was an optimum speed within the travel speeds investigated in this work. Additionally, raising the tool rotation speed enhanced the joint strength slightly. The microhardness results confirmed the formation of intermetallic phase layer with the hardness of ,335 HV at the swirl layered structure.

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Formation of cubic structured (Al1−xCrx)2+δO3 and its dynamic transition to corundum phase during cathodic arc evaporation

Najafi

Karimi

Dessarzin

et al. 2013

Surface and Coatings Technology

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Correlation between anionic substitution and structural properties in AlCr(OxN1−x) coatings deposited by lateral rotating cathode arc PVD

et al. 2011

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Growth kinetics of Al–Fe intermetallic compounds during annealing treatment of friction stir lap welds

Movahedi

Kokabi

Reihani

et al. 2014

Materials Characterization

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As-cast mechanical properties of vanadium/niobium microalloyed steels

Najafi

Rassizadehghani

Asgari

2008

Materials Science and Engineering: A

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Atomic-scale imaging of dopant atoms and clusters in Yb-doped optical fibers

Najafi

Pilz

Sayed

et al. 2016

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Mechanical and Microstructural Characterization of Al-5083/St-12 lap joints made by friction stir welding

Movahedi

Kokabi

Reihani

et al. 2011

Procedia Engineering

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