Morteza Adineh scite author profile

Morteza Adineh

4Publications

14Citation Statements Received

89Citation Statements Given

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165

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Shahid Bahonar University of Kerman

Publications

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Microstructure, mechanical properties and machinability of Cu–Zn–Mg and Cu–Zn–Sb brass alloys

Adineh

Doostmohammadi

2019

Materials Science and Technology

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Lead-free alloys have attracted great attentions recently due to the toxic nature of lead for the human body. In this study, low amounts of Mg and Sb were added to the Cu65–Zn35 brass and microstructure, mechanical properties and machinability of samples were compared to Cu65–Zn35 brass. Both Mg and Sb led to the promotion of β′ phase as well as the formation of new ternary copper rich intermetallic particles. It was found that these particles had a significant role in the reduction of the ultimate tensile strength, toughness, work hardening and elongation while increasing the hardness of samples. Results of machinability evaluation of samples showed that the cutting forces were decreased significantly and morphology of chips were improved compared to Cu65–Zn35 brass sample.

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A new soft magnetic Fe75Ta5C20 amorphous alloy: Modelling and kinetics approach

Yekta

Adineh

Nasiri

et al. 2019

Journal of Alloys and Compounds

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Machining Characteristics of the New Cu-35Zn-1.89Al Leadless Free-cutting Brass by Elliptical Ultrasonic Vibration-Assisted Turning

Adineh

2021

J. of Materi Eng and Perform

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An investigation on microstructural and mechanical properties of porous zirconia-alumina nanocomposite prepared by solid state sintering method

Yousefi

Adineh

Askari

2018

ACMM

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Purpose The purpose of this paper is to fabricate zirconia-nano alumina porous nanocomposites with different amount of alumina (0-30 Wt.%). Specimens were prepared by solid state sintering method at different temperature (1,400-1,700°C). Design/methodology/approach Effects of processing temperature and amount of alumina on microstructure, distribution of nanoparticles, flexural and compressive strengths, micro-hardness and densification were investigated. Findings Results indicated that interpenetration of particles and their contacts increased by increasing sintering temperature. As a consequence of better particles contacts and microstructure coarsening, the porosity decreased. As alumina nanoparticles content increased, the amount of porosity decreased conversely and distribution of pores become more uniform. Simultaneous enhancement of temperature and alumina nanoparticles content caused an improvement of flexural and compressive strengths because of an improvement of sintering process resulted from porosity reduction. Increase in hardness and density were observed as porosity values diminished and alumina nanoparticles were distributed well at micro zirconia grain boundaries as a result of increasing the process temperature. Originality/value This article contains original research.

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Morteza Adineh

Microstructure, mechanical properties and machinability of Cu–Zn–Mg and Cu–Zn–Sb brass alloys

A new soft magnetic Fe75Ta5C20 amorphous alloy: Modelling and kinetics approach

Machining Characteristics of the New Cu-35Zn-1.89Al Leadless Free-cutting Brass by Elliptical Ultrasonic Vibration-Assisted Turning

An investigation on microstructural and mechanical properties of porous zirconia-alumina nanocomposite prepared by solid state sintering method

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