Biplab Hazra scite author profile

Sisal fiber along with ZrO2 particles dispersed unsaturated polyester (UP) composites were fabricated by compression molding technique. The filler contents were varied from 5 to 45 wt% with a gradual increase of 10%. The structural investigation was done using Scanning electron microscopy, X‐ray diffraction, and Fourier transform infrared spectroscopy. Mechanical testing was performed through microhardness tester, tensile, flexural, and Izod impact test. The optimum mechanical properties were obtained at 35 wt% of filler incorporation within UP matrix followed by a slight deterioration at 45 wt%. Fractographic images of the composites display the phenomena of fiber pull‐out, debonding and breakage. The water absorption test was performed both at room temperature and boiling water temperature conditions. The thermal insulation measurement was performed by Kawabata method. POLYM. COMPOS., 40:2790–2801, 2019. © 2018 Society of Plastics Engineers

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Improvement in dry sliding wear resistance of Al-17Si-5Cu alloy after an enhanced heat treatment process

Hazra

Baranwal

Bera

et al. 2018

Transactions of Nonferrous Metals Society of China

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Mechanical behavior of cellulosic fiber-incorporated modified fly ash-dispersed polymeric composites

Biswas

Hazra

Chakraborty

et al. 2021

Proceedings of the Institution of Mechanical Engineers, Part E:

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Alkali-treated discontinuous cellulosic fibers (jute and sisal)-based heat-treated silanized fly ash-dispersed hybrid polyester composites were fabricated using a compression molding technique. The morphological features were observed using a scanning electron microscope and a high-resolution transmission electron microscope. The bulk mechanical testing namely, microhardness, tensile, flexural as well as Izod impact was successfully executed. The significant effect of the filler (cellulosic fibers as well as modified fly ash) dispersion within the polymeric matrix with respect to mechanical properties was thoroughly examined in this present investigation.

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Nanomechanical behaviour of ZrO₂ dispersed sisal-based polymeric composites

Biswas

Hazra

Mukherjee

et al. 2021

Proceedings of the Institution of Mechanical Engineers, Part L:

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Alkali-treated sisal fibre-incorporated silanized ZrO2 dispersed unsaturated polyester composites were fabricated with a filler loading of 5, 15, 25, 35, 45 wt%, respectively. The mechanical characterization of the composites was suitably executed at the sub-micron scale using the nanoindentation technique. Various mechanical properties were derived from the standard nanoindentation measurements namely, nanohardness, reduced modulus, recovery index, residual depth, wear rate and indentation creep, respectively. A marked improvement in the mechanical properties of the unsaturated polyester matrix due to the incorporation of the fillers (sisal and/or ZrO2) was observed through indentation-derived parameters namely, nanohardness (∼186%), reduced modulus (∼175%), recovery index (∼62%), wear rate (∼63%) and indentation creep (∼33%), respectively. A simulated dynamic mechanical analysis was performed using the sinus mode of the nanoindentation technique. A similar enhancement in the dynamic mechanical properties of the matrix was further observed through dynamic mechanical analysis as storage modulus (∼71%), loss modulus (∼60%), loss factor (∼150%) and specific damping coefficient (∼200%), respectively.

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Enhanced elevated temperature wear resistance of Al−17Si−5Cu alloy after a novel short duration heat treatment

Hazra

Bera

Show

2019

Int J Miner Metall Mater

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Microstructural modification and ageing behaviour of the Al–17Si–5Cu alloy using a novel approach

Hazra

Ghosh

Sarkar

et al. 2019

Materials Science and Technology

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A novel short duration heat treatment schedule is proposed in the present investigation for the Al-17 wt-% Si-5 wt-% Cu alloy (AR alloy). The existing heat treatment uses long duration (4–24 h) holding at solutionising temperature prior to ageing treatment. In the present investigation, the AR alloy is subjected to isothermal holding at 590°C for 15 min followed by warm water quenching prior to the normal ageing schedule. Detailed microstructural investigations involving size and shape of primary as well as eutectic Si particles, porosity measurements along with hardness and tensile property characterisation are carried out to find the effect of isothermal heat treatment. The study reveals considerable improvement in microstructure and mechanical properties after this isothermal heat treatment.

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Temperature-Dependent Wear Characteristics of a High-Voltage Low-Current Electric Energy-Treated AISI 1080 Steel

Mallick

Hazra

Mitra

et al. 2022

J. of Materi Eng and Perform

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Severe-to-mild wear transition at higher temperatures in Al-17Si-5Cu alloy after short-duration isothermal heat treatment

Hazra

Bera

Show

2018

Philosophical Magazine Letters

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Biplab Hazra

Influence of ZrO₂ Incorporation on Sisal Fiber Reinforced Unsaturated Polyester Composites

Improvement in dry sliding wear resistance of Al-17Si-5Cu alloy after an enhanced heat treatment process

Mechanical behavior of cellulosic fiber-incorporated modified fly ash-dispersed polymeric composites

Nanomechanical behaviour of ZrO₂ dispersed sisal-based polymeric composites

Enhanced elevated temperature wear resistance of Al−17Si−5Cu alloy after a novel short duration heat treatment

Microstructural modification and ageing behaviour of the Al–17Si–5Cu alloy using a novel approach

Temperature-Dependent Wear Characteristics of a High-Voltage Low-Current Electric Energy-Treated AISI 1080 Steel

Severe-to-mild wear transition at higher temperatures in Al-17Si-5Cu alloy after short-duration isothermal heat treatment

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Biplab Hazra

Influence of ZrO2 Incorporation on Sisal Fiber Reinforced Unsaturated Polyester Composites

Improvement in dry sliding wear resistance of Al-17Si-5Cu alloy after an enhanced heat treatment process

Mechanical behavior of cellulosic fiber-incorporated modified fly ash-dispersed polymeric composites

Nanomechanical behaviour of ZrO2 dispersed sisal-based polymeric composites

Enhanced elevated temperature wear resistance of Al−17Si−5Cu alloy after a novel short duration heat treatment

Microstructural modification and ageing behaviour of the Al–17Si–5Cu alloy using a novel approach

Temperature-Dependent Wear Characteristics of a High-Voltage Low-Current Electric Energy-Treated AISI 1080 Steel

Severe-to-mild wear transition at higher temperatures in Al-17Si-5Cu alloy after short-duration isothermal heat treatment

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Product

Resources

About

Influence of ZrO₂ Incorporation on Sisal Fiber Reinforced Unsaturated Polyester Composites

Nanomechanical behaviour of ZrO₂ dispersed sisal-based polymeric composites