Rani Joseph scite author profile

Nanotechnology is regarded as one of the key technologies of the future. The term "nanotechnology" is referred as the manufacturing, analysis and use of structures, for example particles, layers or tubes of less than 100 nanometers (nm) in at least one dimension. Artificially produced nano-sized particles and nanoscale system components have new properties which are of importance for the development of new products and applications. This paper reviews different types of coatings, different types of pigments used in paint formulation and a special focus is set on the uses of nanomaterials/fillers in coating application. More emphasis was given to bestow an insight in nanocomposite coating.

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High performance natural rubber composites with conductive segregated network of multiwalled carbon nanotubes

George

Chandra

Mathiazhagan

et al. 2015

Composites Science and Technology

102

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Green tire technology: Effect of rice husk derived nanocellulose (RHNC) in replacing carbon black (CB) in natural rubber (NR) compounding

Dominic

Joseph

Begum

et al. 2020

Carbohydrate Polymers

116

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Carbon nanotubes induced crystallization of poly(ethylene terephthalate)

Anand

Agarwal

Joseph

2006

Polymer

136

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We have investigated the crystallization characteristics of melt compounded nanocomposites of poly(ethylene terephthalate) (PET) and single walled carbon nanotubes (SWNTs). Differential scanning calorimetry studies showed that SWNTs at weight fractions as low as 0.03 wt% enhance the rate of crystallization in PET, as the cooling nanocomposite melt crystallizes at a temperature 10 °C higher as compared to neat PET. Isothermal crystallization studies also revealed that SWNTs significantly accelerate the crystallization process. WAXD showed oriented crystallization of PET induced by oriented SWNTs in a randomized PET melt, indicating the role of SWNTs as nucleating sites.

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Mechanical properties of short‐isora‐fiber‐reinforced natural rubber composites: Effects of fiber length, orientation, and loading; alkali treatment; and bonding agent

Mathew

Joseph

2006

J of Applied Polymer Sci

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A series of short-isora-fiber-reinforced natural rubber composites were prepared by the incorporation of fibers of different lengths (6, 10, and 14 mm) at 15 phr loading and at different concentrations (10,20,30, and 40 phr) with a 10 mm fiber length. Mixes were also prepared with 10 mm long fibers treated with a 5% NaOH solution. The vulcanization parameters, processability, and stress-strain properties of these composites were analyzed. Properties such as tensile strength, tear strength, and tensile modulus were found to be at maximum for composites containing longitudinally oriented fibers 10 mm in length. Mixes containing fiber loadings of 30 phr with bonding agent (resorcinol-formaldehyde [RF] resin) showed mechanical properties superior to all other composites. Scanning electron microscopy (SEM) studies were carried out to investigate the fiber surface morphology, fiber pullout, and fiber-rubber interface. SEM studies showed that the bonding between the fiber and rubber was improved with treated fibers and with the use of bonding agent.

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Swelling behaviour of isora/natural rubber composites in oils used in automobiles

Mathew

Joseph

2006

Bull Mater Sci

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Natural rubber/isora fibre composites were cured at various temperatures. The solvent swelling characteristics of natural rubber composites containing both untreated and alkali treated fibres were investigated in aromatic and aliphatic solvents like toluene, and n-hexane. The diffusion experiments were conducted by the sorption gravimetric method. The restrictions on elastomer swelling exerted by isora fibre as well as the anisotropy of swelling of the composite have been confirmed by this study. Composite cured at 100°°C shows the lowest percentage swelling. The uptake of aromatic solvent is higher than that of aliphatic solvent for the composites cured at all temperatures. The effect of fibre loading on the swelling behaviour of the composite was also investigated in oils like petrol, diesel, lubricating oil etc. The % swelling index and swelling coefficient of the composite were found to decrease with increase in fibre loading. This is due to the increased hindrance exerted by the fibres at higher fibre loadings and also due to the good fibre-rubber interactions. Maximum uptake of solvent was observed with petrol followed by diesel and then lubricating oil. The presence of bonding agent in the composites restrict the swelling considerably due to the strong interfacial adhesion. At a fixed fibre loading, the alkali treated fibre composite showed lower percentage swelling compared to the untreated one.

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Rani Joseph

Science and technology of rubber reclamation with special attention to NR-based waste latex products

Microwave absorption, reflection and EMI shielding of PU–PANI composite

Nanotechnology-A New Prospective in Organic Coating -Review

High performance natural rubber composites with conductive segregated network of multiwalled carbon nanotubes

Green tire technology: Effect of rice husk derived nanocellulose (RHNC) in replacing carbon black (CB) in natural rubber (NR) compounding

Carbon nanotubes induced crystallization of poly(ethylene terephthalate)

Mechanical properties of short‐isora‐fiber‐reinforced natural rubber composites: Effects of fiber length, orientation, and loading; alkali treatment; and bonding agent

Swelling behaviour of isora/natural rubber composites in oils used in automobiles

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