Forthcoming articles


International Journal of Materials Engineering Innovation


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International Journal of Materials Engineering Innovation (11 papers in press)


Regular Issues


  • Effect of maize cob ash as supplementary cementitious material on the mechanical properties of concrete   Order a copy of this article
    by Orlando Bagcal, Melito Baccay 
    Abstract: In this study, the effect of maize cob ash (MCA) as a supplementary cementitious material on the mechanical properties of concrete was evaluated. Maize cob ash as a pozzolanic material was partially used to replace cement ranging from 0% to 20% by weight in increment of 5% with varying water-cementitious ratios of 0.44 and 0.56. The results of this study indicated that the strength of concrete decreased as the amount of maize cob ash in the concrete mix increased. Generally, it can be concluded that maize cob ash can be utilized as partial replacement for cement in concrete at a suitable amount and can be used for building walls and other minor construction works. It was also established in the study that the optimum amount of 6.43% maize cob ash cement replacement could be used for structural members with compressive strength of 25 MPa.
    Keywords: Cement; cementitious materials; compressive strength; maize cob ash; mechanical properties; tensile strength.

  • Effect of Deep Cryogenic treatment on the mechanical properties of AISI D3 Tool steel   Order a copy of this article
    by Satish Kumar, Mohan Nagaraj, Arunkumar Bongale, Nitin Khedkar 
    Abstract: The research paper presents a study on deep cryogenic treatment and its effects on mechanical properties of AISI D3 grade high carbon steels. Commercially available AISI D3 steel was subjected to deep cryogenic treatment for soaking durations of 12 hours, 24 hours and 36 hours using a cryogenic refrigerator at -196 0C and then followed by tempering for 2 hours at a constant temperature of 150 0C. Thus prepared samples were tested as per ASTM standards to evaluate their mechanical properties such as microhardness, impact and tensile properties. Further, to understand the effect of deep cryogenic treatment, the fractured surfaces were subjected to scanning electron microscopic examinations. X-Ray diffraction analysis and energy dispersive spectroscopic analysis were also conducted to investigate the changes in structure of the material after deep cryogenic treatment. Results indicate that 12 hours soaking time during cryogenic treatment will give optimum mechanical properties compared to 24 and 36 hours. Also, reduction in mechanical properties by 4-6% were observed for 24 and 36 hours cryogenic treated samples compared to 12 hours treated samples.
    Keywords: Deep cryogenic treatment; D3 Tool Steel; Microhardness; Tensile Test; Impact Strength Fracture Surface.
    DOI: 10.1504/IJMATEI.2018.10017379
  • Modelling and Simulation of Natural Fibre/Epoxy Composites - Prediction of Stress State and Deformations   Order a copy of this article
    by R.T. Durai Prabhakaran, Mohit Gupta, Puneet Mahajan, Graham A. Ormondroyd 
    Abstract: Natural fibres usually include hemp, jute, and flax fibres are gaining importance in composites with an increasing potential to replace synthetic fibres in advanced composites. Current glass and carbon fibre systems require large amount of energy in production, which has led to an upsurge in interest in the reinforcement potential of natural fibres. To improve composite performance, designers try different possibilities i.e. vary material thickness (lamina), fibre volume fraction, fibre weight ratio, fibre orientation, and fibre layups. Especially with natural fibres, higher variability of mechanical properties is a major challenge due to fibre parameters such as lignin content, pectin content and degree of polymerisation. Therefore, prediction of laminate performance at early stages of design requires computation. The present work is intended to understand how the flax fibre layups and orientation affect the mechanical behaviour of layered laminated composites. Unidirectional [0]4S, cross-ply [0/90]2S, angle-ply [+45/-45]2S, and quasi-isotropic [0/90/45/-45]S laminates made up of flax fibre reinforced epoxy composites are considered to study tensile, flexural behaviour, and stress distribution in the individual laminae. A classical laminate plate theory (CLPT), which considers the elastic behaviour of the laminae, and a numerical simulation method based on finite element modelling (FEM) are used to predict the stressstrain response of a layered composite. Further, the analytical results and the numerical predictions show that the quasi-isotropic flax/epoxy laminate perform better than angle-ply and cross ply laminates.
    Keywords: Natural fibre; Epoxy; Flexural Loads; Cross/Angle-ply; Plate Theory; FE analysis.

  • Effect of Hot Extrusion on Mechanical Behavior of Boron Nitride Reinforced Aluminum 6061 Based Metal Matrix Composites   Order a copy of this article
    by MUKESH Y B, Bharatesh T P, Saravanan R, Keshavamurthy R 
    Abstract: In this present investigation Al6061 based BN reinforced metal matrix composites were developed with 6 and 9 wt% of Boron Nitride. The Al6061 was chosen as base material owing to its superior formability, light weight and moderate strength. Boron nitride was used as reinforcement keeping in mind its excellent wear and corrosion resistance along with superior strength and thermal properties. The stir casting method was adopted for development of composites since it is most flexible and universally accepted method for preparing castings economically. The developed composites were subjected to extrusion process. Mechanical properties were tested both before and after the extrusion to study the impact of extrusion process on properties of composites. It was observed that hardness and tensile strength of both casted and extruded samples were improved by the addition of the BN reinforcement. Whereas ductility of samples reduced with the increase of boron nitride concentration. Scanning electron microscopy (SEM) is used to identify the distribution of boron nitride (BN) and to study the fractured surfaces of Al6061-BN metal matrix composites.
    Keywords: Al6061; Boron Nitride; composites; Extrusion.

  • 3D Printed Functional Prototypes for Electro Chemical Energy Storage   Order a copy of this article
    by Kamaljit Singh Boparai, Rupinder Singh 
    Abstract: This study outlines the three dimensional (3D) printing of functional prototypes as electro chemical energy storage devices (EESD). The EESD has been prepared with acrylonitrile butadiene styrene (ABS)- Graphene (Gr) blended feedstock filament on commercial fused deposition modelling (FDM) setup. The rheological suitability of ABS-Graphene composite material for FDM applications has been examined by melt flow index (MFI) test. Finally the feedstock filament for FDM has been prepared on twin screw extrusion. The in-house prepared feedstock filament can be used for the 3D printing of EESD. The effect on glass transition temperature with the inclusion of Gr particles has been examined by differential scanning calorimeter (DSC) analysis. Moreover, fourier transform infrared spectroscopy (FTIR) spectra visualized the structural changes in Gr/ ABS matrix. Further, the study has been supported with scanning electron microscopy (SEM) based photomicrographs.
    Keywords: Fused deposition modeling; electro-chemical energy storage devices; FTIR spectra; Differential scanning calorimeter.

  • Optimization of Gaseous Nitriding Process Parameters for Hard Surface Layer of Duplex Stainless Steel   Order a copy of this article
    by Md Abdul Maleque, Lailatul Harina, Norinsan Kamil Othman, M.M. Rahman 
    Abstract: The optimization for gaseous nitriding process parameters of duplex stainless steel was performed using Taguchi approach. The nitiridng process parameters of temperature, time and gas mixture ratio of NH3 and N2 are considered as input parameters. Three responses are chosen which are surface hardness, wear weight loss and coefficient of friction. The optimum process parameters for surface hardness and coefficient of friction are similar with 550
    Keywords: Optimization; duplex stainless steel; Taguchi method; hard surface layer; nitriding.

  • Experimental investigation on the effect of multilayer TiCN/TiAlN/WC-C coating on the tribological behaviour of tool inserts for machining applications   Order a copy of this article
    by Moganapriya Chinnasamy, Rajasekar Rathanasamy, Ponappa Kannayiram, Sathish Kumar Palaniappan, Samir Kumar Pal, Mahalakshmi Somasundaram, Gobinath Velu Kaliyannan 
    Abstract: Coating on cutting tool insert is one of the important approaches in improving the friction and wear resistance properties for machining applications. The study investigates the effect of sliding speed and applied normal load on the wear and frictional behavior of pure and coated (single layer Titanium Carbo Nitride (TiCN), bilayer Titanium Aluminium Nitride/Tungsten Carbide/Carbide (TiAlN/WC-C), multilayer (TiCN/TiAlN/WC-C)) tool inserts. Dry sliding wear and friction tests were performed using pin-on-disc tribometer. All the deposited coatings were subjected to three different sliding speeds (1.0 m/s, 1.5 m/s and 2.5 m/s) and three different loads (5 N, 10 N and 15 N) against silicon carbide sliding counterpart for the running time duration of 1200 s. Hardness and surface roughness of the inserts were investigated through Vickers micro hardness tester and surface roughness tester respectively. Higher hardness (25.83 GPa) and lower surface roughness (0.219
    Keywords: Multilayer coating; PVD; Friction; Wear.

  • An Experimental Study of Tribological Behaviors of Aluminium- and Copper-Based Metal Matrix Composites for Bearing Applications   Order a copy of this article
    by Vipin Kumar Sharma, Ramesh Chandra Singh, Rajiv Chaudhary 
    Abstract: To improve the tribological properties for journal bearing materials, composites have been developed in this work. Copper-Aluminium (Cu-Al), Copper-Phosphorous (Cu-P), Aluminium-Flyash (Al-F), and Copper- Lead (Cu-Pb) composites were produced with stir casting method. Pin on disc experiments were performed in a starved lubrication condition for the evaluation of wear and coefficient of friction between the composite pins and mild steel disc. Scanning electron microscopy (SEM) images were obtained for the worn composite samples to study the wear behavior. In this experimental study, Copper-Phosphorous exhibits better tribological properties as compared to the conventional Copper-Lead. However, The Aluminium-Flyash composite resulted in the lowest coefficient of friction and highest wear among all considered composite materials.
    Keywords: metal matrix composites; starved lubrication; aluminium; copper; wear; friction; pin on disc.

  • Application of Interpretive Structural Modelling for analysis of factors influencing Composite fabrication using Additive Manufacturing   Order a copy of this article
    by Shwetha S Kumar, S. Vinodh 
    Abstract: Additive Manufacturing (AM) applications are being increasingly witnessed in composite fabrication. This study is essential to determine the factors which influence AM processes so that they can be optimized. In this context, this article presents a study in which 19 factors influencing AM for composite fabrication is realized. A structural model is developed based on Interpretive Structural Modelling (ISM) approach and the dominant factors are being identified. MICMAC analysis is being done to categorize the factors. Results showed that 5 out of the 19 factors are dependent factors while 10 are independent factors.
    Keywords: Additive Manufacturing; Composite fabrication; Interpretive Structural Modelling (ISM); MICMAC analysis; Factors.

  • Wear and Corrosion behavior of titanium carbide reinforced metal matrix composites for automobile brake disc application   Order a copy of this article
    by Sivananth Varatharajan, Karuppusamy P, Lingadurai K 
    Abstract: The wear and corrosion behaviour of Aluminum Silicon (Al-Si ) alloy with titanium carbide(TiC) as reinforcement were investigated in this article. Initially automobile brake discs were fabricated by stir casting method with 10 wt.% TiC in Al-Si alloy. A small part cut from the automobile brake shoe used as a pin to slide against MMC and Cast iron in dry condition. The load and velocity varied accordingly to simulate the vehicle running condition. It was found from the results that the wear resistance and coefficient of friction for TiC reinforced MMC is better than the grey cast iron material. SEM analysis shows that wear debris form a built-up transfer layers at higher loads in MMC. An artificial neural network (ANN) model using back propagation network was developed in this study to predict the wear. The observed results showed that the experimental values of wear agrees very closely with ANN results. Frictional heating parameter is also calculated to determine how effectively the load and sliding speed converted into heat during the wear test. The corrosion tests were carried out in 3.5 wt.% NaCl environment to study the effect of TiC addition (3, 7 and 10 wt.% ) on Al-Si matrix. Potentiodynamic polarisation measurements exhibits that the corrosion resistance decreased with increasing TiC weight percentage. SEM analysis showed more nos. of corrosion spots in samples with 10 wt. % of TiC revealed that the presence of reinforcement in matrix affect the corrosion rate
    Keywords: wear; corrosion; TiC; brake disc.

  • Analysis of Dry Sliding Wear Behavior of AA-7068/TiC MMCs
    by POPPATHI NARESH, Syed Altaf Hussain, B Durga Prasad 
    Abstract: Metal matrix composites are finding its increased applications in various engineering fields such as aerospace, automobiles, and other industries due to its low density and excellent wear resistant. This paper presents the influence of sliding velocity, applied load, rotational speed on wear behavior of AA-7068 alloy is used as a matrix material and reinforced with Titanium Carbide (TiC). The Metal matrix Composites (MMCs) was developed by stir casting technique, with various weight fraction of reinforcement varied from 0 to 10 wt.% in steps of 2wt.% and the test specimens were prepared as per ASTM –G95-99 standards. The wear behavior was investigated by performing dry sliding test on pin-on-disc tester. Experiments are planned and conducted as per central composite design (CCD). The data collected was statistically analyzed using Analysis of Variance (ANOVA) and a quadratic model has been developed using Response Surface Methodology (RSM) in terms of process parameters. The results indicated that the developed model is suitable for the prediction of wear. The micro structural analysis was carried out using SEM, EDX and XRD analysis confirmed the presence of Al and TiC with the composite, which revealed fairly uniform distribution of reinforcement in a matrix. The experimental results reveal that the rotational speed has the highest influence followed by applied load on wear. MMC with 6 wt. % of TiC composite has low wear than that of other composite systems considered in this investigation.
    Keywords: Stir casting route; Wear; RSM; SEM; EDS; X-RD;.