Sandip Kumar Nayak
Verified @gmail.com
National Institute of Technology Rourkela, Mechanical Engineering
National Institute of Technology Rourkela
0
Scopus Publications
3
Scholar Citations
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Scopus Publications
- Mechanical and bio-tribological behaviours of UHMWPE based composites for prosthetic hip joint implant application
Sandip K. Nayak, Jaswant K. Hirwani, Sujeet K. Sinha, and Raj K. Pandey
Elsevier BV - Plasma spray coatings using industrial wastes
Sandip Kumar Nayak, Alok Satapathy, Sisir Mantry, and Laxmidhar Besra
Springer Nature Singapore - Deposition and characterization of high velocity oxy-fuel sprayed nickel chrome boron silicium based coatings on stainless steel substrates
N. Pandey, S. K. Nayak, A. Satapathy, S. Mantry, and S. Sahoo
Wiley
AbstractAfter plasma spraying, high‐velocity‐oxy‐fuel (HVOF) spraying is fast emerging as the most versatile deposition technique for thermal sprayed protective coatings. In this context, the present work aims at the deposition of a class of inter‐metallic/cermet coatings of nickel chrome boron silicium (NiCrBSi) and nickel chrome boron silicium+titanium diboride (TiB2) on 304 stainless steel substrates using high‐velocity oxy‐fuel spraying route. The cermet powder is prepared as the feedstock by mechanical mixing of the powders prior to spraying. Different coating samples are obtained by varying the flame‐to‐substrate spray distance (40 mm, 80 mm, 120 mm, 160 mm and 200 mm). These coatings are characterized in terms of their adhesion strength, deposition efficiency, thickness, and micro‐hardness by conducting tests as per the ASTM standards. The surface and interface morphologies of the deposited coatings are studied using scanning electron microscopy. The possible phases present in the coatings, and the transformation of phases during deposition have been explored by x‐ray diffraction analysis. It is found that the coatings exhibit fairly good interfacial adhesion, micro‐hardness, and thickness values that varied significantly with the spray‐distance. Further, the premixing of titanium diboride in nickel chrome boron silicium improved the mechanical and microstructural/compositional properties of the coatings. - Utilization of industrial waste as filler material in the development of polymer composites
Alok Agrawal, Abhilash Purohit, Gaurav Gupta, Sandip Kumar Nayak, Pravat Ranjan Pati, and Alok Satapathy
CRC Press - Sliding Wear Response of Marble Dust Coatings on Mild Steel Substrates
Sandip Kumar Nayak, Alok Satapathy, and Sisir Mantry
Informa UK Limited - Steady state analysis on sliding wear behavior of waste marble dust filled kenaf-polyester composites
S. K. Nayak and A. Satapathy
Wiley
AbstractIn view of the rising demand of natural fiber reinforced polymers in engineering applications, the current research is taken on to study the effects of particulate filling in polyester‐kenaf fiber composite in terms of its sliding wear performance. A set of polyester‐based hybrid composites are fabricated with fixed kenaf fiber content and varied quantities of waste marble dust (0 wt. %, 16 wt. % and 32 wt. %). These composites are subjected to dry‐sliding wear trials as per ASTM G‐99 05 under different test conditions and the specific wear rate are estimated. The test results are analyzed to obtain the parametric appraisal of the wear process using response surface method. The analysis reveals that the filler content followed by sliding velocity, normal load and sliding distance has the detrimental impact on the specific wear rate of such hybrid composites. A morphological study is performed using a scanning electron microscope to identify prominent wear mechanisms and it is found that the wear loss is primarily due to the formation of wear tracks, cracks, craters, plastic deformation, wear debris and the removal of matrix layer etc. during the sliding process. - Deposition of Coatings of Waste Marble Dust Pre-Mixed with Nickel Chrome Powder by High-Velocity Oxy-Fuel Spraying Route
Sandip Kumar Nayak, Alok Satapathy, Sisir Mantry, and Laxmidhar Besra
Springer Science and Business Media LLC - Sliding Wear Behavior Of Marble Dust Pre-Mixed With NiCr Coatings On Mild Steel Substrates At Elevated Temperature
SANDIP KUMAR NAYAK, ALOK SATAPATHY, SISIR MANTRY, and LAXMIDHAR BESRA
World Scientific Pub Co Pte Ltd
In this research, microsized marble dust is spray-coated on mild steel substrates through a well-designed high-velocity oxy-fuel (HVOF) spraying route. For this, a standard spray set up Hipojet 2700 is used. Marble dust is an ornamental stone waste generated in huge quantities during the depletion and processing of ornamental stones to make them usable. Commercially available spray-grade NiCr powder is added with a proportion of 10% by weight in the marble dust prior to deposition to increase its flowability and adherence. The coating on the mild steel substrates is deposited with a spray distance of 200[Formula: see text]mm and a fuel (LPG) feed rate of 55–60[Formula: see text]g/min. Dry-sliding wear trials under controlled conditions on the deposited coatings are conducted as per ASTM G 99-05 using a tribometer capable of operating at a wide temperature range. A parametric analysis of the test results using MINITAB 18 software shows that the control factors such as sliding velocity, specimen temperature, sliding distance and normal load, in the declining sequence, are significant in affecting the specific wear rate (SWR) of the coatings. Based on this, further experimentations are carried out separately for a wider range of the sliding velocity and specimen temperature keeping all other factors constant to study their individual effects on the wear rate more precisely. The morphologies of the worn surfaces are studied to ascertain the possible mechanisms taking place during the wear process leading to coating mass loss. - Dry-sliding wear analysis and prediction using response surface method and fuzzy logic for Kota stone dust–fly ash–epoxy hybrid composites
A. Agrawal, G. Gupta, Pravat Ranjan Pati and S. Nayak
This paper reports on the utilization of waste Kota stone dust and fly ash as filler materials in polymeric resin for the development of a new class of hybrid composite. Epoxy is taken as polymeric resin for the fabrication of different sets of hybrid composites. The fabricated samples are tested for their physical, mechanical, and dry-sliding wear properties. An experimental investigation shows the density, void contents, and water absorption rate increase as a linear function of fillers content. Mechanical testing is performed to evaluate the tensile, compressive, flexural, and hardness properties. From the experimentation, it is observed that the mechanical properties under investigation improve with the addition of either of the fillers. The maximum tensile strength obtained is 33.6 MPa, whereas flexural strength increases to 63.96 MPa resulting in an appreciable improvement. The compressive strength improves to 102.39 MPa and hardness reaches a Shore D number of 84. Sliding wear tests are performed as per the L16 array based on the response surface method (RSM) using pin-on-disk apparatus. It has been observed that filler content, sliding velocity, sliding distance, and normal load in the declining sequence are significant in affecting the wear rate. Furthermore, the wear rate of composites is predicted with the help of response surface method and fuzzy logic within the experimental domain, and the results are compared with the outcomes reported in some of the existing literature. The study of worn composite surfaces using a scanning electron microscope resulted that the formation of wear tracks, grooves, craters, cavities, wear debris, etc. are some of the dominant mechanisms causing wear loss. As a result of our research, gainful utilization of wastes like Kota stone dust and fly ash for preparing polymer composites has opened up. - A study on coatability of marble dust on metal substrates
S. K. Nayak, A. Satapathy, and S. Mantry
Wiley
Marble dust is a hazardous construction/industrial waste generated during the extraction, cutting and polishing of marble‐producing rocks. The present work explores the potential of marble dust to be used as a coating material on metal substrates. For this, the high‐velocity oxy‐fuel (HVOF) spraying route is adopted to deposit marble dust coatings on four different metallic substrates: mild steel, inconel, aluminum, and copper. Liquefied petroleum gas is used as the fuel and nitrogen as the carrier gas while the coating deposition is performed by varying the spray distance over a range from 50 mm to 250 mm. The coating microstructure is studied using a scanning electron microscope (SEM) and the developed phases are identified using an x‐ray diffractometer. The developed coatings are characterized in terms of deposition efficiency, coating thickness and adhesion strength. It is found that the coatings exhibit fairly good interfacial adhesion and thickness values that varied quite significantly with the spray distance. Maximum deposition efficiency of about 68 % is obtained for the copper substrate when the deposition is performed at a spray distance of 100 mm. This experimental investigation thus shows that despite being a waste, marble dust is eminently coatable on several metallic substrates. - Analysis and prediction of erosion behavior of short kenaf fiber-based hybrid composites using response surface method integrated with neural networks
S.K. Nayak and A. Satapathy
Wiley
There has been a huge demand in industries for the design and development of bio‐degradable and low‐cost wear resistant composite materials since long. In response to this, the present work includes an exhaustive analysis for the solid particle erosion characteristics of a new class of hybrid polyester composites reinforced with a natural fiber (kenaf) and filled with a construction waste (marble dust) in different proportions. The test trials on the composite samples are conducted using a DUCOM high temperature erosion test rig as per ASTM G76. The experimentation and analysis are conducted as per the L30 model of response surface method (RSM). The results revealed that the incorporation of marble dust enhanced the resistance to erosion wear of the fiber‐polyester composites and among the control factors, the contributions of striking velocity and angle of impingement towards the erosion rate are significant. A predictive model working on the concept of neural networks (ANN) is used for the prediction of erosion rates at different levels and combinations of the significant control factors. The mechanisms of erosion loss are identified from the morphologies of the worn surfaces taken using a scanning electron microscope. - Erosion behavior of marble dust-coated mild steel substrates
Sandip Kumar Nayak, Alok Satapathy, and Sisir Mantry
Springer Science and Business Media LLC - Erosion response analysis of waste marble dust reinforced kenaf-polyester composites
Sandip Kumar Nayak and Alok Satapathy
Springer Science and Business Media LLC - Use of waste marble and granite dust in structural applications: A review
S. Nayak, A. Satapathy and S. Mantry
- Investigation on Tribological Behavior of Hot-Pressed Steel/TiB<inf>2</inf> Composites Using Taguchi Experimental Design
Silani Sahoo, Bharat Bhusan Jha, Sisir Mantry, Sandip Kumar Nayak, Tarasankar Mahata, Jyothi Sharma, Tammana SRCh Murthy, and Animesh Mandal
Springer Science and Business Media LLC - Analysis and prediction of abrasion wear properties of glass–epoxy composites filled with eggshell powder
Subhrajit Ray, Pravat Ranjan Pati, Gaurav Gupta, and Sandip Kumar Nayak
SAGE Publications
Eggshell is a by-product of the poultry industry and a common kitchen waste. Being rich in calcium, it can be used as a potential reinforcing agent for fabricating wear-resistant polymer composites. The present research uses the conventional hand-lay-up technique to fabricate hybrid glass-epoxy composites consisting of 0, 5, 10, 15, and 20 wt.% of eggshell powder, respectively. The prepared composites are characterized by their physical and mechanical properties. Dry-sliding wear trials on the composite samples are conducted as per Taguchi's L25 design following ASTM G99 05. The results revealed that while the density and volume fraction of voids and resistance to wear of the glass-epoxy composites increase with the eggshell content, the mechanical strength values decrease. The analysis of wear test results concluded that the control factors like filler content and sliding velocity significantly affect the wear rate, but the effect of abrasion distance and normal load is very marginal. Based on the experimental outcomes, a predictive model working on fuzzy logic is implemented to predict the specific wear rate (SWR) of the composites at a wide range of significant control factors within the test domain. It is observed that the SWR increases with sliding velocity and decreases with filler content. The analysis resulted in the optimal factor setting as sliding velocity 30 cm/s, abrasion distance 300 m, normal load 5 N, and eggshell content 20 wt.%, which are responsible for the minimum wear. Further, the mechanisms of wear loss have been studied using a scanning electron microscope. - Erosion Response of High-Velocity Oxy-Fuel Sprayed Marble Dust-NiCr Coatings
Sandip Kumar Nayak, Alok Satapathy, Sisir Mantry, and Laxmidhar Besra
Informa UK Limited
In the present research, raw marble dust (an ornamental stone waste) with and without pre-mixing of nickel chrome (NiCr) powder are used as the feedstock material to deposit overlay coatings on the mild steel substrates through HVOF spraying technique. The physical as well as mechanical characterizations of the deposited coatings in terms of deposition efficiency, adhesion strength, coating thickness and micro-hardness are done at controlled laboratory conditions. To get an insight to the erosion behavior of the deposited coatings, high temperature solid particle erosion trials on them are carried out as per ASTM G76 considering the test parameter combinations obtained from Taguchi’s L16 orthogonal array. On analyzing the experimental outcomes, impact velocity, NiCr content in the feedstock, erodent temperature and impingement angle are found to be sequentially significant in terms of affecting the wear loss of the coatings. Based on the findings from the analysis, further experimentations are conducted at different levels of the significant control factors to ascertain their effects on the wear rate more precisely. The micrographs of the worn surfaces taken using a scanning electron microscope are studied to identify the possible damage mechanisms causing the erosion loss. GRAPHICAL ABSTRACT - Tribological evaluation of marble dust filled polyester composites using an integrated fuzzy logic and response surface method approach
Sandip Kumar Nayak, Alok Satapathy, and Sisir Mantry
Elsevier BV - Mechanical and Dry Sliding Wear Characterization of Marble Dust and Short Kenaf Fiber Reinforced Hybrid Polyester Composites
Sandip Kumar Nayak and Alok Satapathy
Informa UK Limited
ABSTRACT Polymer composites reinforced with natural fibers and/or waste particulate fillers have been gaining an increasing popularity over the last few decades because of their environmental friendliness, biodegradability, and lower cost. Considering this, the present work is focused on the development, characterization, and dry-sliding wear response of hybrid composites consisting of polyester as the matrix and marble dust (industrial/construction waste) along with short kenaf fibers as the reinforcements. The physical and mechanical characterizations of the hybrid composites are conducted following ASTM standards in regard to their density, tensile, flexural, and impact strength. Dry sliding wear trials on the composite samples are conducted as per ASTM G99-05 under different test conditions using Taguchi’s L25 orthogonal array. Analysis of test results reveals that the filler content in the composite followed by sliding velocity has a significant effect on the wear rate. Analyzing the micrographs of the worn composite surfaces, it is observed that microcracking, plastic deformation of matrix, formation of wear debris, plowing on the composite surface are the major causes of wear loss of the composites. A prediction model based on artificial neural networks (ANN) is used to predict the SWR of the composites in a range wider than the experimental domain. - Impact of Process Parameters on Solid Particle Erosion Behavior of Waste Marble Dust-Filled Polyester Composites
Sandip Kumar Nayak, Alok Satapathy, and Sisir Mantry
Springer Science and Business Media LLC - Parametric Analysis for Erosion Wear of Waste Marble Dust-Filled Polyester Using Response Surface Method and Neural Networks
Sandip Kumar Nayak, Alok Satapathy, and Sisir Mantry
Springer Science and Business Media LLC - Development and characterization of polymer-based composites filled with micro-sized waste marble dust
Sandip Kumar Nayak and Alok Satapathy
SAGE Publications
This investigation explores the possibility of developing a new class of particulate-filled polyester composites using waste marble dust as filler. The dusts collected from local construction sites are sieved to three different sizes (58, 110, and 155 μm). Polyester composites are fabricated with filler in different weight proportions (0, 8, 16, 24, 32, and 40 wt%). A Fourier transform infrared spectroscopy study is done to get an insight into the chemistry of composite formation. Scanning electron microscopy reveals the surface features of the filler as well as the composites. X-Ray diffraction tests are carried out on the raw filler and on the composites to ascertain the presence of hard phases. The experimental findings suggest that, while the tensile and flexural strengths of the composites marginally drop with the incorporation of marble dust, there is reasonable improvement in compressive strength, impact strength, and Shore hardness. The density and voids are also affected by the size and content of filler particles in the composite. Armed with lightweight, improved hardness, and impact strength, these polyester–marble composites are expected to find potential use in wear-related engineering applications. - Role of test parameters and material composition on the erosion behavior of waste marble dust-filled glass-polyester composites
Sandip Kumar Nayak, Alok Satapathy, and Sisir Mantry
Springer Science and Business Media LLC - Wear analysis of waste marble dust-filled polymer composites with an integrated approach based on design of experiments and neural computation
Sandip Kumar Nayak and Alok Satapathy
SAGE Publications
Waste marble dust is a solid waste generated during the cutting and polishing of marble pieces in construction sites and also in marble processing industries. This paper reports on the utilization of this waste as a filler material in particulate-filled polymer composite. Polyester-based composites are prepared with different weight proportions of waste marble dust and the dry sliding wear behavior of these composites is studied. Wear trials are conducted using a pin-on-disc test apparatus based on the Taguchi’s L25 orthogonal array as per ASTM G 99-05. The effects of different parameters on the specific wear rate of the composites are studied and an optimum combination of parameters is obtained for the least wear rate. Based on the experimental data, a prediction model using the artificial neural network is used to predict the specific wear rate of the composites at a wider range of operating parameters, within and beyond the test region. The morphologies of the worn surfaces are studied by a scanning electron microscope to ascertain the wear mechanism of the composites at different conditions. This work thus opens up a new avenue for the value added utilization of a waste like marble dust in tribological applications. - Wear characteristics of glass-polyester-based hybrid composites: A parametric analysis using response surface method and fuzzy logic
Sandip Kumar Nayak, Alok Satapathy, and Sisir Mantry
Wiley
RECENT SCHOLAR PUBLICATIONS
- Utilization of industrial waste as filler material in the development of polymer composites
A Agrawal, A Purohit, G Gupta, SK Nayak, PR Pati, A Satapathy
Composites, 66-85 2024 - Mechanical and bio-tribological behaviours of UHMWPE based composites for prosthetic hip joint implant application
SK Nayak, JK Hirwani, SK Sinha, RK Pandey
Tribology International 199, 109945 2024 - Plasma Spray Coatings Using Industrial Wastes
SK Nayak, A Satapathy, S Mantry, L Besra
From Waste to Wealth, 1223-1249 2024 - Sliding Wear Response of Marble Dust Coatings on Mild Steel Substrates
SK Nayak, A Satapathy, S Mantry
Transactions of the Indian Ceramic Society 83 (2), 111-117 2024 - Deposition and characterization of high velocity oxy‐fuel sprayed nickel chrome boron silicium based coatings on stainless steel substrates
N Pandey, SK Nayak, A Satapathy, S Mantry, S Sahoo
Materialwissenschaft und Werkstofftechnik 55 (2), 153-164 2024 - Thermo-mechanical characterization of plasma sprayed YSZ-CeO nanocomposite coatings
S Sethi, S Mantry, S Patra, SK Nayak, SK Parida, L Besra
2024 - Steady state analysis on sliding wear behavior of waste marble dust filled kenaf‐polyester composites
SK Nayak, A Satapathy
Materialwissenschaft und Werkstofftechnik 54 (11), 1407-1419 2023 - Deposition of Coatings of Waste Marble Dust Pre-Mixed with Nickel Chrome Powder by High-Velocity Oxy-Fuel Spraying Route
SK Nayak, A Satapathy, S Mantry, L Besra
JOM 75 (9), 3305-3316 2023 - Dry-sliding wear analysis and prediction using response surface method and fuzzy logic for Kota stone dust–fly ash–epoxy hybrid composites
A Agrawal, G Gupta, PR Pati, SK Nayak
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of 2023 - Sliding Wear Behavior of Marble Dust Pre-Mixed with NiCr Coatings on Mild Steel Substrates at Elevated Temperature
SK Nayak, A Satapathy, S Mantry, L Besra
Surface Review and Letters 30 (02), 2350008 2023 - A study on coatability of marble dust on metal substrates
SK Nayak, A Satapathy, S Mantry
Materialwissenschaft und Werkstofftechnik 54 (1), 69-80 2023 - Analysis and prediction of abrasion wear properties of glass–epoxy composites filled with eggshell powder
S Ray, PR Pati, G Gupta, SK Nayak
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of 2022 - Analysis and prediction of erosion behavior of short kenaf fiber‐based hybrid composites using response surface method integrated with neural networks
SK Nayak, A Satapathy
Materialwissenschaft und Werkstofftechnik 53 (11), 1319-1333 2022 - Mechanical and dry sliding wear characterization of marble dust and short kenaf fiber reinforced hybrid polyester composites
SK Nayak, A Satapathy
Journal of Natural Fibers 19 (14), 9235-9247 2022 - Erosion Response of High-Velocity Oxy-Fuel Sprayed Marble Dust-NiCr Coatings
SK Nayak, A Satapathy, S Mantry, L Besra
Transactions of the Indian Ceramic Society 81 (4), 149-157 2022 - Erosion behavior of marble dust-coated mild steel substrates
SK Nayak, A Satapathy, S Mantry
Journal of the Brazilian Society of Mechanical Sciences and Engineering 44 2022 - Erosion response analysis of waste marble dust reinforced kenaf-polyester composites
SK Nayak, A Satapathy
Journal of the Brazilian Society of Mechanical Sciences and Engineering 44 2022 - Use of waste marble and granite dust in structural applications: A review
SK Nayak, A Satapathy, S Mantry
Journal of Building Engineering 46, 103742 2022 - Investigation on Tribological Behavior of Hot-Pressed Steel/TiB2 Composites Using Taguchi Experimental Design
S Sahoo, BB Jha, S Mantry, SK Nayak, T Mahata, J Sharma, TSRC Murthy, ...
Journal of Materials Engineering and Performance, 1-15 2022 - Tribological evaluation of marble dust filled polyester composites using an integrated fuzzy logic and response surface method approach
SK Nayak, A Satapathy, S Mantry
Materials Today: Proceedings 62, 6163-6170 2022
MOST CITED SCHOLAR PUBLICATIONS
- Development and characterization of polymer-based composites filled with micro-sized waste marble dust
SK Nayak, A Satapathy
Polymers and Polymer Composites 29 (5), 497-508 2021
Citations: 66 - Use of waste marble and granite dust in structural applications: A review
SK Nayak, A Satapathy, S Mantry
Journal of Building Engineering 46, 103742 2022
Citations: 59 - Processing and wear response study of glass‐polyester composites with waste marble dust as particulate filler
SK Nayak, A Satapathy, S Mantry
Polymer Composites 41 (6), 2263-2273 2020
Citations: 42 - Wear analysis of waste marble dust-filled polymer composites with an integrated approach based on design of experiments and neural computation
SK Nayak, A Satapathy
Proceedings of the Institution of Mechanical Engineers, Part J: Journal of 2020
Citations: 40 - Impact of process parameters on solid particle erosion behavior of waste marble dust-filled polyester composites
SK Nayak, A Satapathy, S Mantry
Arabian Journal for Science and Engineering 46, 7197-7209 2021
Citations: 19 - Parametric analysis for erosion wear of waste marble dust-filled polyester using response surface method and neural networks
SK Nayak, A Satapathy, S Mantry
Journal of Materials Engineering and Performance 30, 3942-3954 2021
Citations: 17 - Role of test parameters and material composition on the erosion behavior of waste marble dust-filled glass-polyester composites
SK Nayak, A Satapathy, S Mantry
Journal of the Brazilian Society of Mechanical Sciences and Engineering 43, 1-14 2021
Citations: 16 - Wear characteristics of glass‐polyester‐based hybrid composites: A parametric analysis using response surface method and fuzzy logic
SK Nayak, A Satapathy, S Mantry
Polymer Composites 41 (9), 3687-3697 2020
Citations: 16 - Mechanical and dry sliding wear characterization of marble dust and short kenaf fiber reinforced hybrid polyester composites
SK Nayak, A Satapathy
Journal of Natural Fibers 19 (14), 9235-9247 2022
Citations: 11 - Response surface method and neural computation for the analysis and prediction of erosion response of glass-polyester composites filled with waste marble dust
SK Nayak, A Satapathy, S Mantry
Materials Today: Proceedings 44, 4425-4432 2021
Citations: 7 - Dry-sliding wear analysis and prediction using response surface method and fuzzy logic for Kota stone dust–fly ash–epoxy hybrid composites
A Agrawal, G Gupta, PR Pati, SK Nayak
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of 2023
Citations: 5 - Analysis and prediction of abrasion wear properties of glass–epoxy composites filled with eggshell powder
S Ray, PR Pati, G Gupta, SK Nayak
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of 2022
Citations: 5 - Erosion response analysis of waste marble dust reinforced kenaf-polyester composites
SK Nayak, A Satapathy
Journal of the Brazilian Society of Mechanical Sciences and Engineering 44 2022
Citations: 5 - Mechanical behaviour and wear characteristics of Al-Cu-SiCP hybrid composites
A Mishra, SK Nayak
SSRG International Journal of Mechanical Engineering 4 (5), 39-46 2017
Citations: 5 - Analysis and prediction of erosion behavior of short kenaf fiber‐based hybrid composites using response surface method integrated with neural networks
SK Nayak, A Satapathy
Materialwissenschaft und Werkstofftechnik 53 (11), 1319-1333 2022
Citations: 3 - Investigation on Tribological Behavior of Hot-Pressed Steel/TiB2 Composites Using Taguchi Experimental Design
S Sahoo, BB Jha, S Mantry, SK Nayak, T Mahata, J Sharma, TSRC Murthy, ...
Journal of Materials Engineering and Performance, 1-15 2022
Citations: 3 - Mechanical and bio-tribological behaviours of UHMWPE based composites for prosthetic hip joint implant application
SK Nayak, JK Hirwani, SK Sinha, RK Pandey
Tribology International 199, 109945 2024
Citations: 2 - Erosion behavior of marble dust-coated mild steel substrates
SK Nayak, A Satapathy, S Mantry
Journal of the Brazilian Society of Mechanical Sciences and Engineering 44 2022
Citations: 2 - Tribological evaluation of marble dust filled polyester composites using an integrated fuzzy logic and response surface method approach
SK Nayak, A Satapathy, S Mantry
Materials Today: Proceedings 62, 6163-6170 2022
Citations: 2 - Mechanical Properties and Wear Characteristics Al-ZrO2-SiCp and Graphite Hybrid Metal Matrix Composites
SK Nayak, T Mahanta, JK Sahoo, A Mishra
IOP Conference Series: Materials Science and Engineering 338 (1), 012029 2018
Citations: 2