Dr.Gururaj Hatti

@klsvdit.edu.in

Associate Professor and Mechanical Engineering Department
KLS VDIT, Haliyal, Karnataka, India.

Dr.Gururaj Hatti


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https://researchid.co/gururajhatti

EDUCATION

Ph.D. from VTU,Belagavi,Karnataka,India.


M.Tech IN PRODUCTION TECHNOLOGY
BVVS BASAVESHWARA ENGINEERING COLLEGE
(AUTONOMOUS),BAGALKOT,KARNATAKA,INDIA.


BE IN MECHANICAL ENGINEERING
UVCE ,
BANGALORE UNIVERSITY,
BANGALORE,KARNATAKA,INDIA

RESEARCH, TEACHING, or OTHER INTERESTS

Materials Science, Biomaterials, Mechanical Engineering, Metals and Alloys
12

Scopus Publications

122

Scholar Citations

7

Scholar h-index

3

Scholar i10-index

Scopus Publications

  • Mechanical and tribological performance of rice husk ash and eggshell powder reinforced sustainable composites
    Gururaj Hatti, G. J. Naveen, H. N. Reddappa, Jitendra Kumar Katiyar, T. Ramprabhu
    Discover Applied Sciences, 2026
    Heightened concerns over the exhaustion of natural mineral resources, escalating waste accumulation, and the need for lightweight materials to meet strict emission norms have spurred growing interest in sustainable aluminium-based composites. In this work, a hybrid aluminum matrix composite was developed using Al6063 as the base material and agricultural waste-derived eggshell powder (ESP) and rice husk ash (RHA) as reinforcing phases. The composites were manufactured via stir casting by varying the RHA content between 1 and 5 wt% and the ESP content between 2 and 10 wt%. The addition of ESP and RHA decreased material density while simultaneously enhancing mechanical and tribological characteristics. Compared with unreinforced Al6063, Rockwell hardness improvements of 12%, 16%, 20%, 32%, and 24% were observed, with the highest increase of 32% for the S2 composite. Compression strength showed remarkable enhancement, exhibiting increases of 409.22%, 663.8%, 361.48%, 90.96%, and 154.61% relative to the base alloy. Microstructural investigations revealed uniform dispersion of the reinforcement particles throughout the aluminum matrix, and fractographic analysis indicated a predominantly brittle fracture mechanism. The results demonstrate the potential of using low-cost agricultural waste materials to produce lightweight, cost-effective, and environmentally sustainable aluminium matrix composites suitable for advanced engineering applications.
  • Realization of introducing a non-woven veil on the interlaminar radial strength of glass-epoxy L-bend composites
    Shivakumar Gouda, Vinayak S. Uppin, I. Sridhar, G. Hatti, M. A. Umarfarooq, A. Muddebihal, K. N. Bharath, A. Edacherian
    Fracture and Structural Integrity, 2026
    This study investigates the effect of interleaving non-woven veils and their surface areal density on the curved beam strength (CBS) and interlaminar radial stress (ILRS) of glass/epoxy L-bend composite laminates. Carbon veils with areal densities of 15, 20, and 30 g/m2 , and glass veils with 25 and 30 g/m2 were used as interleaving materials. The L-bend laminates, both interleaved and non-interleaved, were fabricated using the compression moulding technique. A four-point bending test was employed to evaluate the influence of veil interleaving and areal density on CBS and ILRS. The experimental results demonstrated that interleaving with carbon and glass non-woven veils significantly affects the performance of curved laminates. Notably, the CBS of the glass/epoxy laminate improved by 88% and 17% for specimens interleaved with 15 g/m2 carbon and 30 g/m2 glass veils, respectively. Furthermore, the ILRS of carbon veil-interleaved laminates showed a strong dependence on the veil’s areal density. In contrast, interleaving with glass veils did not exhibit a significant effect on ILRS. Finally, the fracture surfaces of the tested laminates were examined using scanning electron microscopy (SEM) to identify the various failure modes in the curved region and to understand the underlying fracture mechanisms.
  • Investigation on Wear Surface Roughness and Hardness Behavior of Nano B4C Reinforced Composite with Zn85-15Sn Alloy Matrix
    Santosh. Janamatti, Mallappa Hunasikatti, Gururaj Hatti, Madeva Nagaral
    Advances in Transdisciplinary Engineering, 2025
    This research aims to investigate the impact of a minor addition of nano B4C on the tribological properties, particularly the wear and the coefficient of friction, of a Zinc alloy (85Zn-15Sn) using a pin-on-disc wear testing apparatus. The effects of different operating parameters load of 10N, 20N, 30N, and 40N, as well as sliding speeds of 1.4, 1.8, 2.3, and 2.8m/s on the tribological behavior of the composite materials with the Zn-Sn alloy were evaluated while keeping the sliding distance constant at 2000m. The wear rate and the coefficient of friction were recorded. The microstructural features of both the matrix and the worn surfaces were studied using (SEM) coupled with (EDX) spectroscopy. The research performed a systematic study on the behavior of composite materials reinforced with nano boron carbide B4C particles within a zinc tin alloy matrix, concentrating on the wear surface roughness and hardness. To evaluate the mechanical properties of matrix composites and the wear behavior of inhomogeneous matrix composites, the researchers designed the composites by incorporating different grades of nano-sized B4C particles into the alloy matrix. Within the scope of this study, it was investigated how the reinforcement of B4C affects the hardness, wear resistance, and surface roughness of the composites under different sliding conditions. The results of the study showed that increasing the content of B4C resulted in an increase in the hardness and wear resistance of the composite materials which indicates an improvement in the mechanical properties because of the high hardness and abrasive nature of B4C.
  • Influence of Agricultural Waste and Ceramic Reinforcement on the Hardness of Aluminium 7075 Hybrid Composites
    Gururaj Hatti, Rushikesh Shinde, Sandesh Mindolkar, Surendra Gavada, Rufiyat Mulimani
    International Journal of Emerging Research in Engineering Science and Management, 2025
    Metal Matrix Composites offer superior mechanical properties compared to monolithic alloys, making them highly suitable for demanding engineering applications. This study investigates the mechanical behavior of an Aluminum 7075 alloy reinforced with Tungsten Carbide (WC) and Cow Dung Ash (CDA) fabricated via stir casting. The primary objective of this study was to evaluate the effect of hybrid reinforcement on the composite's hardness. The results indicated that the incorporation of WC and CDA significantly enhanced the hardness of the Al 7075 matrix. Specifically, the hybrid composite containing 3.5 wt.% WC and 1.5 wt.% CDA exhibited the highest hardness (35 HRB), representing a substantial improvement compared to the lower-WC compositions studied. These findings suggest that modifying Al 7075 with WC and CDA is a viable strategy for developing cost-effective high-strength composites.
  • Investigation on Tribological Behavior of Al7075-TiC/Graphene Nano-composite Using Taguchi Method
    S. V. Lingaraju, Gururaj Hatti, Mahesh R. Jadhav, Mukund S. Dhuttargaon, Saleemsab Doddamani
    Journal of Bio and Tribo Corrosion, 2024
  • Green metal matrix composites: A multi-faceted study on Al alloy composites with egg shell powder and silicon carbide as reinforcements
    Gururaj Hatti, Gangarekaluve J. Naveen, Vishwanath Koti, Vinayak S. Uppin, Sannananjapla Vageshappa Lingaraju, Santosh Janamatti, Vishwanath V. Hokrani, Shivanand N. Pujar
    Metallurgical Research and Technology, 2024
    This article is about Green Metal Matrix Composites (GMMCs) produced with aluminum alloys and reinforcements include silicon carbide and eggshell powder. The GMMCs offer a new approach to sustainable materials through the use of ecofriendly reinforcements. A novel class of composites results from a combination of silicon carbide, which has superior mechanical properties, and agricultural waste based eggshell powder. Furthermore, eggshell powder mainly comprised of calcium carbonate lowers its density as well as serves as long-term reinforcement. Silicon carbide enhances their mechanical properties in terms of strength and hardness respectively. This report involves a systematic study using mechanical testing and scanning electron microscopy to explain microstructural evolution and evaluate performance during mechanical loading. Further, wear resistance gives indications on suitability for different industrial applications. Variations in reinforcement contents were done so as to include 3–12% silicon carbide, and 2–8% eggshell powders in the aluminum alloys. Production strictly adhered to guidelines that controlled some variables such as stirring speed and duration which was aimed at achieving exact control. These cast composites were subjected to wear tests, tensile tests, and hardness tests as well as microstructural analysis. EDS-SEM results demonstrate successful incorporation of the reinforcements into the hybrid composites. Unveiling a surprising evenness of distribution of reinforcements throughout the Aluminum matrix through Microstructural examination is amazing. Unique wear behavior trends are presented here. The matrix alloys show mainly adhesive wear while the composites display abrasive wear mediated by reinforcements. This research proposes an eco-friendly method for metal matrix composites, thus advancing sustainable materials and offering hope for strong yet lightweight green materials suitable for aerospace, automotive and other engineering sectors.
  • Microstructure Characterization, Mechanical and Wear Behavior of Silicon Carbide and Neem Leaf Powder Reinforced AL7075 Alloy hybrid MMC’s
    Gururaj Hatti, Avinash Lakshmikanthan, G. J. Naveen
    Frattura Ed Integrita Strutturale, 2023
    The demanding material quality criteria in the automotive and aerospace industries have recently had an impact on the development of lightweight aluminium alloys. The choice and application of metal-matrix composites as structural materials in this context are known to offer a variety of benefits. These benefits include the ability to combine high elastic modulus, toughness, and impact resistance; minimum sensitivity to change in temperature or thermal shock; durability of the surface is good; moisture absorption leads to the potential issue while minimum exposure which leads to environmental degradation; and improved fabricability with conventional metalworking equipment. Aluminium metal matrix composites (AMMCs) are a potential material for advanced structural, aviation, aerospace, marine, and defence applications, as well as for the automotive sector and other related fields, due to their outstanding combination of qualities. The stir casting procedure is used to create an aluminium metal matrix composite (AMMC), which is the most efficient way to do so. In this study, the aluminium alloy 7075 is strengthened using neem leaf powder and SiC. The Vickers hardness examination method is used to govern the hardness of hybrid composites. Eventually, the mechanical and tribological properties of the composites were assessed, and their relationship to the composites' matching microstructure and wear was addressed.
  • Influence the Graphene Filler Addition on the Tensile Behavior of Natural Kenaf Fiber-Based Hybrid Nanocomposites
    L. Natrayan, S. Kaliappan, Gururaj Hatti, Pravin P. Patil, Piyush Gaur, T. Manikandan, P. Murugan
    Journal of Nanomaterials, 2022
    In current centuries, emphasis has moved from previous resources and compounds to lightweight substances to generate softer, most effective components for particular needs. Using organic kenaf fibers with nanoreinforced epoxy polymers in a blended microbially nanocomposite can improve properties and be environmentally friendly. Adding graphene powder to the epoxy resin increases barrier and mechanical properties while maintaining rigidity without compromising toughness. To explore the impression of such parameters on the materials’ properties of the construction, a mechanical test on nanocomposite features, such as size, filler content, and treatment effect, may be utilized. The elastic behavior, tension characteristics, and stress at vintage for three types of nanobased materials were calculated using the test results: graphite raw kenaf, nanosheets and sun-bleached kenaf fibers, salinized graphene oxide, and epoxy reinforced with salinized kenaf fibers. The impact of nanocomposite magnitude, filler concentration, and filler processing on mechanical properties is carefully investigated. According to the findings, the three-weight proportion of 75 nm-sized particles with salinized filler and kenaf fiber produces the maximum mechanical performance. Compared to other combinations, these combinations increase tensile strength by 16%. However, it appears to be beneficial when it comes to strength properties and deflection. Because of flaws and cavities at the micrometer level, the framework was less robust and distorted quickly after including a nanoparticle filler.
  • Mechanicalproperties of 304 stainless steel plates and friction stir welded Al 2219 alloy
    Selvakumaran Thunaipragasam, Gururaj Hatti, R. Dhanaraj, R. Giri Prasad, P. Satheesh Kumar, M. Saravanan, S. Rajkumar
    Materials Today Proceedings, 2022
  • Effect of Silicon Content on wear and Hardness of Al-Si Alloys
    Gururaj Hatti, V H Vishwanath, K R Dinesh
    Iop Conference Series Materials Science and Engineering, 2021
    Abstract In the current work the Al-Si composite is prepared using stir casting method with variation in the percentage(4%, 6% and 8%) of the Si particles in it. stir casting method is one of the cheapest method for production of Al alloys. The prepared composites of different percentages of Si are investigated for it wears behaviour using Pin-on-Disk machine and other properties like hardness. Characterization of Worn surface of the composite is done using SEM. Among the metallic matrices, the aluminum-based matrix remains the most studied metal matrix material for the production of MMCs. This is largely due to the large variety of properties provided by aluminum-based matrix composites at low manufacturing costs. While many Metal Matrix Composites ( MMCs) are desirable for use in various industrial applications, Aluminum Matrix Composites ( AMCs) are the most commonly used in specialized applications because they combine reasonable strength, low density, durability, machinability, availability, performance and price. In aerospace applications, the excellent tribological characteristics of Al-Si and Al-Sn alloys have led to their widespread use, especially in plain bearings, cylinder liners and internal combustion pistons. It is seen that Si is uniformly distributed in the Al matrix and hardness increases to 71BHN with 8%Si in Al matrix. Further analysis revealed that the microstructure homogeneity of the samples is strongly affected its hardness and Wear rate decreases with increase in Si.
  • A Study of the effect of Tio2 and Al2O3 on tribological, mechanical properties and microstructure of Pmma and Ldpe polymer composites can used as tibial insert in total knee replacement implant
    International Journal of Scientific and Technology Research, 2019
  • Fabrication and Mechanical Characterization of Glass fibre reinforced Epoxy Hybrid Composites using Fly ash/Nano clay/Zinc oxide as filler
    Susilendra Mutalikdesai, Akshay Hadapad, Sachin Patole, Gururaj Hatti
    Iop Conference Series Materials Science and Engineering, 2018

RECENT SCHOLAR PUBLICATIONS

  • Prominence of interleaving veil areal density in modifying the mechanical response of glass epoxy laminates
    PSS Gouda, VS Uppin, S Patil, G Hatti, MA Umarfarooq, P Subhapriya, ...
    Scientific Reports , 2026
    2026
  • Mechanical and tribological performance of rice husk ash and eggshell powder reinforced sustainable composites
    G Hatti, GJ Naveen, HN Reddappa, JK Katiyar, T Ramprabhu
    Discover Applied Sciences , 2026
    2026
  • Realization of introducing non-woven veil on interlaminar radial strength of Glass Epoxy L-Bend composites
    S Gouda, VS Uppin, I Sridhar, G Hatti, MA Umarfarooq, A Muddebihal, ...
    Fracture and Structural Integrity 20 (75), 76-87 , 2026
    2026
  • Influence of Agricultural Waste and Ceramic Reinforcement on the Hardness of Aluminium 7075 Hybrid Composites
    RM Gururaj Hatti, Rushikesh Shinde, Sandesh Mindolkar, Surendra Gavada
    International Journal of Emerging Research in Engineering, Science, and … , 2025
    2025
  • Investigation on Wear Surface Roughness and Hardness Behavior of Nano B4C Reinforced Composite with Zn85-15Sn Alloy Matrix
    S Janamatti, M Hunasikatti, G Hatti, M Nagaral
    Proceedings of the 11th International Conference (MMSE 2025), Paris, France … , 2025
    2025
  • Investigation on tribological behavior of Al7075-TiC/Graphene nano-composite using Taguchi method
    SV Lingaraju, G Hatti, MR Jadhav, MS Dhuttargaon, S Doddamani
    Journal of Bio-and Tribo-Corrosion 10 (4), 110 , 2024
    2024
    Citations: 8
  • Green metal matrix composites: a multi-faceted study on Al alloy composites with egg shell powder and silicon carbide as reinforcements
    G Hatti, GJ Naveen, V Koti, VS Uppin, SV Lingaraju, S Janamatti, ...
    Metallurgical Research & Technology 121 (6), 610 , 2024
    2024
    Citations: 7
  • Eco-friendly for Sustainable Nanomaterials for Renewable Energy Storage
    JPA Jose, S Bhattacharya, VV Hokrani, G Hatti, A Ahmad, D Jaganathan
    Materials for Sustainable Energy Storage at the Nanoscale, 419-427 , 2023
    2023
  • Microstructure Characterization, Mechanical and Wear Behavior of Silicon Carbide and Neem Leaf Powder Reinforced AL7075 Alloy hybrid MMC’s.
    G Hatti, A Lakshmikanthan, GJ Naveen
    Fracture and Structural Integrity 17 (65) , 2023
    2023
    Citations: 10
  • Investigating the Effect of TiO2, CaCO3, and Al2O3 on Mechanical Properties of LDPE Polymer Composites Fabricated by Injection Moulding Technique
    KR Dinesh, G Hatti
    Technological Innovation in Engineering Research Vol. 4 4, 118-126 , 2022
    2022
  • Influence the Graphene Filler Addition on the Tensile Behavior of Natural Kenaf Fiber‐Based Hybrid Nanocomposites
    L Natrayan, S Kaliappan, G Hatti, PP Patil, P Gaur, T Manikandan, ...
    Journal of Nanomaterials 2022 (1), 3554026 , 2022
    2022
    Citations: 36
  • Mechanicalproperties of 304 stainless steel plates and friction stir welded Al 2219 alloy
    S Thunaipragasam, G Hatti, R Dhanaraj, RG Prasad, PS Kumar, ...
    Materials Today: Proceedings 59, 1388-1393 , 2022
    2022
    Citations: 4
  • Effect of silicon content on wear and hardness of Al-Si alloys
    G Hatti, VH Vishwanath, KR Dinesh
    IOP Conference Series: Materials Science and Engineering 1065 (1), 012010 , 2021
    2021
    Citations: 7
  • Tribological and Mechanical Behaviour of the Polymer Matrix Composite Reinforced with Ceramics Used as Implant Material
    KR Dinesh, G Hatti, VH Vishwanath, VS Konnur, VS Kanal
    International Journal of Innovative Technology and Exploring Engineering 9 … , 2020
    2020
  • Tribological and Mechanical Properties of UHMWPE Polymer Composite filled with TiO2 and Al2O3 Particles used as TKR Implant
    GH K R Dinesh
    International Journal of Innovative Technology and Exploring Engineering … , 2020
    2020
    Citations: 2
  • A Study Of The Effect Of Tio2 And Al2O3 On Tribological, Mechanical Properties And Microstructure Of PMMA And LDPE Polymer Composites Can Used As Tibial Insert In Total Knee …
    GH K R Dinesh
    International Journal of Scientific & Technology Research 8 (7), 5 , 2019
    2019
    Citations: 3
  • Investigation of mechanical properties of Al6061/Graphite MMC fabricated by Stir casting method
    GH Vishwanath V.H
    International Conference on Recent Trends in Industrial Innovation, Value … , 2019
    2019
  • Comparison of Microstructure and Wear Property of Al-30Pb Alloy Composite Fabricated by Spray Forming and Casting Processes
    G Hatti
    2019
  • A Study of the Effect of TiO2, CaCO3 and Al2O3 on Mechanical Properties of LDPE Polymer Composites Fabricated by Injection Moulding Technique
    HG Dinesh K. R
    Material Science Research India 15 (2), 6 , 2018
    2018
    Citations: 6
  • Fabrication and Mechanical Characterization of Glass fibre reinforced Epoxy Hybrid Composites using Fly ash/Nano clay/Zinc oxide as filler
    S Mutalikdesai, A Hadapad, S Patole, G Hatti
    IOP Conference Series: Materials Science and Engineering 376 (1), 012061 , 2018
    2018
    Citations: 30

MOST CITED SCHOLAR PUBLICATIONS

  • Influence the Graphene Filler Addition on the Tensile Behavior of Natural Kenaf Fiber‐Based Hybrid Nanocomposites
    L Natrayan, S Kaliappan, G Hatti, PP Patil, P Gaur, T Manikandan, ...
    Journal of Nanomaterials 2022 (1), 3554026 , 2022
    2022
    Citations: 36
  • Fabrication and Mechanical Characterization of Glass fibre reinforced Epoxy Hybrid Composites using Fly ash/Nano clay/Zinc oxide as filler
    S Mutalikdesai, A Hadapad, S Patole, G Hatti
    IOP Conference Series: Materials Science and Engineering 376 (1), 012061 , 2018
    2018
    Citations: 30
  • Microstructure Characterization, Mechanical and Wear Behavior of Silicon Carbide and Neem Leaf Powder Reinforced AL7075 Alloy hybrid MMC’s.
    G Hatti, A Lakshmikanthan, GJ Naveen
    Fracture and Structural Integrity 17 (65) , 2023
    2023
    Citations: 10
  • Investigation on tribological behavior of Al7075-TiC/Graphene nano-composite using Taguchi method
    SV Lingaraju, G Hatti, MR Jadhav, MS Dhuttargaon, S Doddamani
    Journal of Bio-and Tribo-Corrosion 10 (4), 110 , 2024
    2024
    Citations: 8
  • Green metal matrix composites: a multi-faceted study on Al alloy composites with egg shell powder and silicon carbide as reinforcements
    G Hatti, GJ Naveen, V Koti, VS Uppin, SV Lingaraju, S Janamatti, ...
    Metallurgical Research & Technology 121 (6), 610 , 2024
    2024
    Citations: 7
  • Effect of silicon content on wear and hardness of Al-Si alloys
    G Hatti, VH Vishwanath, KR Dinesh
    IOP Conference Series: Materials Science and Engineering 1065 (1), 012010 , 2021
    2021
    Citations: 7
  • Influence of various filler materials on mechanical characteristics of epoxy glass composites
    S Mutalikdesai, G Hatti, M Kudal, T Adappanavar, NH Vijaykumar, ...
    American Journal of Materials Science 7 (4), 99-101 , 2017
    2017
    Citations: 7
  • A Study of the Effect of TiO2, CaCO3 and Al2O3 on Mechanical Properties of LDPE Polymer Composites Fabricated by Injection Moulding Technique
    HG Dinesh K. R
    Material Science Research India 15 (2), 6 , 2018
    2018
    Citations: 6
  • Mechanicalproperties of 304 stainless steel plates and friction stir welded Al 2219 alloy
    S Thunaipragasam, G Hatti, R Dhanaraj, RG Prasad, PS Kumar, ...
    Materials Today: Proceedings 59, 1388-1393 , 2022
    2022
    Citations: 4
  • A Study Of The Effect Of Tio2 And Al2O3 On Tribological, Mechanical Properties And Microstructure Of PMMA And LDPE Polymer Composites Can Used As Tibial Insert In Total Knee …
    GH K R Dinesh
    International Journal of Scientific & Technology Research 8 (7), 5 , 2019
    2019
    Citations: 3
  • Tribological and Mechanical Properties of UHMWPE Polymer Composite filled with TiO2 and Al2O3 Particles used as TKR Implant
    GH K R Dinesh
    International Journal of Innovative Technology and Exploring Engineering … , 2020
    2020
    Citations: 2
  • Polymers used as implant Biomaterials: A review
    KRD Gururaj Hatti
    National , 2018
    2018
    Citations: 1
  • Study of wear behaviour on Hybrid Polymer matrix Composite Materials Used as Orthopedic Implants
    KR Dinesh, G Hatti
    IOSR-JMCE 6 (15), 6 , 2018
    2018
    Citations: 1
  • Prominence of interleaving veil areal density in modifying the mechanical response of glass epoxy laminates
    PSS Gouda, VS Uppin, S Patil, G Hatti, MA Umarfarooq, P Subhapriya, ...
    Scientific Reports , 2026
    2026
  • Mechanical and tribological performance of rice husk ash and eggshell powder reinforced sustainable composites
    G Hatti, GJ Naveen, HN Reddappa, JK Katiyar, T Ramprabhu
    Discover Applied Sciences , 2026
    2026
  • Realization of introducing non-woven veil on interlaminar radial strength of Glass Epoxy L-Bend composites
    S Gouda, VS Uppin, I Sridhar, G Hatti, MA Umarfarooq, A Muddebihal, ...
    Fracture and Structural Integrity 20 (75), 76-87 , 2026
    2026
  • Influence of Agricultural Waste and Ceramic Reinforcement on the Hardness of Aluminium 7075 Hybrid Composites
    RM Gururaj Hatti, Rushikesh Shinde, Sandesh Mindolkar, Surendra Gavada
    International Journal of Emerging Research in Engineering, Science, and … , 2025
    2025
  • Investigation on Wear Surface Roughness and Hardness Behavior of Nano B4C Reinforced Composite with Zn85-15Sn Alloy Matrix
    S Janamatti, M Hunasikatti, G Hatti, M Nagaral
    Proceedings of the 11th International Conference (MMSE 2025), Paris, France … , 2025
    2025
  • Eco-friendly for Sustainable Nanomaterials for Renewable Energy Storage
    JPA Jose, S Bhattacharya, VV Hokrani, G Hatti, A Ahmad, D Jaganathan
    Materials for Sustainable Energy Storage at the Nanoscale, 419-427 , 2023
    2023
  • Investigating the Effect of TiO2, CaCO3, and Al2O3 on Mechanical Properties of LDPE Polymer Composites Fabricated by Injection Moulding Technique
    KR Dinesh, G Hatti
    Technological Innovation in Engineering Research Vol. 4 4, 118-126 , 2022
    2022