How to cite this paper
Marazani, T., Akinlabi, E., Madyira, D., Majumdar, J & Pal, S. (2021). Microstructural, elemental, mechanical and structural attributes of AA1100/17-4 PH stainless steel composites fabricated via friction stir processing.Engineering Solid Mechanics, 9(4), 391-414.
Refrences
Abbasi, M., Givi, M., & Bagheri, B. (2019). Application of vibration to enhance efficiency of friction stir processing. Transactions of Nonferrous Metals Society of China, 29(7), 1393-1400.
Adamowski, J. & Szkodo, M., (2007). Friction Stir Welds (FSW) of aluminium alloy AW6082-T6. Journal of Achievements in Materials and Manufacturing Engineering, 20(1-2) 403-406.
Akinwamide, S. O., Akinribide, O. J. & Olubambi, P. A., (2021). Microstructural Evolution, Mechanical and Nanoindentation Studies of Stir Cast Binary and Ternary Aluminium Based Composites. Journal of Alloys and Compounds, 850, 1-13.
Alishavandia, M., Ebadi, M., Alishavandi, S. & Kokabi, A. H. (2020). Microstructural and Mechanical Characteristics of AA1050/Mischmetal Oxide In-situ Hybrid Surface Nanocomposite by Multi-pass Friction Stir Processing. Surface & Coatings Technology, 388.
Alishavandi, M., a, K. M. A. R., Alishavandi, M. E. S. & Kokabi, A. H. (2020). Corrosion-wear Behavior of AA1050/Mischmetal Oxides Surface Nanocomposite Fabricated by Friction Stir Processing. Journal of Alloys and Compounds, 832, 1-12.
Anand, R., & Sridhar, V. G. (2020). Studies on process parameters and tool geometry selecting aspects of friction stir welding–A review. Materials Today: Proceedings, 27, 576-583.
ASTM-International (2015). Designation: B557M-15: Standard Test Methods for Tension Testing Wrought and Cast Aluminum- and Magnesium-Alloy Products (Metric), USA: ASTM International.
ASTM-International (2017). Designation: E92-17: Standard Test Methods for Vickers Hardness and Knoop Hardness of Metallic Materials, USA: ASTM International.
Bayode, A., Akinlabi, E. T., Pityana, S. & Shongwe, M. B. (2017). Effect of Scanning Speed on Laser Deposited 17-4PH Stainless Steel. Cape Town, South Africa, s.n.
Bourkhani, R. D., Eivania, A. R., Nateghi, H. R. & Jafariana, H. R. (2020). Effects of Pin Diameter and Number of Cycles on Microstructure and Tensile Properties of Friction Stir Fabricated AA1050-Al2O3 Nanocomposite. Journal of Materials Research and Technology, 9(3) 4506-4517.
Bourkhani, R. D., Eivani, A. R. & Nateghi, H. R. (2019). Through-thickness Inhomogeneity in Microstructure and Tensile Properties and Tribological Performance of Friction Stir Processed AA1050-Al2O3 Nanocomposite. Composites Part B, 174, 1-12.
Chelladurai, S. J. S., Kumar, S. S., Venugopal, N., Ray, A. P., Manjunath, T. C., & Gnanasekaran, S. (2021). A review on mechanical properties and wear behaviour of aluminium based metal matrix composites. Materials Today: Proceedings, 37, 908-916.
Dutta, V., Thakur, L. & Singh, B. (2019). A Study on the Effect of Friction Stir Processing Technique for the Marine Applications. Materials Today: Proceedings, 18, 5048-5056.
Elfar, O. M. R., Rashad, R. M. & Megahed, H. (2016). Process Parameters Optimization for Friction Stir Welding of Pure Aluminium to Brass (CuZn30) using Taguchi Technique. MATEC Web of Conferences, 43, 1-6.
García-Vázquez, F., Vargas-Arista, B., Muñiz, R., Ortiz, J. C., García, H. H., & Acevedo, J. (2016). The role of friction stir processing (FSP) parameters on TiC reinforced surface Al7075-T651 aluminum alloy. Soldagem & Inspeção, 21(4), 508-516.
Gunasekaran, T., Vijayan, S. N., Prakash, P., & Satishkumar, P. (2020). Mechanical properties and characterization of Al7075 aluminum alloy based ZrO2 particle reinforced metal-matrix composites. Materials Today: Proceedings.
Ikumapayi, O. M. & Akinlabi, E. T. (2019). Experimental Data on Surface Roughness and Force Feedback Analysis in Friction Stir Processed AA7075 e T651 Aluminium Metal Composites. Data in brief, 23, 1-14.
Ikumapayi, O. M., Akinlabi, E. T., Majumdar, J. D. & Akinlabi, S. A. (2020). Applications of Coconut shell Ash/Particles in Modern Manufacturing: A Case Study of Friction Stir Processing. In: K. Kumar & J. P. Davim, eds. Woodhead Publishing Reviews: Mechanical Engineering Series. s.l.:Woodhead Publishing 69-95.
Ikumapayi, O., Akinlabi, E., Sharma, A., Sharma, V., & Oladijo, O. (2020). Tribological, structural and mechanical characteristics of friction stir processed aluminium-based matrix composites reinforced with stainless steel micro-particles. Engineering Solid Mechanics, 8(3), 253-270.
John, J., Shanmughanatan, S. P. & Kiran, M., 2016. Friction Stir Welding of Wrought Aluminium Alloys - A Short Review. International Journal of Engineering Trends and Technology (IJETT), 32(2) 76-81.
Ju, X., Zhang, F., Chen, Z., Ji, G., Wang, M., Wu, Y., ... & Wang, H. (2017). Microstructure of multi-pass friction-stir-processed Al-Zn-Mg-Cu alloys reinforced by nano-sized TiB2 particles and the effect of T6 heat treatment. Metals, 7(12), 530.
Kiran, A. U. & Pravala, E. K. (2017). Experimental Investigations on Tribiological Properties of 6061-T6 Al Alloy by Via Friction Stir Processing. International Journal of Advanced Engineering, Management and Science (IJAEMS), 3(10) 995-1000.
ELSayed, E. M., Ahmed, M. M., Seleman, M. M. E., & EL-Nikhaily, A. E. (2017). Effect of Number of Friction Stir Processing Passes on Mechanical Properties of SiO2/5083Al Metal Matrix Nano-Composite. Journal of Petroleum and Mining Engineering, 19(1), 10-17.
Kumar, A. S. & Praveen, V. (2017). A Review on Aluminium Based Metal Matrix Composites by Friction Stir Processing. International Journal of Latest Engineering and Management Research (IJLEMR), 02(07) 01-08.
Kumar, K., Gulati, P., Gupta, A. & Shukla, D. K. (2017). A Review of Friction Stir Processing of Aluminium Alloys Using Different Types of Reinforcements. International Journal of Mechanical Engineering and Technology (IJMET), 8(7) 1638-1651.
Kumar, S. N., Devarajaiah, R. M., & Prabhu, T. R. (2021). Review on aluminium based functionally graded composites. Materials Today: Proceedings, 39, 1743-1749.
Liu, X. C., Zhen, Y. Q., Sun, Y. F., Shen, Z. K., Chen, H. Y., Wei, G. U. O., & Li, W. Y. (2020). Local inhomogeneity of mechanical properties in stir zone of friction stir welded AA1050 aluminum alloy. Transactions of Nonferrous Metals Society of China, 30(9), 2369-2380.
Mahmoud, E. R. I. & Tash, M. M., 2016. Characterization of Aluminum-Based-Surface Matrix Composites with Iron and Iron Oxide Fabricated by Friction Stir Processing. Materials, 9(505) 1-13.
Manochehrian, A., Heidarpour, A., Mazaheri, Y. & Ghasemi, S. (2019). On the Surface Reinforcing of A356 Aluminum Alloy by Nanolayered Ti3AlC2 MAX Phase via Friction Stir Processing. Surface & Coatings Technology, 377(2019) 1-9.
Marazani, T., Akinlabi, E. T. & Madyira, D. M. (2020). Reduction of Excessive Flash in Friction Stir Processing of AA1100: An Experimental Observation Study. In: M. Awang, S. Emamian & F. Yusof, eds. Advances in Material Sciences and Engineering. Lecture Notes in Mechanical Engineering. Singapore: Springer 299-308.
Mazaheri, Y., Jalilvanda, M. M., Heidarpour, A. & Jahani, A. R. (2020). Tribological Behavior of AZ31/ZrO2 Surface Nanocomposites Developed by Friction Stir Processing. Tribology International, 143(2020) 1-14.
Mehta, M. G. & Vadher, J. A. (2020). Mechanical Characterization of Aluminum LM25 Based Metal Matrix Composite Made with Conventional Process. Materials Today: Proceedings 1-6.
El Mehtedi, M., Forcellese, A., Mancia, T., Simoncini, M., & Spigarelli, S. (2019). A new sustainable direct solid state recycling of AA1090 aluminum alloy chips by means of friction stir back extrusion process. Procedia CIRP, 79, 638-643.
Mhaske, M. S. & Shirsat, U. M. (2020). An Investigation of Mechanical Properties of Aluminium Based Silicon Carbide (AlSiC) Metal Matrix Composite by Different Manufacturing methods. Materials Today: Proceedings, 1-7.
Miranda, R., Gandra, J., & Vilaça, P. (2013). Surface modification by friction based processes. Morden Surface Engineering Treatments, Lisbon, INTECH, 1-20.
Mouli, D. S. C., Rao, R. U. M. & Kumar, A. S. (2017). A Review on Aluminium Based Metal Matrix Composites by Friction Stir Processing. International Journal of Engineering and Manufacturing Science, 7(2) 203-224 .
Narayana, K. S. L., Benal, M. M. & Shivanand, H. K. (2020). Effect of Graphite on Aluminium Matrix Composites fabricated by Stir Casting Route – A Review. Materials Today: Proceedings, 1-5.
Padhy, G. K., Wu, C. S. & Gao, S. (2018). Friction Stir Based Welding and Processing Technologies - Processes, Parameters, Microstructures and Applications: A Review. Journal of Materials Science & Technology, 34, 1-38.
Pai, K. R., Hebbale, A. M., Vishwanatha, J. S. & Sachin, B. (2020). Study of Tribological Properties on Aluminium Based Hybrid Composite Developed Through Microwave Energy. Materials Today: Proceedings, 1-6.
Rahmati, Z., Aval, H. J., Nourouzi, S. & Jamaati, R. (2020). Microstructural, Tribological, and Texture Analysis of Friction Surfaced Al-Mg-Cu clad on AA1050 Alloy. Surface & Coatings Technology, 397, 1-16.
Rao, D. S., Gupta, B. N. V. S. K. G., Rao, T. V. & Manikanta, J. E. (2020). Mechanical and Microstructural Behaviour of Aluminium/TiB2 Composites Fabricated Through Multi-pass Friction Stir Processing. Materials Today: Proceedings, 1-6.
Reddy, K. V., Naik, R. B., Reddy, G. M. & Kumar, R. A. (2020). Damping Capacity of Friction Stir Processed Commercial Pure Aluminium Metal. Materials Today: Proceedings, 27, 2061-2065.
Sampath, P., Parangodath, V. K., Udupa, K. R. & Kuruveri, U. B. (2015). Fabrication of Friction Stir Processed Al-Ni Particulate Composite and Its Impression Creep Behaviour. Journal of Composites, Volume 2015 1-9.
Shuvho, M. B. A., Chowdhury, M. A., Kchaou, M., Roy, B. K., Rahman, A., & Islam, M. A. (2020). Surface characterization and mechanical behavior of aluminum based metal matrix composite reinforced with nano Al2O3, SiC, TiO2 particles. Chemical Data Collections, 28, 100442.
Singh, N. & Belokar, R. M. (2020). Tribological Behavior of Aluminum and Magnesium-based Hybrid Metal Matrix Composites: A State-of-Art Review. Materials Today: Proceedings, 1-7.
Srivastava, A. K., Kumar, N. & Dixit, A. R. (2021). Friction Stir Additive Manufacturing – An Innovative Tool to Enhance Mechanical and Microstructural Properties. Materials Science & Engineering B, 263, 1-25.
Vijayasarathi, P. & Selvam, D. (2014). Investigation and Analysis of Metallurgical and Mechanical Properties of AA1100 using FSW. Journal of Environment and Earth Science, 4(15) 90-95.
Wang, J., Lu, X., Cheng, C., Li, B., & Ma, Z. (2020). Improve the quality of 1060Al/Q235 explosive composite plate by friction stir processing. Journal of Materials Research and Technology, 9(1), 42-51.
Yunusov, F. A. et al. (2020). Aluminum-based Composite Reinforced with Fullerene Soot. Materials Today: Proceedings, 30, 640-644.
Zamani, N. A. B. N., Iqbal, A. K. M. A. & Nuruzzaman, D. M. (2020). Tribo-mechanical Characterisation of Self-lubricating Aluminium Based Hybrid Metal Matrix Composite Fabricated via Powder Metallurgy. Materialia, 14, 1-10.
Adamowski, J. & Szkodo, M., (2007). Friction Stir Welds (FSW) of aluminium alloy AW6082-T6. Journal of Achievements in Materials and Manufacturing Engineering, 20(1-2) 403-406.
Akinwamide, S. O., Akinribide, O. J. & Olubambi, P. A., (2021). Microstructural Evolution, Mechanical and Nanoindentation Studies of Stir Cast Binary and Ternary Aluminium Based Composites. Journal of Alloys and Compounds, 850, 1-13.
Alishavandia, M., Ebadi, M., Alishavandi, S. & Kokabi, A. H. (2020). Microstructural and Mechanical Characteristics of AA1050/Mischmetal Oxide In-situ Hybrid Surface Nanocomposite by Multi-pass Friction Stir Processing. Surface & Coatings Technology, 388.
Alishavandi, M., a, K. M. A. R., Alishavandi, M. E. S. & Kokabi, A. H. (2020). Corrosion-wear Behavior of AA1050/Mischmetal Oxides Surface Nanocomposite Fabricated by Friction Stir Processing. Journal of Alloys and Compounds, 832, 1-12.
Anand, R., & Sridhar, V. G. (2020). Studies on process parameters and tool geometry selecting aspects of friction stir welding–A review. Materials Today: Proceedings, 27, 576-583.
ASTM-International (2015). Designation: B557M-15: Standard Test Methods for Tension Testing Wrought and Cast Aluminum- and Magnesium-Alloy Products (Metric), USA: ASTM International.
ASTM-International (2017). Designation: E92-17: Standard Test Methods for Vickers Hardness and Knoop Hardness of Metallic Materials, USA: ASTM International.
Bayode, A., Akinlabi, E. T., Pityana, S. & Shongwe, M. B. (2017). Effect of Scanning Speed on Laser Deposited 17-4PH Stainless Steel. Cape Town, South Africa, s.n.
Bourkhani, R. D., Eivania, A. R., Nateghi, H. R. & Jafariana, H. R. (2020). Effects of Pin Diameter and Number of Cycles on Microstructure and Tensile Properties of Friction Stir Fabricated AA1050-Al2O3 Nanocomposite. Journal of Materials Research and Technology, 9(3) 4506-4517.
Bourkhani, R. D., Eivani, A. R. & Nateghi, H. R. (2019). Through-thickness Inhomogeneity in Microstructure and Tensile Properties and Tribological Performance of Friction Stir Processed AA1050-Al2O3 Nanocomposite. Composites Part B, 174, 1-12.
Chelladurai, S. J. S., Kumar, S. S., Venugopal, N., Ray, A. P., Manjunath, T. C., & Gnanasekaran, S. (2021). A review on mechanical properties and wear behaviour of aluminium based metal matrix composites. Materials Today: Proceedings, 37, 908-916.
Dutta, V., Thakur, L. & Singh, B. (2019). A Study on the Effect of Friction Stir Processing Technique for the Marine Applications. Materials Today: Proceedings, 18, 5048-5056.
Elfar, O. M. R., Rashad, R. M. & Megahed, H. (2016). Process Parameters Optimization for Friction Stir Welding of Pure Aluminium to Brass (CuZn30) using Taguchi Technique. MATEC Web of Conferences, 43, 1-6.
García-Vázquez, F., Vargas-Arista, B., Muñiz, R., Ortiz, J. C., García, H. H., & Acevedo, J. (2016). The role of friction stir processing (FSP) parameters on TiC reinforced surface Al7075-T651 aluminum alloy. Soldagem & Inspeção, 21(4), 508-516.
Gunasekaran, T., Vijayan, S. N., Prakash, P., & Satishkumar, P. (2020). Mechanical properties and characterization of Al7075 aluminum alloy based ZrO2 particle reinforced metal-matrix composites. Materials Today: Proceedings.
Ikumapayi, O. M. & Akinlabi, E. T. (2019). Experimental Data on Surface Roughness and Force Feedback Analysis in Friction Stir Processed AA7075 e T651 Aluminium Metal Composites. Data in brief, 23, 1-14.
Ikumapayi, O. M., Akinlabi, E. T., Majumdar, J. D. & Akinlabi, S. A. (2020). Applications of Coconut shell Ash/Particles in Modern Manufacturing: A Case Study of Friction Stir Processing. In: K. Kumar & J. P. Davim, eds. Woodhead Publishing Reviews: Mechanical Engineering Series. s.l.:Woodhead Publishing 69-95.
Ikumapayi, O., Akinlabi, E., Sharma, A., Sharma, V., & Oladijo, O. (2020). Tribological, structural and mechanical characteristics of friction stir processed aluminium-based matrix composites reinforced with stainless steel micro-particles. Engineering Solid Mechanics, 8(3), 253-270.
John, J., Shanmughanatan, S. P. & Kiran, M., 2016. Friction Stir Welding of Wrought Aluminium Alloys - A Short Review. International Journal of Engineering Trends and Technology (IJETT), 32(2) 76-81.
Ju, X., Zhang, F., Chen, Z., Ji, G., Wang, M., Wu, Y., ... & Wang, H. (2017). Microstructure of multi-pass friction-stir-processed Al-Zn-Mg-Cu alloys reinforced by nano-sized TiB2 particles and the effect of T6 heat treatment. Metals, 7(12), 530.
Kiran, A. U. & Pravala, E. K. (2017). Experimental Investigations on Tribiological Properties of 6061-T6 Al Alloy by Via Friction Stir Processing. International Journal of Advanced Engineering, Management and Science (IJAEMS), 3(10) 995-1000.
ELSayed, E. M., Ahmed, M. M., Seleman, M. M. E., & EL-Nikhaily, A. E. (2017). Effect of Number of Friction Stir Processing Passes on Mechanical Properties of SiO2/5083Al Metal Matrix Nano-Composite. Journal of Petroleum and Mining Engineering, 19(1), 10-17.
Kumar, A. S. & Praveen, V. (2017). A Review on Aluminium Based Metal Matrix Composites by Friction Stir Processing. International Journal of Latest Engineering and Management Research (IJLEMR), 02(07) 01-08.
Kumar, K., Gulati, P., Gupta, A. & Shukla, D. K. (2017). A Review of Friction Stir Processing of Aluminium Alloys Using Different Types of Reinforcements. International Journal of Mechanical Engineering and Technology (IJMET), 8(7) 1638-1651.
Kumar, S. N., Devarajaiah, R. M., & Prabhu, T. R. (2021). Review on aluminium based functionally graded composites. Materials Today: Proceedings, 39, 1743-1749.
Liu, X. C., Zhen, Y. Q., Sun, Y. F., Shen, Z. K., Chen, H. Y., Wei, G. U. O., & Li, W. Y. (2020). Local inhomogeneity of mechanical properties in stir zone of friction stir welded AA1050 aluminum alloy. Transactions of Nonferrous Metals Society of China, 30(9), 2369-2380.
Mahmoud, E. R. I. & Tash, M. M., 2016. Characterization of Aluminum-Based-Surface Matrix Composites with Iron and Iron Oxide Fabricated by Friction Stir Processing. Materials, 9(505) 1-13.
Manochehrian, A., Heidarpour, A., Mazaheri, Y. & Ghasemi, S. (2019). On the Surface Reinforcing of A356 Aluminum Alloy by Nanolayered Ti3AlC2 MAX Phase via Friction Stir Processing. Surface & Coatings Technology, 377(2019) 1-9.
Marazani, T., Akinlabi, E. T. & Madyira, D. M. (2020). Reduction of Excessive Flash in Friction Stir Processing of AA1100: An Experimental Observation Study. In: M. Awang, S. Emamian & F. Yusof, eds. Advances in Material Sciences and Engineering. Lecture Notes in Mechanical Engineering. Singapore: Springer 299-308.
Mazaheri, Y., Jalilvanda, M. M., Heidarpour, A. & Jahani, A. R. (2020). Tribological Behavior of AZ31/ZrO2 Surface Nanocomposites Developed by Friction Stir Processing. Tribology International, 143(2020) 1-14.
Mehta, M. G. & Vadher, J. A. (2020). Mechanical Characterization of Aluminum LM25 Based Metal Matrix Composite Made with Conventional Process. Materials Today: Proceedings 1-6.
El Mehtedi, M., Forcellese, A., Mancia, T., Simoncini, M., & Spigarelli, S. (2019). A new sustainable direct solid state recycling of AA1090 aluminum alloy chips by means of friction stir back extrusion process. Procedia CIRP, 79, 638-643.
Mhaske, M. S. & Shirsat, U. M. (2020). An Investigation of Mechanical Properties of Aluminium Based Silicon Carbide (AlSiC) Metal Matrix Composite by Different Manufacturing methods. Materials Today: Proceedings, 1-7.
Miranda, R., Gandra, J., & Vilaça, P. (2013). Surface modification by friction based processes. Morden Surface Engineering Treatments, Lisbon, INTECH, 1-20.
Mouli, D. S. C., Rao, R. U. M. & Kumar, A. S. (2017). A Review on Aluminium Based Metal Matrix Composites by Friction Stir Processing. International Journal of Engineering and Manufacturing Science, 7(2) 203-224 .
Narayana, K. S. L., Benal, M. M. & Shivanand, H. K. (2020). Effect of Graphite on Aluminium Matrix Composites fabricated by Stir Casting Route – A Review. Materials Today: Proceedings, 1-5.
Padhy, G. K., Wu, C. S. & Gao, S. (2018). Friction Stir Based Welding and Processing Technologies - Processes, Parameters, Microstructures and Applications: A Review. Journal of Materials Science & Technology, 34, 1-38.
Pai, K. R., Hebbale, A. M., Vishwanatha, J. S. & Sachin, B. (2020). Study of Tribological Properties on Aluminium Based Hybrid Composite Developed Through Microwave Energy. Materials Today: Proceedings, 1-6.
Rahmati, Z., Aval, H. J., Nourouzi, S. & Jamaati, R. (2020). Microstructural, Tribological, and Texture Analysis of Friction Surfaced Al-Mg-Cu clad on AA1050 Alloy. Surface & Coatings Technology, 397, 1-16.
Rao, D. S., Gupta, B. N. V. S. K. G., Rao, T. V. & Manikanta, J. E. (2020). Mechanical and Microstructural Behaviour of Aluminium/TiB2 Composites Fabricated Through Multi-pass Friction Stir Processing. Materials Today: Proceedings, 1-6.
Reddy, K. V., Naik, R. B., Reddy, G. M. & Kumar, R. A. (2020). Damping Capacity of Friction Stir Processed Commercial Pure Aluminium Metal. Materials Today: Proceedings, 27, 2061-2065.
Sampath, P., Parangodath, V. K., Udupa, K. R. & Kuruveri, U. B. (2015). Fabrication of Friction Stir Processed Al-Ni Particulate Composite and Its Impression Creep Behaviour. Journal of Composites, Volume 2015 1-9.
Shuvho, M. B. A., Chowdhury, M. A., Kchaou, M., Roy, B. K., Rahman, A., & Islam, M. A. (2020). Surface characterization and mechanical behavior of aluminum based metal matrix composite reinforced with nano Al2O3, SiC, TiO2 particles. Chemical Data Collections, 28, 100442.
Singh, N. & Belokar, R. M. (2020). Tribological Behavior of Aluminum and Magnesium-based Hybrid Metal Matrix Composites: A State-of-Art Review. Materials Today: Proceedings, 1-7.
Srivastava, A. K., Kumar, N. & Dixit, A. R. (2021). Friction Stir Additive Manufacturing – An Innovative Tool to Enhance Mechanical and Microstructural Properties. Materials Science & Engineering B, 263, 1-25.
Vijayasarathi, P. & Selvam, D. (2014). Investigation and Analysis of Metallurgical and Mechanical Properties of AA1100 using FSW. Journal of Environment and Earth Science, 4(15) 90-95.
Wang, J., Lu, X., Cheng, C., Li, B., & Ma, Z. (2020). Improve the quality of 1060Al/Q235 explosive composite plate by friction stir processing. Journal of Materials Research and Technology, 9(1), 42-51.
Yunusov, F. A. et al. (2020). Aluminum-based Composite Reinforced with Fullerene Soot. Materials Today: Proceedings, 30, 640-644.
Zamani, N. A. B. N., Iqbal, A. K. M. A. & Nuruzzaman, D. M. (2020). Tribo-mechanical Characterisation of Self-lubricating Aluminium Based Hybrid Metal Matrix Composite Fabricated via Powder Metallurgy. Materialia, 14, 1-10.