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PLA is naturally Occurs organically is acidic. Therefore, the Making PLA an eco-friendly material can be used. Although there are many ways to synthesize PLA, None of them are simple or not easy ones implement. Research significance: Polylactic acid (PLA) is biodegradable and Recyclable made of polyester. Glucose or A Lactic acid by fermentation of sucrose is produced as a raw material and more refined to purity. Methology: Therefore, they need a lot of care and attention. Fuzzy TOPSIS method, a more classical MCDM one of the methods is known as and developed by lee, The basic concept of this method is, Selected Alternative: Young’s Modulus (GPa), Ultimate Tensile Strength (MPa), Elongation (%) and impact toughness (kJ/m2). Evaluation Option: Pure PLLA, PLLA–BCF2, MA-PLLA–BCF2, PLLA–KBCF2, PLLA–NBCF2. Result: from the result it is seen that MA-PLLA–BCF2 and is got the first rank whereas is the PLLA–KBCF2 got is having the lowest rank. Conclusion: The value of the dataset for Poly (lactic acid) in Fuzzy TOPSIS method shows that it results in MA-PLLA–BCF2 and top ranking.
Liu, Shan, Shuhao Qin, Min He, Dengfeng Zhou, Qingdong Qin, and Hao Wang. “Current applications of poly (lactic acid) composites in tissue engineering and drug delivery.” Composites Part B: Engineering199 (2020): 108238.
Lee, Sun-Young, In-Aeh Kang, Geum-Hyun Doh, Ho-Gyu Yoon, Byung-Dae Park, and Qinglin Wu. “Thermal and mechanical properties of wood flour/talc-filled polylactic acid composites: Effect of filler content and coupling treatment.” Journal of Thermoplastic Composite Materials21, no. 3 (2008): 209-223.
Wang, Ning, Xingxiang Zhang, Xiaofei Ma, and Jianming Fang. “Influence of carbon black on the properties of plasticized poly (lactic acid) composites.” Polymer Degradation and Stability93, no. 6 (2008): 1044-1052.
Qin, Lijun, Jianhui Qiu, Mingzhu Liu, Shenglong Ding, Liang Shao, Shaoyu Lü, Guohong Zhang, Yang Zhao, and Xie Fu. “Mechanical and thermal properties of poly (lactic acid) composites with rice straw fiber modified by poly (butyl acrylate).” Chemical Engineering Journal166, no. 2 (2011): 772-778.
Li, Wenhao, Xiaoyu He, Yingfeng Zuo, Shu Wang, and Yiqiang Wu. “Study on the compatible interface of bamboo fiber/polylactic acid composites by in-situ solid phase grafting.” International journal of biological macromolecules141 (2019): 325-332.
Botta, Luigi, Vincenzo Fiore, Tommaso Scalici, Antonino Valenza, and Roberto Scaffaro. “New polylactic acid composites reinforced with artichoke fibers.” Materials8, no. 11 (2015): 7770-7779.
Pérez-Ramírez, J., F. Kapteijn, G. Mul, and J. A. Moulijn. “Superior performance of ex-framework FeZSM-5 in direct N2O decomposition in tail-gases from nitric acid plants.” Chemical Communications8 (2001): 693-694.
Islam, M. S., K. L. Pickering, and N. J. Foreman. “Influence of alkali treatment on the interfacial and physico-mechanical properties of industrial hemp fibre reinforced polylactic acid composites.” Composites Part A: Applied Science and Manufacturing41, no. 5 (2010): 596-603.
Yuzay, Isinay E., Rafael Auras, Herlinda Soto-Valdez, and Susan Selke. “Effects of synthetic and natural zeolites on morphology and thermal degradation of poly (lactic acid) composites.” Polymer Degradation and Stability 95, no. 9 (2010): 1769-1777.
Jin, Xiaodong, Suping Cui, Shibing Sun, Xiaoyu Gu, Hongfei Li, Xiaodong Liu, Wufei Tang, Jun Sun, Serge Bourbigot, and Sheng Zhang. “The preparation of a bio-polyelectrolytes based core-shell structure and its application in flame retardant polylactic acid composites.” Composites Part A: Applied Science and Manufacturing124 (2019): 105485.
Kaseem, Mosab, Kotiba Hamad, and Zeeshan Ur Rehman. “Review of recent advances in polylactic acid/TiO2 composites.” Materials12, no. 22 (2019): 3659.
Bychanok, D., P. Angelova, A. Paddubskaya, D. Meisak, L. Shashkova, M. Demidenko, A. Plyushch et al. “Terahertz absorption in graphite nanoplatelets/polylactic acid composites.” Journal of Physics D: Applied Physics51, no. 14 (2018): 145307.
Le Phuong, Hai Anh, Nor Amira Izzati Ayob, Christopher F. Blanford, Nurul Fazita Mohammad Rawi, and Gyorgy Szekely. “Nonwoven membrane supports from renewable resources: Bamboo fiber reinforced poly (lactic acid) composites.” ACS Sustainable Chemistry & Engineering 7, no. 13 (2019): 11885-11893.
Song, Young Seok, Jung Tae Lee, Dong Sun Ji, Myung Wook Kim, Seung Hwan Lee, and Jae Ryoun Youn. “Viscoelastic and thermal behavior of woven hemp fiber reinforced poly (lactic acid) composites.” Composites Part B: Engineering43, no. 3 (2012): 856-860.
feng Zuo, Ying, Jiyou Gu, Zhibang Qiao, Haiyan Tan, Jun Cao, and Yanhua Zhang. “Effects of dry method esterification of starch on the degradation characteristics of starch/polylactic acid composites.” International journal of biological macromolecules72 (2015): 391-402.
Van den Oever, M. J. A., B. Beck, and J. Müssig. “Agrofibre reinforced poly (lactic acid) composites: Effect of moisture on degradation and mechanical properties.” Composites Part A: Applied Science and Manufacturing 41, no. 11 (2010): 1628-1635.
Anugwom, Ikenna, Ville Lahtela, Mari Kallioinen, and Timo Kärki. “Lignin as a functional additive in a biocomposite: Influence on mechanical properties of polylactic acid composites.” Industrial crops and products140 (2019): 111704.
Hamad, K., M. Kaseem, H. W. Yang, F. Deri, and Y. G. Ko. “Properties and medical applications of polylactic acid: A review.” Express polymer letters9, no. 5 (2015).
Kumar, Rakesh, Mohammed K. Yakabu, and Rajesh D. Anandjiwala. “Effect of montmorillonite clay on flax fabric reinforced poly lactic acid composites with amphiphilic additives.” Composites Part A: Applied Science and Manufacturing41, no. 11 (2010): 1620-1627.
Ndazi, Bwirw S., and Sten Karlsson. “Characterization of hydrolytic degradation of polylactic acid/rice hulls composites in water at different temperatures.” Express Polymer Letters5, no. 2 (2011).
Bindhu, B., R. Renisha, Libin Roberts, and T. O. Varghese. “Boron Nitride reinforced polylactic acid composites film for packaging: Preparation and properties.” Polymer Testing66 (2018): 172-177.
Wang, Tao, and Lawrence T. Drzal. “Cellulose-nanofiber-reinforced poly (lactic acid) composites prepared by a water-based approach.” ACS applied materials & interfaces4, no. 10 (2012): 5079-5085.
Li, Jianmin, Xinyue Xu, Zhenxing Yao, and Yi Lu. “Improving service quality with the fuzzy TOPSIS method: a case study of the Beijing rail transit system.” Ieee Access7 (2019): 114271-114284.
Amin, Fazli, Aliya Fahmi, and Saleem Abdullah. “Dealer using a new trapezoidal cubic hesitant fuzzy TOPSIS method and application to group decision-making program.” Soft Computing23, no. 14 (2019): 5353-5366.
Tan, Yong‐tao, Li‐yin Shen, Craig Langston, and Yan Liu. “Construction project selection using fuzzy TOPSIS approach.” Journal of modelling in management(2010).
Taylan, Osman, Abdallah O. Bafail, Reda MS Abdulaal, and Mohammed R. Kabli. “Construction projects selection and risk assessment by fuzzy AHP and fuzzy TOPSIS methodologies.” Applied Soft Computing17 (2014): 105-116.
Sharma, Parveen, and Sandeep Singhal. “Implementation of fuzzy TOPSIS methodology in selection of procedural approach for facility layout planning.” The International Journal of Advanced Manufacturing Technology88, no. 5 (2017): 1485-1493.
Guo, Sen, and Huiru Zhao. “Optimal site selection of electric vehicle charging station by using fuzzy TOPSIS based on sustainability perspective.” Applied Energy158 (2015): 390-402.
Haddad, Assed N., Bruno BF da Costa, Larissa S. de Andrade, Ahmed Hammad, and Carlos AP Soares. “Application of fuzzy-TOPSIS method in supporting supplier selection with focus on HSE criteria: A case study in the oil and gas industry.” Infrastructures6, no. 8 (2021): 105.
Ashtiani, Behzad, Farzad Haghighirad, Ahmad Makui, and Golam ali Montazer. “Extension of fuzzy TOPSIS method based on interval-valued fuzzy sets.” Applied Soft Computing9, no. 2 (2009): 457-461.
Jahanshahloo, Gholam Reza, F. Hosseinzadeh Lotfi, and Mohammad Izadikhah. “Extension of the TOPSIS method for decision-making problems with fuzzy data.” Applied mathematics and computation181, no. 2 (2006): 1544-1551.
Baykasoğlu, Adil, Vahit Kaplanoğlu, Zeynep DU Durmuşoğlu, and Cenk Şahin. “Integrating fuzzy DEMATEL and fuzzy hierarchical TOPSIS methods for truck selection.” Expert Systems with Applications40, no. 3 (2013): 899-907.
Rahimdel, Mohammad Javad, and Mohammad Karamoozian. “Fuzzy TOPSIS method to primary crusher selection for Golegohar Iron Mine (Iran).” Journal of Central South University21, no. 11 (2014): 4352-4359.
Dağdeviren, Metin, Serkan Yavuz, and Nevzat Kılınç. “Weapon selection using the AHP and TOPSIS methods under fuzzy environment.” Expert systems with applications36, no. 4 (2009): 8143-8151.
Torfi, Fatemeh, Reza Zanjirani Farahani, and Shabnam Rezapour. “Fuzzy AHP to determine the relative weights of evaluation criteria and Fuzzy TOPSIS to rank the alternatives.” Applied soft computing10, no. 2 (2010): 520-528.
Balioti, Vasiliki, Christos Tzimopoulos, and Christos Evangelides. “Multi-criteria decision making using TOPSIS method under fuzzy environment. Application in spillway selection.” Multidisciplinary Digital Publishing Institute Proceedings2, no. 11 (2018): 637.
Jaber, Hadi, Franck Marle, Ludovic-Alexandre Vidal, Ilkan Sarigol, and Lionel Didiez. “A Framework to Evaluate Project Complexity Using the Fuzzy TOPSIS Method.” Sustainability13, no. 6 (2021): 3020.
Wang, Tien-Chin, and Hsien-Da Lee. “Developing a fuzzy TOPSIS approach based on subjective weights and objective weights.” Expert systems with applications36, no. 5 (2009): 8980-8985.
Singh, Ritesh Kumar, and Lyes Benyoucef. “A fuzzy TOPSIS based approach for e-sourcing.” Engineering Applications of Artificial Intelligence24, no. 3 (2011): 437-448.
Yucesan, Melih, Suleyman Mete, Faruk Serin, Erkan Celik, and Muhammet Gul. “An integrated best-worst and interval type-2 fuzzy TOPSIS methodology for green supplier selection.” Mathematics7, no. 2 (2019): 182.
Kolios, Athanasios J., Anietie Umofia, and Mahmood Shafiee. “Failure mode and effects analysis using a fuzzy-TOPSIS method: a case study of subsea control module.” International Journal of Multicriteria Decision Making7, no. 1 (2017): 29-53.
Solangi, Yasir Ahmed, Cheng Longsheng, and Syed Ahsan Ali Shah. “Assessing and overcoming the renewable energy barriers for sustainable development in Pakistan: An integrated AHP and fuzzy TOPSIS approach.” Renewable Energy173 (2021): 209-222.
Ashwini Murugan, “Superior Performance Analysis of Poly (lactic acid) Composites Using Fuzzy TOPSIS Method”, Journal on Materials and its Characterization, 1(2), (2022):18-26.