Comparative Investigation of Epoxy-terminated and Carboxyl-terminated Butadiene Nitrile Rubber for Toughened Epoxy Resins

Purva Uniyal; Piyush Gaur; Jitendra Yadav; Punya Bansal; Neelanchali Asija Bhalla

Comparative Investigation of Epoxy-terminated and Carboxyl-terminated Butadiene Nitrile Rubber for Toughened Epoxy Resins

محل انتشار: مجله مکانیک سازه های پیشرفته کامپوزیت، دوره: 14، شماره: 1

سال انتشار: 1406

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 26

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https://civilica.com/doc/2614526

شناسه ملی سند علمی:

JR_MACS-14-1_007

تاریخ نمایه سازی: 5 خرداد 1405

چکیده مقاله:

The research presents how Carboxyl Terminated Butadiene Nitrile (CTBN) and Epoxy Terminated Butadiene Nitrile (ETBN) types of Reactive Liquid Rubber (RLR) influence epoxy resins through rheological, thermal, and mechanical property assessments. The use of recycled waste rubber creates sustainable high-performance additives through waste material transformation. Various mechanical, thermal, and rheological tests assessed the effects of CTBN and ETBN concentrations on their viscosity behaviour, mechanical properties, and curing process of the epoxy system used. The thermal stability of the ETBN and CTBN systems was analyzed by using Thermogravimetric Analysis (TGA) to determine decomposition temperatures and stability measurements. A complete set of mechanical tests measured tensile strength, flexural strength, and impact strength. Toughness improvements reached their peak with ۲.۵ wt.% ETBN addition resulting in a ۴۲.۲% increase in ultimate tensile strength, a ۱۰۳.۸% increase in tensile modulus, a ۲۶.۹% improvement in toughness, and a ۶۷.۶۵% increase in impact strength while maintaining all other properties. Also, ۵ wt.% CTBN incorporation into the epoxy polymer leads to ۳۰% increment in ultimate tensile strength, ۴۹.۵% increase in ultimate flexural strength, ۶۸% increase in tensile modulus, and ۳۰۰% increase in impact strength. So, both CTBN and ETBN are said to be effective tougheners that can be used to enhance the toughness of the overall matrix system while balancing other mechanical properties. The investigation highlights how the termination chemistry affects phase separation and interfacial adhesion, ultimately leading to improved performance for its applications in automotive and aerospace industries. The innovative use of recycled ETBN and CTBN thus creates a way for the development of sustainable solutions that deliver economic benefits and environmental advantages.

کلیدواژه ها:

CTBN ، ETBN ، Epoxy Polymer ، Toughness ، Recycled waste rubber

نویسندگان

Purva Uniyal

Department of Mechanical & Aerospace Engineering, School of Advanced Engineering, Bidholi Campus, UPES, Dehradun, ۲۴۸۰۰۷, India

Piyush Gaur

Department of Mechanical & Aerospace Engineering, School of Advanced Engineering, Bidholi Campus, UPES, Dehradun, ۲۴۸۰۰۷, India

Jitendra Yadav

Department of Mechanical & Aerospace Engineering, School of Advanced Engineering, Bidholi Campus, UPES, Dehradun, ۲۴۸۰۰۷, India

Punya Bansal

Department of Mechanical & Aerospace Engineering, School of Advanced Engineering, Bidholi Campus, UPES, Dehradun, ۲۴۸۰۰۷, India

Neelanchali Asija Bhalla

Mechanical Engineering Department, School of Engineering and Applied Sciences, Bennett University, Greater Noida, UP, ۲۰۱۳۱۰, India

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Pulikkalparambil, H., M R, S., Siengchin, S. and Parameswaranpillai, J., ...
Harle, S.M., ۲۰۲۴. Durability and long-term performance of fiber reinforced ...
Abdellaoui, H., Raji, M., Bouhfid, R. and Qaiss, A.E.K., ۲۰۱۹. ...
Liu, S., Chevali, V.S., Xu, Z., Hui, D. and Wang, ...
Zheng, T. et al., ۲۰۲۰. The curing kinetics and mechanical ...
Pearson, R.A. and Yee, A.F., ۱۹۸۹. Toughening mechanisms in elastomer-modified ...
Vijayan, P.P., Puglia, D., Al-Maadeed, M.A.S.A., Kenny, J.M. and Thomas, ...
Padinjakkara, A., ۲۰۲۰. The role of modified nano fumed silica ...
Wang, J., Zhang, X., Jiang, L. and Qiao, J., ۲۰۱۹. ...
Senthamaraikannan, C. and Ramesh, R., ۲۰۱۹. Evaluation of mechanical and ...
Awang Ngah, S. and Taylor, A.C., ۲۰۱۸. Fracture behaviour of ...
Rao, Y.A., Ramji, K., Rao, P.S. and Srikanth, I., ۲۰۱۹. ...
Chikhi, N., Fellahi, S. and Bakar, M., ۲۰۰۲. Modification of ...
Thomas, S., Sinturel, C. and Thomas, R., ۲۰۱۴. Micro and ...
P, C.M. and Dechamma, A.C., ۲۰۲۱. Toughening of unsaturated polyester ...
Chandrasekaran, V.C., ۲۰۰۷. Introduction. In: Essential Rubber Formulary. William Andrew ...
Mi, X. et al., ۲۰۲۲. Toughness and its mechanisms in ...
Chen, Z. and Yu, R., ۲۰۲۴. Synergistic effect of phenolic ...
Turkben, M. et al., ۲۰۲۳. Sustainable production of recycled rubber ...
Baghdadi, Y.N. et al., ۲۰۲۰. Effects of modified zinc oxide ...
El-Masry, M.M., Ramadan, R. and Ahmed, M.K., ۲۰۲۰. Effect of ...
Kim, J.K. et al., ۲۰۱۸. Rubber recycling: Challenges and developments ...
Sousa, F.D.B., ۲۰۲۳. Recycling of ground tire rubber. Springer, pp.۹۷–۱۱۰ ...
Rani, A. et al., ۲۰۲۵. Sustainable manufacturing for rubber waste ...
Wang, D. et al., ۲۰۲۳. Strengthening and toughening technology of ...
Ozturk, A., Kaynak, C. and Tincer, T., ۲۰۰۱. Effects of ...
Grishchuk, S. et al., ۲۰۱۳. Properties of DDM-hardened epoxy hybrids. ...
Chen, D. et al., ۲۰۲۲. Strategy to improve toughness of ...
Li, C.Q. et al., ۲۰۲۰. Comparative study on epoxy modified ...
Xu, P. et al., ۲۰۲۲. Phase structure of epoxy asphalt ...
Zhou, W. et al., ۲۰۲۴. Advances in liquid crystal epoxy. ...
Ruan, K. et al., ۲۰۲۱. Liquid crystal epoxy resins: A ...
Wu, Q. et al., ۲۰۲۳. Epoxy/silicone rubber networks for thermal ...
Pang, B. et al., ۲۰۲۱. Interpenetrating polymer networks in epoxy ...
Heng, Z. et al., ۲۰۲۲. Core-shell nanostructures for epoxy composites. ...
Su, W. et al., ۲۰۲۱. Microstructure of epoxy asphalt binders. ...
Ning, N., Qiu, Y. and Wei, Y., ۲۰۲۱. Core/shell nanoparticles ...
Yang, S. et al., ۲۰۲۴. Techniques for enhancing epoxy asphalt ...
Lee, M. et al., ۲۰۲۲. Amphiphilic block copolymer reinforced epoxy ...
Pang, V. et al., ۲۰۲۲. Adhesion of silica toughened epoxy ...
Long, J., Li, C. and Li, Y., ۲۰۲۲. Enhancement of ...
Mousavi, S.R. et al., ۲۰۲۲. Electrical and thermal conductivity of ...
Mostovoy, A. et al., ۲۰۲۲. Reinforced epoxy composites with graphene ...
Lv, R. et al., ۲۰۲۲. Thermal conductivity of graphene epoxy ...
Qiu, C. et al., ۲۰۲۲. Thermal degradation of organosilicon modified ...
Huntsman, n.d. Araldite ® casting system - product information ...
Huntsman, ۲۰۲۰. Technical datasheet: CTBN ...
Huntsman, ۲۰۲۰. Advanced materials product information ...
Deshmukh, K. et al., ۲۰۲۰. Mechanical analysis of polymers. Elsevier, ...
Hawal, T.T. et al., ۲۰۲۰. Synergetic effect of rubber in ...
Wang, S. et al., ۲۰۲۱. Nano-silica reinforced epoxy composites. High ...
Bao, S. et al., ۲۰۲۳. Synergistic effect of rubber and ...
da Silva, R., ۲۰۲۲. Equations for flexural tests. doi: ۱۰.۵۲۸۱/zenodo.۷۳۰۱۸۹۶ ...
Beer, F.P., Johnston, E.R. and DeWolf, J.T., ۲۰۰۶. Mechanics of ...
Kim, Y., Lee, S. and Yoon, H., ۲۰۲۱. Fire-safe polymer ...
Dasari, A. et al., ۲۰۱۳. Fire retardancy of polymeric materials. ...
Bagheri, R., Marouf, B.T. and Pearson, R.A., ۲۰۰۹. Rubber-toughened epoxies: ...
Kinloch, A.J. et al., ۱۹۸۳. Deformation and fracture behaviour of ...
Sun, Z. et al., ۲۰۱۹. Enhancing epoxy properties using polysulfone. ...
Bazrgari, D. et al., ۲۰۱۸. Mechanical and tribological properties of ...
Mustafa, B.S. et al., ۲۰۲۲. Improving properties of epoxy nanocomposites ...
Banan, A., Ebadirad, A. and Ebrahimabadi, Y., ۲۰۲۴. Effect of ...
Yang, J.P. et al., ۲۰۰۸. Improvements in epoxy resins using ...
Denish Davis, K.A. et al., ۲۰۱۵. Design and analysis of ...

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