AVTOMOBILSOZLIK SOHASIDA PLASTMASSALARNI QAYTA ISHLASH VA ULARNI QAYTA TIKLASH UCHUN BO‘YOQNI OLIB TASHLASH USULLARI
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https://doi.org/10.5281/zenodo.20993858##article.subject##:
qayta ishlash, polimer materiallar, avtomobilsozlik, ekologik barqarorlik, ikkilamchi xomashyo, bo‘yoqni olib tashlash.##article.abstract##
Avtomobilsozlik sanoatida yoqilg‘i sarfi va chiqindilarni kamaytirish maqsadida yengil polimer kompozit
materiallardan foydalanish tobora kengayib bormoqda. Bunday materiallarni qayta ishlash jarayonida bo‘yoq qoldiqlari
va turli kimyoviy ifloslantiruvchilar ularning estetik hamda mexanik xususiyatlariga salbiy ta’sir ko‘rsatishi mumkin.
Polimer materiallarni qayta ishlash va qayta tiklash samaradorligini oshirish uchun bo‘yoq qoplamalarini olib tashlashning
zamonaviy usullari, ularning afzalliklari va qo‘llash imkoniyatlari tahlil qilingan. Ekologik xavfsizlikni ta’minlash hamda ikkilamchi
xomashyo sifatini saqlab qolishga xizmat qiluvchi texnologik yechimlar yoritilgan.
Библиографические ссылки
European Plastics Converters. Automotive & Transport. Available online: https://www.plasticsconverters.eu/
automotiveandtransport
Interempresas Plásticos. La Mejor Alternativa Técnica para Reducir el Peso del Automóvil. Available online: https://
www.interempresas.net/Plastico/Articulos/113051-Plasticos-La-mejor-alternativa-tecnica-para-reducir-el-peso-delautomovil
O. A. Sotvoldiyev, “Polimer kompozit materiallardan tashkil topgan tribotizimlarning samaradorligini oshirish va ularning
mexanik xususiyatlari tahlili,” O‘zbekiston Milliy jurnali, vol. 14, no. 3, pp. 45–52, 2024.
A. X. Yuldashev va boshq., “Avtomobilsozlikda qo‘llaniladigan polimer va metall konstruksiyalarning ishonchliligi
hamda materialshunoslik muammolari,” Muhandislik va Texnika Muammolari, no. 2, pp. 112–119, 2025.
X. M. Xayrullo o‘g‘li, “Transport tizimlarida ekologik barqarorlik, materiallar xavfsizligi va inson omilining o‘zaro ta’siri,”
Sanoat va Ekologiya Xavfsizligi, vol. 9, no. 1, pp. 23–31, 2026.
Patil, A.; Patel, A.; Purohit, R. An Overview of Polymeric Materials for Automotive Applications. Materials Today:
Proceedings, 2017, 4, pp. 3807–3815.
Davoodi, M. M.; Sapuan, S. M.; Yunus, R. Conceptual Design of a Polymer Composite Automotive Bumper Energy
Absorber. Materials & Design, 2008, 29, pp. 1447–1452.
McAuley, J. W. Global Sustainability and Key Needs in Future Automotive Design. Environmental Science & Technology,
, 37, pp. 5414–5416.
Transport & Environment. Available online: https://www.transportenvironment.org/challenges/cars/co2-emissions/
Comisión Europea. Estrategia de Movilidad Sostenible e Inteligente: Encauzar el Transporte Europeo de Cara al
Futuro. Brussels, Belgium: Comisión Europea, 2020.
Vollmer, I.; Jenks, M. J. F.; Roelands, M. C. P.; White, R. J.; van Harmelen, T.; de Wild, P.; van der Laan, G. P.;
Meirer, F.; Keurentjes, J. T. F.; Weckhuysen, B. M. Beyond Mechanical Recycling: Giving New Life to Plastic Waste.
Angewandte Chemie International Edition, 2020, 59, pp. 15402–15423.
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