سیویلیکا را در شبکه های اجتماعی دنبال نمایید.

Electrical Applications of Clay-Reinforced Recycled Plastic Composites

Publish Year: 1403
Type: Journal paper
Language: English
View: 94

This Paper With 14 Page And PDF Format Ready To Download

Export:

Link to this Paper:

Document National Code:

JR_EJST-4-3_001

Index date: 7 May 2024

Electrical Applications of Clay-Reinforced Recycled Plastic Composites abstract

The search for eco-friendly and sustainable materials for electrical applications has stepped up recently, spurred on by the demand for effective, greener solutions. To meet these expectations, a promising class of materials known as clay-reinforced recycled plastic composites has evolved. Increased mechanical strength, less thermal expansion, and higher flame resistance are all benefits of incorporating clay nanoparticles into recycled plastics, which are essential for maintaining the dependability and safety of electrical systems. Clay-reinforced recycled plastic composites have been investigated for usage in various applications, including electrical ones. The waste plastic components, such as polystyrene or high-density polyethylene, are combined with clay, such as montmorillonite, to create the composites using a cold pressing technique. In comparison to the original plastic materials, the resultant composites have better mechanical, thermal, and water absorption characteristics. In addition, it has been shown that adding clay to composites improves their electrical qualities, making them appropriate for use in electrical applications. Dielectric strength, dielectric constant, and electrical conductivity tests have all been used to assess the electrical properties of the composites. According to the findings, clay-reinforced recycled plastic composites could be used in electrical applications, such as the production of electrical insulators. Utilizing these composites can help develop sustainable materials for various applications and reduce plastic waste.

Electrical Applications of Clay-Reinforced Recycled Plastic Composites Keywords:

Electrical Applications of Clay-Reinforced Recycled Plastic Composites authors

Edet Ime

Department of Chemistry Education Federal College of Education Obudu, Nigeria

Ede Ajor

Department of Bio Technology Federal University of Technology Owerri, Nigeria

Francis-Dominic Ekpan

Department of Bio Technology Federal University of Technology Owerri, Nigeria

Humphrey Samuel

Department of Chemical Sciences, Federal University Wukari, Taraba State, Nigeria

Odii Egwuatu

Department of Anatomy, Ebonyi State University, Abakaliki, Nigeria

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :
Adeniyi A.G., Ighalo J.O., Adeyanju C.A., Materials-to-product potentials for sustainable ...
Alam S.M.M., December. PI-clay nanocomposites:Synthesis and characterization. In ۲۰۰۸ International Conference ...
Andričić B., Kovačić T., Klarić I., Properties of recycled material ...
Modesti M., Besco S., Lorenzetti A., Causin V., Marega C., ...
Mohana Krishnudu D., Sreeramulu D., Reddy, P.V., Rajendra Prasad P., ...
Drzal L.T., Natural fibers, biopolymers, and biocomposites. CRC press, ۲۰۰۵ ...
Hussain M.A., Shuai Z., Moawwez M.A., Umar T., Iqbal M.R., ...
Pandey J.K., Singh R.P., Green nanocomposites from renewable resources:effect of ...
Awad W.H., Beyer G., Benderly D., Ijdo W.L., Songtipya P., ...
Sheshmani S., Ashori A., Hamzeh Y., Physical properties of polyethylene–wood ...
Tanniru M., Yuan Q., Misra R.D.K., On significant retention of ...
Tanniru M., Yuan Q., Misra R.D.K., On significant retention of ...
Belioka M.P., Markozanne G., Chrissopoulou K., Achilias D.S., Advanced Plastic ...
Abdulkareem S.A., Adeniyi A.G., Preparation and evaluation of electrical properties ...
Elloumi A., Pimbert S., Bourmaud A., Bradai C., Thermomechanical properties ...
Fatuyi O.A., samuel S.A., Characterization of the physio-chemical properties of ...
Ighalo J.O., Adeniyi A.G., Utilization of recycled polystyrene and aluminum ...
Istrate O.M., Chen B., Structure and properties of clay/recycled plastic ...
Pandey S., Zaidib M.G.H., Gururani S.K., Recent developments in clay-polymer ...
Abdulkareem S.A., Adeniyi A.G., Tensile and water absorbing properties of ...
Adeniyi A.G., Onifade D.V., Ighalo J.O. Adeoye A.S., A review ...
Dittenber D.B., GangaRao H.V., Critical review of recent publications on ...
Theng B.K.G., Formation and properties of clay-polymer complexes, Elsevier,۲۰۱۲ [Google Scholar], ...
Turku I., Keskisaari A., Kärki T., Puurtinen A., Marttila P., ...
Wang Y., Conductive thermoplastic composite blends for flow field plates for ...
Samuel H.S., Etim E.E., Shinggu J.P., Bako B., Machine learning ...
Kelnar I., Sukhanov V., Rotrekl J., Kaprálková L., Toughening of ...
Lei Y., Wu Q., Clemons C.M., Preparation and properties of ...
Lei Y., Wu Q., Clemons C.M., Yao F., Xu, Y., ...
Samuel H.S., Etim E.E., Shinggu J.P., Bako B., Machine learning ...
Zeng C., Lee L.J., Poly (methyl methacrylate) and polystyrene/clay nanocomposites ...
Zeng Q.H., Yu A.B., Lu G.Q., Paul D.R., Clay-based polymer ...
Shirvanimoghaddam K., Balaji K.V., Ahmadi M., Nazarloo H.A., Yadav R., ...
Rahman M.R., Bakri M.K.B., Matin M.M., Khui P.L.N., Micro and ...
Santos A.J., Pina L.T., Galvao J.G., Trindade G.G., Nunes R.K., ...
Velásquez E.J., Garrido L., Guarda A., Galotto M.J., De Dicastillo ...
Kracalik M., Recycled clay/PET nanocomposites evaluated by novel rheological analysis ...
Amini Z., Asghari M., Preparation and characterization of ultra-thin poly ...
Daraei P., Madaeni S.S., Salehi E., Ghaemi N., Ghari H.S., ...
نمایش کامل مراجع