Citation: BINDING AND IMMOBILIZATION OF NANOPARTICLES AND CHEMICAL ELEMENTS. - Ecologica, S.A.Ostroumov, Moscow State University,
Цитирование.
cited publication:
Ostroumov S. A. BINDING AND IMMOBILIZATION OF NANOPARTICLES AND CHEMICAL ELEMENTS. - Ecologica, 2011, vol. 18, No. 62, pp. 129-132;
https://5bio5.blogspot.com/2018/01/citation.html
Who cited:
Tawheed, P., Shahin, F.B., Al Zabir, M.K., Mashuk, A.E.H., Alam, M. and Khan, M.N.R., 2017. Self-Lubricating Alumina. Asia Pacific Journal of Engineering Science and Technology, 3(4), pp.151-155.
Asia Pacific Journal of Engineering Science and Technology; 2017; 3 (4) (2017) 151-155;
https://www.researchgate.net/publication/271587685
Nano-materials.
Self-Lubricating Alumina Pranti Tawheed1 , Faisal Bin Shahin1 , Md. Khizir Al Zabir1 , A K Ehsanul Haque Mashuk1 , Mehdi Alam1 , Md. Nasfikur R. Khan2,*
1 Student, Department of Electrical and Electronic Engineering, Independent University, Bangladesh; 2 Lecturer, Department of Electrical and Electronic Engineering, Independent University, Bangladesh ; (Received 6 November 2017; accepted 13 December 2017; published online 23 December 2017)
ABSTRACT
Aluminium Oxide (Al2O3) is a self-lubricating based on nanocomposites. This are mostly used material in engineering sector for its high-tech structural application, stiffness, light weight, strength, elasticity and durability. Based on expert’s research, Aluminium Oxide nanocomposites are a combination of Al2O3 and a metal matrix element (Metal, Polymer or Ceramic). Self-lubricating Aluminium Oxide are widely used in many industrial applications such as laminates, adhesives and construction materials, aircraft, racing boats, aerospace and automotive applications. Technology of friction, wear and lubrication of relative motion surface is known as Tribology. In that essay/report we will try to research on technical aspects of tribological properties of self-lubricating Al2O3-based nanocomposites along with its micro structural preparation and mechanical properties. Keywords: Alumina; Self-lubricating; Tribology 1. Introduction A nanocomposite consists of both artificial or man
Цитирование.
cited publication:
Ostroumov S. A. BINDING AND IMMOBILIZATION OF NANOPARTICLES AND CHEMICAL ELEMENTS. - Ecologica, 2011, vol. 18, No. 62, pp. 129-132;
https://5bio5.blogspot.com/2018/01/citation.html
Who cited:
Tawheed, P., Shahin, F.B., Al Zabir, M.K., Mashuk, A.E.H., Alam, M. and Khan, M.N.R., 2017. Self-Lubricating Alumina. Asia Pacific Journal of Engineering Science and Technology, 3(4), pp.151-155.
Asia Pacific Journal of Engineering Science and Technology; 2017; 3 (4) (2017) 151-155;
https://www.researchgate.net/publication/271587685
Nano-materials.
Self-Lubricating Alumina Pranti Tawheed1 , Faisal Bin Shahin1 , Md. Khizir Al Zabir1 , A K Ehsanul Haque Mashuk1 , Mehdi Alam1 , Md. Nasfikur R. Khan2,*
1 Student, Department of Electrical and Electronic Engineering, Independent University, Bangladesh; 2 Lecturer, Department of Electrical and Electronic Engineering, Independent University, Bangladesh ; (Received 6 November 2017; accepted 13 December 2017; published online 23 December 2017)
ABSTRACT
Aluminium Oxide (Al2O3) is a self-lubricating based on nanocomposites. This are mostly used material in engineering sector for its high-tech structural application, stiffness, light weight, strength, elasticity and durability. Based on expert’s research, Aluminium Oxide nanocomposites are a combination of Al2O3 and a metal matrix element (Metal, Polymer or Ceramic). Self-lubricating Aluminium Oxide are widely used in many industrial applications such as laminates, adhesives and construction materials, aircraft, racing boats, aerospace and automotive applications. Technology of friction, wear and lubrication of relative motion surface is known as Tribology. In that essay/report we will try to research on technical aspects of tribological properties of self-lubricating Al2O3-based nanocomposites along with its micro structural preparation and mechanical properties. Keywords: Alumina; Self-lubricating; Tribology 1. Introduction A nanocomposite consists of both artificial or man