DESIGN AND FABRICATION OF ALUMINUM BASED WS2 NANOCOMPOSITE THROUGH POWDER METALLURGY

In this research paper, experimental studies on the fabrication of
Aluminum based metal matrix composites composed are presented. The Aluminum
based metal matrix composite was developed with varying percentage of WS2.
Physical and mechanical properties were measured to assess the influence of
addition of WS2 on density and micro hardness of composite

Name of journalTechnical science and innovation
Number of edition2022,№1(11)
View count86

Web Address

DOI

Date of creation in the UzSCI system06-09-2022

Read count86

Date of publication30-06-2022

Main LanguageIngliz

Pages96-103

Tags

metal matrix composite (MMC)

Ceramic matrix composite (CMC)

coat

optical microscope (OM)

scanning electron microscope (SEM)

English

In this research paper, experimental studies on the fabrication of
Aluminum based metal matrix composites composed are presented. The Aluminum
based metal matrix composite was developed with varying percentage of WS2.
Physical and mechanical properties were measured to assess the influence of
addition of WS2 on density and micro hardness of composite

Tags

metal matrix composite (MMC)

Ceramic matrix composite (CMC)

coat

optical microscope (OM)

scanning electron microscope (SEM)

№ Author name position Name of organisation

1 Wani M.F. teacher Tribology laboratory mechanical engineering department national instituteof technology

2 Ziyamukhamedova U.. teacher Tashkent State Transport University, Uzbekistan

№ Name of reference

1 K.G. Veeresh, B.C. Rao, S.P. Selvaraj. Mechanical and tribological behavior of particulate reinforced aluminum metal matrix composites a review. “Miner. mater. character”. 2011. 59

2 D.K Koli, G. Agnihotri, R. Purohit. “A review on properties, behavior and processing methods for Al-nano Al2O3 composites. Procedia Mater”. 2014. 567

3 M.Kathiresan, T. Sornakumar. “Friction and wear studies of die cast aluminum alloy-aluminum oxide-reinforced composites”. 2010. 361

4 A.T. Alpas, J. Zhang. “Effect of microstructure (particle size and volume fraction) and counter face material on the sliding wear resistance of particulate-reinforced aluminum matrix composites”. 1994. 969

5 H. Kala, K.K. Mer, S.A. Kuma. “A review on mechanical and tribological behaviors of stir cast aluminum matrix composites”. 2014. 1951

6 P. Ravindran, K. Maniseka, P. Rathika, P. Narayanasamy. Tribological properties of powder metallurgy – processed aluminum self-lubricating hybrid composites with SiC additions”. 2013. 561

7 A.N. Fedyaeva, S.Y. Matyushkov, G.V. Rogovtsev, A.N. Tarasov. Traction electric drive control at the limit of wheel-rail adhesion and suppression of frictional autooscillations. “Publishing house of VNU”. 2011. 31

8 D.K. Minov. “Improvement of traction properties of electric locomotives and diesel locomotives with electric transmission”. 1965. 267

9 E.M. Frenkel. To the question of wheel-rail adhesion. “Trans Holder Publishing”. 1953

10 V.I. Naumov. Influence of contact strength of metal on the force of adhesion of a wheel with rails. Influence of the contact strength of metal on the force of adhesion of the wheel wit rail. “Proceedings of the All-Union Scientific Research. Institute of Railroad Transport”. 1963.255

11 V.E. Rosenfeld, I.P. Isaev, N.N. Sidorov. Electric traction. “Trans Holder Publishing”. 1962

12 M.R. Barsky, I.N. Serdinova. Experimental study of the processes of skidding and skidding of electric locomotives. "Problems of improving the efficiency of transport". “Publishing house of the USSR academy of sciences”. 1953

13 D.S. Prasad, C. Shoba. N. Ramanaiah. “Investigations on mechanical properties of aluminum hybrid composites”. 2014. 79

14 M.B. Karamis, A.A. Cerit, B. Selcuk, F. Nair. “The effects of different ceramics size and volume fraction on wear behavior of Al matrix composites”. 2012. 73

15 M. Ratoi, V.B. Niste, J. Walker, J. Zekonyte. “Mechanism of action of WS2 lubricant nan additives in high-pressure contacts”. 2013. 81

16 L. Rapoport, N. Fleischer, R. Tenne. “Applications of WS2(MoS2) inorganic nanotubes and fullerene-like nanoparticles for solid lubrication and for structural nanocomposites”. 2005. 1782

17 E. Selvi, Y. Ma, R. Aksoy, A. Ertas, A. White. “High pressure X-ray diffraction study of tungsten disulfide”. “Journal of physics and chemistry of solids”. 2006 2183

18 O.D. Greenwood, S.C. Moulzolf, P.J. Blau, R.J. Lad. “The influence of microstructure on tribological properties of wo thin films” journal wear”. 1999. 84

Waiting

№	Author name	position	Name of organisation
1	Wani M.F.	teacher	Tribology laboratory mechanical engineering department national instituteof technology
2	Ziyamukhamedova U..	teacher	Tashkent State Transport University, Uzbekistan

№	Name of reference
1	K.G. Veeresh, B.C. Rao, S.P. Selvaraj. Mechanical and tribological behavior of particulate reinforced aluminum metal matrix composites a review. “Miner. mater. character”. 2011. 59
2	D.K Koli, G. Agnihotri, R. Purohit. “A review on properties, behavior and processing methods for Al-nano Al2O3 composites. Procedia Mater”. 2014. 567
3	M.Kathiresan, T. Sornakumar. “Friction and wear studies of die cast aluminum alloy-aluminum oxide-reinforced composites”. 2010. 361
4	A.T. Alpas, J. Zhang. “Effect of microstructure (particle size and volume fraction) and counter face material on the sliding wear resistance of particulate-reinforced aluminum matrix composites”. 1994. 969
5	H. Kala, K.K. Mer, S.A. Kuma. “A review on mechanical and tribological behaviors of stir cast aluminum matrix composites”. 2014. 1951
6	P. Ravindran, K. Maniseka, P. Rathika, P. Narayanasamy. Tribological properties of powder metallurgy – processed aluminum self-lubricating hybrid composites with SiC additions”. 2013. 561
7	A.N. Fedyaeva, S.Y. Matyushkov, G.V. Rogovtsev, A.N. Tarasov. Traction electric drive control at the limit of wheel-rail adhesion and suppression of frictional autooscillations. “Publishing house of VNU”. 2011. 31
8	D.K. Minov. “Improvement of traction properties of electric locomotives and diesel locomotives with electric transmission”. 1965. 267
9	E.M. Frenkel. To the question of wheel-rail adhesion. “Trans Holder Publishing”. 1953
10	V.I. Naumov. Influence of contact strength of metal on the force of adhesion of a wheel with rails. Influence of the contact strength of metal on the force of adhesion of the wheel wit rail. “Proceedings of the All-Union Scientific Research. Institute of Railroad Transport”. 1963.255
11	V.E. Rosenfeld, I.P. Isaev, N.N. Sidorov. Electric traction. “Trans Holder Publishing”. 1962
12	M.R. Barsky, I.N. Serdinova. Experimental study of the processes of skidding and skidding of electric locomotives. "Problems of improving the efficiency of transport". “Publishing house of the USSR academy of sciences”. 1953
13	D.S. Prasad, C. Shoba. N. Ramanaiah. “Investigations on mechanical properties of aluminum hybrid composites”. 2014. 79
14	M.B. Karamis, A.A. Cerit, B. Selcuk, F. Nair. “The effects of different ceramics size and volume fraction on wear behavior of Al matrix composites”. 2012. 73
15	M. Ratoi, V.B. Niste, J. Walker, J. Zekonyte. “Mechanism of action of WS2 lubricant nan additives in high-pressure contacts”. 2013. 81
16	L. Rapoport, N. Fleischer, R. Tenne. “Applications of WS2(MoS2) inorganic nanotubes and fullerene-like nanoparticles for solid lubrication and for structural nanocomposites”. 2005. 1782
17	E. Selvi, Y. Ma, R. Aksoy, A. Ertas, A. White. “High pressure X-ray diffraction study of tungsten disulfide”. “Journal of physics and chemistry of solids”. 2006 2183
18	O.D. Greenwood, S.C. Moulzolf, P.J. Blau, R.J. Lad. “The influence of microstructure on tribological properties of wo thin films” journal wear”. 1999. 84