BUILDING THE PROGRAM OF CALCULATION FOR THE THICKNESS AND REASONABLE LANDSCAPE APPLYING THE SHAFT LINERS

Vu Anh Tuan, Dao Van Lap, Nguyen Hai Yen, Nguyen Duong Nam

Abstract


This paper presents the theoretical basis of the process of building programming to calculate the reasonable thickness
and thickness of the shaft liners. Through this calculation program, it is possible to calculate and select the shaft liners
for shaft system. The content can be calculated as thickness; shaft torque and reasonable residual. The program results
were calculated for the vessel with the load of 950 tons. This result completely complies with the design requirements
of the shaft liners.


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References


Haseeb, A.S.M.A., Masjuki, H.H., Ann, L.J., Fazal, M.A. 2010. Corrosion characteristics of copper and leaded bronze in palm biodiesel, Fuel Process. Technol., 91(3), 329–334.

Le, T.N., Pham, M.K., Hoang, A.T., Bui, T.N.M., Nguyen, D.N. 2018. Microstructure change for multi-pass welding between austeniticstainless, Journal of Mechanical Engineering Research & Developments, 41(2), 97–102.

Andréason, S. 1973. On load distribution in rolling bearingarrangements with special reference to the influence of bearingmisalignment.

Hoang, A.T., Nguyen, L.H., Nguyen, D.N. 2018. A Study of Mechanical Properties and Conductivity Capability of CU-9NI-3SN ALLOY, Int. J. Appl. Eng. Res., 13(7), 5120–5126.

Le Thi, C., Manh, T.S., Duong, N.N., Mai, K.P. 2016. The Effect of Deformation on Microstructure of Cu-Ni-Sn Aging Alloys, Key Eng. Mater., 682, 113–118.

Hoang, A.T., Pham, X.D. 2018. An investigation of remediation and recovery of oil spill and toxic heavy metal from maritime pollution by a new absorbent material, J. Mar. Eng. Technol., https://doi.org/10.1080/20464177.2018.1544401

Hoang, A.T. 2018. Waste heat recovery from diesel engines based on Organic Rankine Cycle, Appl. Energy, 231, 138–166.

Tuan, V.A., Duong Nam, N., Ngoc Vuong, P., Van Thi, M., Mai Khanh, P. 2019. Influence of Nickel on The Microstructure and Mechanical Properties of Aluminum Copper Alloy, J. Mech. Eng. Res. Dev., 42(2), 84–86.

Duong Nam, N., Tuan, V.A., Hai Yen, N., Van Lap, D., Mai Khanh, P. 2019. A Study of Phase Transformation in Shape Memory Alloy CuAl9Fe4, Journal of Mechanical Engineering Research & Developments, 42(2), 72–75.

Nguyen, D.N., Hoang, A.T., Pham, X.D., Sai, M.T., Chau, M.Q., Pham, V.V. 2018. Effect of sn component on properties and microstructure CU-NI-SN alloys, J. Teknol., 80(6), 43-51.

Bansal, R.K. 2010. A Textbook of Strength of Materials.

Surya Patnaik, D.H. 2004. Strength of Materials: A New Unified Theory for the 21st Century.

Den Hartog, J.P. 1977. Strength of Materials.

Bansal, R.K. 2004. Engineering Mechanics and Strength of Materials.

da Silva, V.D. 2006. Mechanics and Strength of Materials.

Mott, R.L. 2008. Applied strength of materials. Pearson/Prentice Hall.

Den Hartog, J.P. 1987. Advanced Strength of Materials.

John Casem Lord Chilver, C.F.R. 1993. Strength of Materials and Structures. An imprint of Elsevier Science.

Drydale, G.V. 1978. Design of Shafts for General Engineering Applications.

P.K.M., Subrata Kr Mandal, S.K. 2015. Analysis of an Intermediate Rear Axle Shaft Failure, Adv. Automob. Eng., 4(1), 1–3.

Engel, S.S.H.A.M.B. 2017. Failure Analysis and Fatigue Life Estimation of a Shaft of a Rotary Draw Bending Machine, Int. Sch. Sci. Res. Innov., 11(11), 1785–1790.

Prodea, I.M. 2012. The Calculus of The Mixing Rotating Devices Shafts Based on The Energonics Method, U.P.B. Sci. Bull., Ser. D, 74(3), 107–120


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