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A RELIABILITY APPROACH FROM MECHANICAL ENGINEERING POINT OF VIEW

Yıl 2018, Cilt: 36 Sayı: 3, 629 - 644, 01.09.2018

Öz

No mechanical product will perform reliably unless it is designed specifically for reliability. There are many studies about reliability in mechanical design but most of them focus on the one part of entire reliability problem. The ability to see the bigger picture is essential in the field of mechanical reliability. Reader can gain a holistic viewpoint for the consideration of mechanical reliability by this approach. In this study failure modes, reliability variables, models, measures and methods from mechanical engineering point of view were investigated. From the open literature, published research work was compiled. Search results were classified and evaluated in terms of suitability for mechanical engineering. As an example, the procedure to find the reliability of shaft was investigated in support of our approach. Analysis and documentation of failed mechanical components are essential for preventing designers from repeating the same errors. Therefore, this research is expected to provide an easy way to investigate reliability problems of mechanical components such as shafts.

Kaynakça

  • [1] Moss T. R., Andrews J. D., (1996) Reliability Assesment of Mechanical Systems. Proc Instn Mech Engrs Part E Journal of Process Mechanical Engineering, 210.
  • [2] Strauss B. M., (1984) Fault Tree Analysis of Bearing Failures. Journal of the American Society of Lubrication Engineers, 40.
  • [3] O’Connor P. D. T., (1997) Practical Reliability Engineering. John Wiley, England.
  • [4] Kalpakjian S., Schmid S. R., (2010) Manufacturing Engineering and Technology. Pearson Hall South Asia Pte Ltd., Sixth Edition.
  • [5] Yuanfan Y., (2012) The study on Mechanical Reliability Design Method and Its Application. Energy Procedia17, 467-472.
  • [6] Murthy D. N. P., Djamaludin I., (2002) New product warranty: A literature review. International Journal of production economics.,79, 231-260.
  • [7] Bazovski I.Reliability Theory and Practice. (1961) Prentice Hall.. Englewood Cliffs.New
  • [8] Moss T. R., (1996) Mechanical Reliability. 12 th ARTS, Manchester.
  • [9] Andrews J. D., Moss T. R., (1993) Reliability and Risk Assesment. Longman, London.
  • [10] Vinogradov O., (1991) Introduction to Mechanical Reliability. Hemisphere Publishing Corporation.
  • [11] Rao S. S. (2015) Reliability Engineering. McGraw-Hill, New York.
  • [12] Ming-Wei Lu, Forrest M. D., (2000) Probabilistic Engineering Design. Int. J. Of Vehicle Design, 23.
  • [13] Dowling N. E. (2007) Mechanical Behavior of Materials. Prentice Hall, New Jersey.
  • [14] O’Connor P. D. T. (2000) Reliability Past, Present, and Future. IEEE Transactions on Reliability 49.
  • [15] Condra L. W. (1993) Reliability Improvement With Design of Experiments. Marcel Dekker, Inc., New York, USA.
  • [16] Gertsbakh I. B., Kordonskiy Kh. B. (1969) Models of Failure Springer-Verlag New York Inc.,
  • [17] Dhillon B. S. (1999) Design Reliability. CRC Press LLC.
  • [18] Tahralı N., Dikmen F (1995) Konstrüksiyon Elemanlarında Güvenilirlik ve Ömür Hesapları. Yıldız Teknik Üniversitesi Yayın Komisyonu.
  • [19] Thompson G., Nilsson C. (2001) A Multiobjective Approach To Design For Reliability. Proc Instn Mech Engrs Part E, 215.
  • [20] Smith C. O. (1997) Safety in Design. ASM Metals Handbook, 20.
  • [21] Dhillon B. S. (1988) Mechanical Reliability: Theory, Models and Applications. American Institute of Aeronautics and Astronautics, Inc.
  • [22] Ertaş A., Jones J. C., (1993) The Engineering Design Process, John Wiley.
  • [23] O. Smith C., (1997) Reliability in Design. ASM Metals Handbook 10 th Edition Materials Selection and Design, 20.
  • [24] Dieter G. E, (1983) Engineering Design. McGraw-Hill Internatıonal Book Company, 454.
  • [25] Lyonnet P., (1991) Tools of Total Quality. Chapman &Hall, Inc, 32-33.
  • [26] Ivanović G., Popović P., Stojović M., Djokić M., (1994) Fault Tree Analysis Applied To Vehicle Design. Int. J. Of Vehicle Design, 15.
  • [27] Lieberman P., (1990) Design FMEA and the Industry. Automotive Engineering, 98.
  • [28] Gilchrist W., (1993) Modelling Failure Modes and Effects Analysis.International Journal of Quality and Reliability Management, 10, 16-23.
  • [30] Daya M. B., Raouf A., (1996) A Revised Failure Mode and Effects Analysis Model. International Journal of Quality and Reliability Management,13.
  • [31] Pizzo J.T., Adib R. M., (1994) Probabilistic FMECA. Proceedings Annual Reliability and Maintainability Symposium.
  • [32] Geymayr J. A. B., Ebecken N.F.F., (1995) The Knowledge Engineering Approach To Reliability Analysis. Appl. AI in Eng., 10.
  • [33] Andrews J D, Ridley L M., (2001) Reliability Of Sequential Systems Using The Cause-Consequence Diagram Method. Proc Instn Mech Engrs Part E, 215.
  • [34] Čepin M., Mavko B. A. (2002) Dynamic Fault Tree. Reliability Engineering and System Safety, 75.
  • [35] Spoormaker J. L., (1992) The Role Of Failure Analysis In Establishing Design Rules For Reliable Plastic Products. Safety and Reliability.
  • [36] Kardos G., Risk and Hazard Analysis in Design. ASM Metals Handbook Criteria and Concepts in Design, 20, 14SU.KE240-9-0820.
  • [37] Warburton D., Strutt J. E., Allsopp K., (1998) Reliability Prediction Procedures For Mechanical Components At The Design Stage. Proc Instn Mech Engrs Part E , 212.
  • [38] Dixon J. R. (1966) Design Engineering. Mc Graw- Hill Book Company, Inc.
  • [39] Shigley J. E., Mischke C.R., (2001) Mechanical Engineering Design. McGraw-Hill.
  • [40] Davidson J. (1988) The Reliability of Mechanical Systems. The Institution of Mechanical Engineers.
  • [41] Davidson J. K, Shah J. J., (2002) Geometric Tolerances: A New Application For Line Geometry And Screws. 216.
  • [42] Kırjner Neto C., Polak E., Kiureghian D., (1998) An Outer Approximations Approach to Reliability Based Optimal Design of Structures.. Journal of Optimization Theory and Applications. Vol. 98. No. 1.pp1-16.
  • [43] Melchers R. E. (1999) Structural Reliability Analysis and Prediction. John Wiley.
  • [44] Vlack L. H. V. (1985) Elements of Materials Science and Engineering. Addion-Wesley publishing Company, Inc,.
  • [45] Martin P. (1998) A Review Of Mechanical Reliability. Proc Instn Mech Engrs Part E, 212.
  • [46] Kaymaz I., Marti K., (2007) Reliability-based design optimization for elastoplastic mechanical structures, Vol.85, Iss.10;p.615.
  • [47] Dikmen F., (2003) Makine Elemanları Ders Notları Şekiller.
Yıl 2018, Cilt: 36 Sayı: 3, 629 - 644, 01.09.2018

Öz

Kaynakça

  • [1] Moss T. R., Andrews J. D., (1996) Reliability Assesment of Mechanical Systems. Proc Instn Mech Engrs Part E Journal of Process Mechanical Engineering, 210.
  • [2] Strauss B. M., (1984) Fault Tree Analysis of Bearing Failures. Journal of the American Society of Lubrication Engineers, 40.
  • [3] O’Connor P. D. T., (1997) Practical Reliability Engineering. John Wiley, England.
  • [4] Kalpakjian S., Schmid S. R., (2010) Manufacturing Engineering and Technology. Pearson Hall South Asia Pte Ltd., Sixth Edition.
  • [5] Yuanfan Y., (2012) The study on Mechanical Reliability Design Method and Its Application. Energy Procedia17, 467-472.
  • [6] Murthy D. N. P., Djamaludin I., (2002) New product warranty: A literature review. International Journal of production economics.,79, 231-260.
  • [7] Bazovski I.Reliability Theory and Practice. (1961) Prentice Hall.. Englewood Cliffs.New
  • [8] Moss T. R., (1996) Mechanical Reliability. 12 th ARTS, Manchester.
  • [9] Andrews J. D., Moss T. R., (1993) Reliability and Risk Assesment. Longman, London.
  • [10] Vinogradov O., (1991) Introduction to Mechanical Reliability. Hemisphere Publishing Corporation.
  • [11] Rao S. S. (2015) Reliability Engineering. McGraw-Hill, New York.
  • [12] Ming-Wei Lu, Forrest M. D., (2000) Probabilistic Engineering Design. Int. J. Of Vehicle Design, 23.
  • [13] Dowling N. E. (2007) Mechanical Behavior of Materials. Prentice Hall, New Jersey.
  • [14] O’Connor P. D. T. (2000) Reliability Past, Present, and Future. IEEE Transactions on Reliability 49.
  • [15] Condra L. W. (1993) Reliability Improvement With Design of Experiments. Marcel Dekker, Inc., New York, USA.
  • [16] Gertsbakh I. B., Kordonskiy Kh. B. (1969) Models of Failure Springer-Verlag New York Inc.,
  • [17] Dhillon B. S. (1999) Design Reliability. CRC Press LLC.
  • [18] Tahralı N., Dikmen F (1995) Konstrüksiyon Elemanlarında Güvenilirlik ve Ömür Hesapları. Yıldız Teknik Üniversitesi Yayın Komisyonu.
  • [19] Thompson G., Nilsson C. (2001) A Multiobjective Approach To Design For Reliability. Proc Instn Mech Engrs Part E, 215.
  • [20] Smith C. O. (1997) Safety in Design. ASM Metals Handbook, 20.
  • [21] Dhillon B. S. (1988) Mechanical Reliability: Theory, Models and Applications. American Institute of Aeronautics and Astronautics, Inc.
  • [22] Ertaş A., Jones J. C., (1993) The Engineering Design Process, John Wiley.
  • [23] O. Smith C., (1997) Reliability in Design. ASM Metals Handbook 10 th Edition Materials Selection and Design, 20.
  • [24] Dieter G. E, (1983) Engineering Design. McGraw-Hill Internatıonal Book Company, 454.
  • [25] Lyonnet P., (1991) Tools of Total Quality. Chapman &Hall, Inc, 32-33.
  • [26] Ivanović G., Popović P., Stojović M., Djokić M., (1994) Fault Tree Analysis Applied To Vehicle Design. Int. J. Of Vehicle Design, 15.
  • [27] Lieberman P., (1990) Design FMEA and the Industry. Automotive Engineering, 98.
  • [28] Gilchrist W., (1993) Modelling Failure Modes and Effects Analysis.International Journal of Quality and Reliability Management, 10, 16-23.
  • [30] Daya M. B., Raouf A., (1996) A Revised Failure Mode and Effects Analysis Model. International Journal of Quality and Reliability Management,13.
  • [31] Pizzo J.T., Adib R. M., (1994) Probabilistic FMECA. Proceedings Annual Reliability and Maintainability Symposium.
  • [32] Geymayr J. A. B., Ebecken N.F.F., (1995) The Knowledge Engineering Approach To Reliability Analysis. Appl. AI in Eng., 10.
  • [33] Andrews J D, Ridley L M., (2001) Reliability Of Sequential Systems Using The Cause-Consequence Diagram Method. Proc Instn Mech Engrs Part E, 215.
  • [34] Čepin M., Mavko B. A. (2002) Dynamic Fault Tree. Reliability Engineering and System Safety, 75.
  • [35] Spoormaker J. L., (1992) The Role Of Failure Analysis In Establishing Design Rules For Reliable Plastic Products. Safety and Reliability.
  • [36] Kardos G., Risk and Hazard Analysis in Design. ASM Metals Handbook Criteria and Concepts in Design, 20, 14SU.KE240-9-0820.
  • [37] Warburton D., Strutt J. E., Allsopp K., (1998) Reliability Prediction Procedures For Mechanical Components At The Design Stage. Proc Instn Mech Engrs Part E , 212.
  • [38] Dixon J. R. (1966) Design Engineering. Mc Graw- Hill Book Company, Inc.
  • [39] Shigley J. E., Mischke C.R., (2001) Mechanical Engineering Design. McGraw-Hill.
  • [40] Davidson J. (1988) The Reliability of Mechanical Systems. The Institution of Mechanical Engineers.
  • [41] Davidson J. K, Shah J. J., (2002) Geometric Tolerances: A New Application For Line Geometry And Screws. 216.
  • [42] Kırjner Neto C., Polak E., Kiureghian D., (1998) An Outer Approximations Approach to Reliability Based Optimal Design of Structures.. Journal of Optimization Theory and Applications. Vol. 98. No. 1.pp1-16.
  • [43] Melchers R. E. (1999) Structural Reliability Analysis and Prediction. John Wiley.
  • [44] Vlack L. H. V. (1985) Elements of Materials Science and Engineering. Addion-Wesley publishing Company, Inc,.
  • [45] Martin P. (1998) A Review Of Mechanical Reliability. Proc Instn Mech Engrs Part E, 212.
  • [46] Kaymaz I., Marti K., (2007) Reliability-based design optimization for elastoplastic mechanical structures, Vol.85, Iss.10;p.615.
  • [47] Dikmen F., (2003) Makine Elemanları Ders Notları Şekiller.
Toplam 46 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Research Articles
Yazarlar

Beril Eker Gümüş Bu kişi benim 0000-0002-4185-4470

Yayımlanma Tarihi 1 Eylül 2018
Gönderilme Tarihi 8 Mayıs 2017
Yayımlandığı Sayı Yıl 2018 Cilt: 36 Sayı: 3

Kaynak Göster

Vancouver Eker Gümüş B. A RELIABILITY APPROACH FROM MECHANICAL ENGINEERING POINT OF VIEW. SIGMA. 2018;36(3):629-44.

IMPORTANT NOTE: JOURNAL SUBMISSION LINK https://eds.yildiz.edu.tr/sigma/