Kekuatan bahan atau mekanika bahan (bahasa Inggris: strength of materials) adalah topik yang berkaitan dengan perilaku benda padat akibat tegangan dan regangan. Teori lengkap dimulai dengan pertimbangan perilaku satu dan dua anggota dimensi struktur, yang menyatakan keadaan tegangan dapat diperkirakan sebagai dua dimensi, dan kemudian digeneralisasikan ke tiga dimensi untuk membangun teori yang lebih lengkap dari perilaku elastis dan plastik bahan. Pelopor penting dalam mekanika bahan adalah Stephen Timoshenko.

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Garis gaya internal lebih banyak di dekat lubang, suatu konsentrasi tegangan yang umum

Studi tentang kekuatan bahan sering merujuk pada berbagai metode perhitungan ketegangan dan tekanan pada elemen struktural, seperti balok, kolom, dan poros. Metode yang digunakan untuk memprediksi respon struktur akibat beban dan kerentanannya terhadap berbagai mode kegagalan memperhitungkan sifat bahan seperti yang yield strength, kekuatan maksimum, Modulus Young, dan rasio Poisson.

Bacaan lebih lanjut

  • Fa-Hwa Cheng, Initials. (1997). Strength of material. Ohio: McGraw-Hill
  • Mechanics of Materials, E.J. Hearn
  • Alfirević, Ivo. Strength of Materials I. Tehnička knjiga, 1995. ISBN 953-172-010-X.
  • Alfirević, Ivo. Strength of Materials II. Tehnička knjiga, 1999. ISBN 953-6168-85-5.
  • Ashby, M.F. Materials Selection in Design. Pergamon, 1992.
  • Beer, F.P., E.R. Johnston, et al. Mechanics of Materials, 3rd edition. McGraw-Hill, 2001. ISBN 0-07-248673-2
  • Cottrell, A.H. Mechanical Properties of Matter. Wiley, New York, 1964.
  • Den Hartog, Jacob P. Strength of Materials. Dover Publications, Inc., 1961, ISBN 0-486-60755-0.
  • Drucker, D.C. Introduction to Mechanics of Deformable Solids. McGraw-Hill, 1967.
  • Gordon, J.E. The New Science of Strong Materials. Princeton, 1984.
  • Groover, Mikell P. Fundamentals of Modern Manufacturing, 2nd edition. John Wiley & Sons,Inc., 2002. ISBN 0-471-40051-3.
  • Hashemi, Javad and William F. Smith. Foundations of Materials Science and Engineering, 4th edition. McGraw-Hill, 2006. ISBN 0-07-125690-3.
  • Hibbeler, R.C. Statics and Mechanics of Materials, SI Edition. Prentice-Hall, 2004. ISBN 0-13-129011-8.
  • Lebedev, Leonid P. and Michael J. Cloud. Approximating Perfection: A Mathematician's Journey into the World of Mechanics. Princeton University Press, 2004. ISBN 0-691-11726-8.
  • Chapter 10 – Strength of Elastomers, A.N. Gent, W.V. Mars, In: James E. Mark, Burak Erman and Mike Roland, Editor(s), The Science and Technology of Rubber (Fourth Edition), Academic Press, Boston, 2013, Pages 473-516, ISBN 978-0-12-394584-6, 10.1016/B978-0-12-394584-6.00010-8
  • Mott, Robert L. Applied Strength of Materials, 4th edition. Prentice-Hall, 2002. ISBN 0-13-088578-9.
  • Popov, Egor P. Engineering Mechanics of Solids. Prentice Hall, Englewood Cliffs, N. J., 1990. ISBN 0-13-279258-3.
  • Ramamrutham, S. Strength of Materials.
  • Shames, I.H. and F.A. Cozzarelli. Elastic and inelastic stress analysis. Prentice-Hall, 1991. ISBN 1-56032-686-7.
  • Timoshenko S. Strength of Materials, 3rd edition. Krieger Publishing Company, 1976, ISBN 0-88275-420-3.
  • Timoshenko, S.P. and D.H. Young. Elements of Strength of Materials, 5th edition. (MKS System)
  • Davidge, R.W., Mechanical Behavior of Ceramics, Cambridge Solid State Science Series, (1979)
  • Lawn, B.R., Fracture of Brittle Solids, Cambridge Solid State Science Series, 2nd Edn. (1993)
  • Green, D., An Introduction to the Mechanical Properties of Ceramics, Cambridge Solid State Science Series, Eds. Clarke, D.R., Suresh, S., Ward, I.M.Babu Tom.K (1998)

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