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History of Strength of Materials
History of Strength of Materials
Številka: 18344576
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PrefaceIntroductionI. THE STRENGTH OF MATERIALS IN THE SEVENTEENTH CENTURY 1. Galileo 2. Galileo's work on strength of materials 3. Organization of the national academies of science 4. Robert Hooke 5. MariotteII. ELASTIC CURVES 6. The ..
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Številka:
18344576
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Ta knjiga je v tujem jeziku: Angleščina
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Originalni opis knjige
PrefaceIntroductionI. THE STRENGTH OF MATERIALS IN THE SEVENTEENTH CENTURY 1. Galileo 2. Galileo's work on strength of materials 3. Organization of the national academies of science 4. Robert Hooke 5. MariotteII. ELASTIC CURVES 6. The mathematicians Bernoulli 7. Euler 8. Euler's contribution to strength of materials 9. LagrangeIII. STRENGTH OF MATERIALS IN THE EIGHTEENTH CENTURY 10. Engineering applications of strength of materials 11. Parent 12. Coulomb 13. Experimental study of the mechanical properties of structual materials in the eighteenth century 14. Theory of retaining walls in the eighteenth century 15. Theory of arches in the eighteenth centuryIV. STRENGTH OF MATERIALS BETWEEN 1800 AND 1833 16. L'Ecole Polytechnique 17. Navier 18. Navier's book on strength of materials 19. The experimental work of French engineers between 1800 and 1833 20. The theories of arches and suspension bridges between 1800 and 1833 21. Poncelet 22. Thomas Young 23. Strength of materials in England between 1800 and 1833 24. Other notable European contributions to strength of materialsV. THE BEGINNING OF THE MATHEMATICAL THEORY OF ELASTICITY 25. Equations of equilibrium in the theory of elasticity 26. Cauchy 27. Poisson 28. G. Lamé and B. P. E. Clapeyron 29. The theory of platesVI. STRENGTH OF MATERIALS BETWEEN 1833 AND 1867 30. Fairbairn and Hodgkinson 31. The growth of German engineering schools 32. Saint-Venant's contributions to the theory of bending of beams 33. Jourawski's analysis of shearing stresses in beams 34. Continuous beams 35. Bresse 36. E. WinklerVII. STRENGTH OF MATERIALS IN THE EVOLUTION OF RAILWAY ENGINEERING 37. Tubular bridges 38. Early investigations on fatigue of metals 39. The work of Wöhler 40. Moving loads 41. Impact 42. The early stages in the theory of trusses 43. K. Culmann 44. W. J. Macquorn Rankine 45. J. C. Maxwell's contributions to the theory of structures 46. Problems of elastc stability. Column formulas 47. Theory of retaining walls and arches between 1833 and 1867VIII. THE MATHEMATICAL THEORY OF ELASTICITY BETWEEN 1833 AND 1867 48. „The physical elasticity and "the elastic constant controversy“ 49. Early work in elasticity at Cambridge University 50. Stokes 50a. Barré de Saint-Venant 51. The semi-inverse method 52. The later work of Saint-Venant 53. Duhamel and Phillips 54. Franz Neumann 55. G. R. Kirchoff 56. A. Clebsch 57. Lord Kelvin 58. James Clerk MaxwellIX. STRENGTH OF MATERIALS IN THE PERIOD 1867–1900 59. Mechanical Testing Laboratories 60. The work of O. Mohr 61. Strain energy and Castigliano's theorem 62. Elastic stability problems 63. August FöpplX. THEORY OF STRUCTURES IN THE PERIOD 1867–1900 64. Statistically determinate trusses 65. Deflection of trusses 66. Statically indeterminate trusses 67. Arches and retaining wallsXI. THEORY OF ELASTICITY BETWEEN 1867 AND 1900 68. The work of Saint-Venant's pupils 69. Lord Rayleigh 70. Theory of elasticity in England between 1867 and 1900 71. Theory of elasticity in Germany between 1867 and 1900 71a. Solutions of two-dimensional problems between 1867 and 1900XII. PROGRESS IN STRENGTH OF MATERIALS DURING THE TWENTIETH CENTURY 72. Properties of materials within the elastic limit 73. Fracture of brittle materials 74. Testing of ductile materials 75. Strength theories 76. Creep of metals at elevated temperatures 77. Fatigue of metals 78. Experimental stress analysisXIII. THEORY OF ELASTICITY DURING THE PERIOD 1900–1950 79. Felix Klein 80. Ludwig Prandtl 81. Approximate methods of solving elasticity problems 82. Three-dimensional problems of elasticity 83. Two-dimensional problems of elasticity 84. Bending of plates and shells 85. Elastic stability 86. Vibrations and impactXIV. THEORY OF STRUCTURES DURING THE PERIOD 1900–1950 87. New methods of solving statically indeterminate systems 88. Arches and suspension bridges 89. Stresses in railway tracks 90. Theory of ship structuresName IndexSubject Index
Lastnosti knjige
- Jezik: Angleščina
- Založnik: Dover Publications Inc.
- Vezava: Knjiga – Brošura
- Število strani: 480
Originalni opis knjige
PrefaceIntroductionI. THE STRENGTH OF MATERIALS IN THE SEVENTEENTH CENTURY 1. Galileo 2. Galileo's work on strength of materials 3. Organization of the national academies of science 4. Robert Hooke 5. MariotteII. ELASTIC CURVES 6. The mathematicians Bernoulli 7. Euler 8. Euler's contribution to strength of materials 9. LagrangeIII. STRENGTH OF MATERIALS IN THE EIGHTEENTH CENTURY 10. Engineering applications of strength of materials 11. Parent 12. Coulomb 13. Experimental study of the mechanical properties of structual materials in the eighteenth century 14. Theory of retaining walls in the eighteenth century 15. Theory of arches in the eighteenth centuryIV. STRENGTH OF MATERIALS BETWEEN 1800 AND 1833 16. L'Ecole Polytechnique 17. Navier 18. Navier's book on strength of materials 19. The experimental work of French engineers between 1800 and 1833 20. The theories of arches and suspension bridges between 1800 and 1833 21. Poncelet 22. Thomas Young 23. Strength of materials in England between 1800 and 1833 24. Other notable European contributions to strength of materialsV. THE BEGINNING OF THE MATHEMATICAL THEORY OF ELASTICITY 25. Equations of equilibrium in the theory of elasticity 26. Cauchy 27. Poisson 28. G. Lamé and B. P. E. Clapeyron 29. The theory of platesVI. STRENGTH OF MATERIALS BETWEEN 1833 AND 1867 30. Fairbairn and Hodgkinson 31. The growth of German engineering schools 32. Saint-Venant's contributions to the theory of bending of beams 33. Jourawski's analysis of shearing stresses in beams 34. Continuous beams 35. Bresse 36. E. WinklerVII. STRENGTH OF MATERIALS IN THE EVOLUTION OF RAILWAY ENGINEERING 37. Tubular bridges 38. Early investigations on fatigue of metals 39. The work of Wöhler 40. Moving loads 41. Impact 42. The early stages in the theory of trusses 43. K. Culmann 44. W. J. Macquorn Rankine 45. J. C. Maxwell's contributions to the theory of structures 46. Problems of elastc stability. Column formulas 47. Theory of retaining walls and arches between 1833 and 1867VIII. THE MATHEMATICAL THEORY OF ELASTICITY BETWEEN 1833 AND 1867 48. „The physical elasticity and "the elastic constant controversy“ 49. Early work in elasticity at Cambridge University 50. Stokes 50a. Barré de Saint-Venant 51. The semi-inverse method 52. The later work of Saint-Venant 53. Duhamel and Phillips 54. Franz Neumann 55. G. R. Kirchoff 56. A. Clebsch 57. Lord Kelvin 58. James Clerk MaxwellIX. STRENGTH OF MATERIALS IN THE PERIOD 1867–1900 59. Mechanical Testing Laboratories 60. The work of O. Mohr 61. Strain energy and Castigliano's theorem 62. Elastic stability problems 63. August FöpplX. THEORY OF STRUCTURES IN THE PERIOD 1867–1900 64. Statistically determinate trusses 65. Deflection of trusses 66. Statically indeterminate trusses 67. Arches and retaining wallsXI. THEORY OF ELASTICITY BETWEEN 1867 AND 1900 68. The work of Saint-Venant's pupils 69. Lord Rayleigh 70. Theory of elasticity in England between 1867 and 1900 71. Theory of elasticity in Germany between 1867 and 1900 71a. Solutions of two-dimensional problems between 1867 and 1900XII. PROGRESS IN STRENGTH OF MATERIALS DURING THE TWENTIETH CENTURY 72. Properties of materials within the elastic limit 73. Fracture of brittle materials 74. Testing of ductile materials 75. Strength theories 76. Creep of metals at elevated temperatures 77. Fatigue of metals 78. Experimental stress analysisXIII. THEORY OF ELASTICITY DURING THE PERIOD 1900–1950 79. Felix Klein 80. Ludwig Prandtl 81. Approximate methods of solving elasticity problems 82. Three-dimensional problems of elasticity 83. Two-dimensional problems of elasticity 84. Bending of plates and shells 85. Elastic stability 86. Vibrations and impactXIV. THEORY OF STRUCTURES DURING THE PERIOD 1900–1950 87. New methods of solving statically indeterminate systems 88. Arches and suspension bridges 89. Stresses in railway tracks 90. Theory of ship structuresName IndexSubject Index