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Volume : V, Issue : IV, May - 2015

DESIGN AND OPTIMIZATION OF SPREADER BEAM

Naba Raj Gairhe , Aditya Sharma , Jeevan Yadav , P. Sunil Kumar and G. Durga Prasad

By : Laxmi Book Publication

Abstract :

A spreader beam is the simplest configuration of the beam, which is used for two or more than two point lift and also a leveled lift. A spreader beam absorbs the compressive force to protect the load being lifted. A spreader beam consists of lifting eyes which is attached to the spreader beam by means of welding. Its purpose is to connect the load to the beam and beam to the crane hook with the help of lifting accessories. In this project, our emphasis is to design a two point lift spreader beam of 10 tonne capacity by selecting 3 standard cross sections, Universal I Beam, Square hollow section and circular hollow section and subsequently suggesting the appropriate cross section for the spreader beam.

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Cite This Article :

Naba Raj Gairhe , Aditya Sharma , Jeevan Yadav , P. Sunil Kumar and G. Durga Prasad(2015). DESIGN AND OPTIMIZATION OF SPREADER BEAM. Indian Streams Research Journal, Vol. V, Issue. IV, http://isrj.org/UploadedData/6508.pdf

References :

  1. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  2. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  3. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  4. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  5. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  6. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  7. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  8. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  9. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  10. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  11. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  12. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  13. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  14. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  15. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  16. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  17. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  18. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  19. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  20. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  21. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  22. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  23. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  24. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  25. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  26. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  27. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  28. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  29. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  30. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  31. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  32. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  33. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  34. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  35. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  36. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  37. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  38. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  39. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  40. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  41. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  42. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  43. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  44. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  45. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  46. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  47. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  48. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  49. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  50. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  51. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  52. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  53. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  54. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  55. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  56. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  57. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  58. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  59. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  60. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  61. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  62. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  63. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  64. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  65. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  66. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  67. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  68. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  69. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  70. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  71. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  72. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  73. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  74. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  75. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  76. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  77. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  78. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  79. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  80. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  81. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  82. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  83. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  84. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  85. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  86. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  87. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  88. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  89. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  90. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  91. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  92. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  93. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  94. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  95. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  96. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  97. Rachakulla Sai Krishna and PV Anil Kumar; Design and Buckling Strength Evaluation of A Lifting Beam For 350 Tonnes Through FEA; International Journal of Engineering Research and Science & Technology; Vol 3, No. 4.
  98. India Standard IS 13591:1992; Criteria For Design of Lifting Beams.
  99. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  100. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  101. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  102. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  103. Lifting Equipment Engineers Association; Code of Practice for the Safe Use of Lifting Equipment; Section 20-Lifting Beams; Spreaders and Frames.
  104. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  105. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  106. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.
  107. David T. Ricker; Design and Construction of Lifting Beam; Fourth Quarter; American Institute of Steel construction.

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