Beam Bending
Materials Mechanics
Beam Bending
Author Takashi Sasaya
English Translation by Toshihiko Chimura
ISBN : 978-4990912130
Publishing Office Greenwich Meridian
TEL/FAX +81-467-77-7742
mail
meridiangreenwich@gmail.com
Price will be reduced to US $38.00 from US $45.00 by 16%.
Price US $38.00 (including shipping charge and tax)
Payment must be made by credit card. Please note that
if the item is out of stock, delivery may take some time.
Inventory at present: 4 Date of delivery: About 10 days on the average
If you would like a PDF version, please click below.
The PDF version can be viewed and downloaded
from a URL that will be provided separately.
This book explains in a manner as simple as possible the detailed
calculation methodology for the deflection and stress of the basic 25
kinds of beam for which the reader is likely to encounter beam bending issues.
The theory of curved beam is also explained in this book, specializing in the
thin-walled beam.This book focuses on ark beam, which is the simplest shape,
and Archimedes curved beam as an extension of the ark beam.
The gnuplot sample program also contained in this book provides actual
examples for your reference, anticipating leverage to the fullest for
drawing the deflection curve.
「Beam Bending」
Contents
1.Beam Bending
1.1 Shearing force & bending
moment of beam
1.2 Bending stress of beam
1.3 Geometric moment of inertia
1.4 Deflection of beam
2. Stress & Deflection of Beam
2.1 Cantilever beam receiving the
concentrated load at end
2.2 Cantilever beam receiving the
concentrated load at arbitrary
position
2.3 Cantilever beam receiving the
uniformly distributed load
2.4 Cantilever beam receiving the
uniformly distributed load at
arbitrary position
2.5 Cantilever beam receiving the triangular distributed load
2.6 Cantilever beam receiving the triangular distributed load at arbitrary
position
2.7 Cantilever beam receiving the inverted triangular distributed load
2.8 Cantilever beam receiving the inverted triangular distributed load
at arbitrary position
2.9 Cantilever beam receiving the moment at end
2.10 Cantilever beam receiving the moment at arbitrary position
2.11 Simply supported beam receiving the concentrated load at arbitrary
position
2.12 Simply supported beam receiving the uniformly distributed load
2.13 Simply supported beam receiving the triangular distributed load
2.14 Simply supported beam receiving the moment at one end
2.15 Simply supported beam receiving the moment at both ends
2.16 Simply supported beam receiving the moment at arbitrary position
2.17 Statically indeterminate beam receiving the concentrated load
at arbitrary position
2.18 Statically indeterminate beam receiving the uniformly distributed load
2.19 Statically indeterminate beam receiving the triangular distributed load
2.20 Statically indeterminate beam receiving the moment at one end
2.21 Statically indeterminate beam receiving the moment at arbitrary position
2.22 Both ends fixed beam receiving the concentrated load at arbitrary position
2.23 Both ends fixed beam receiving the uniformly distributed load
2.24 Both ends fixed beam receiving the triangular distributed load
2.25 Both ends fixed beam receiving the moment at arbitrary position
3. Thin-walled Curved Beam
3.1 Stress of thin-walled curved beam
3.2 Deflection of thin-walled curved beam
3.3 Deflection of arc beam
3.4 Stress of arc beam receiving the load at end
3.5 Deflection of Archimedes curved beam
4. Sample Program of gnuplot
4.1 Deflection of cantilever beam receiving the concentrated load at arbitrary position
4.2 Deflection of cantilever beam receiving the uniformly distributed load at arbitrary
position
4.3 Deflection of cantilever beam receiving the triangular distributed load at arbitrary
position
4.4 Deflection of cantilever beam receiving the inverted triangular distributed load at
arbitrary position
4.5 Deflection of cantilever beam receiving the moment at arbitrary position
4.6 Deflection of simply supported beam receiving the concentrated load at arbitrary
position
4.7 Deflection of simply supported beam receiving the uniformly distributed load
4.8 Deflection of simply supported beam receiving the triangular distributed load
4.9 Deflection of simply supported beam receiving the moment at both ends
4.10 Deflection of simply supported beam receiving the moment at arbitrary position
4.11 Deflection of statically indeterminate beam receiving the concentrated load at
arbitrary position
4.12 Deflection of statically indeterminate beam receiving the uniformly distributed
load
4.13 Deflection of statically indeterminate beam receiving the triangular distributed
load
4.14 Deflection of statically indeterminate beam receiving the momentat arbitrary
position
4.15 Deflection of both ends fixed beam receiving the concentrated load at arbitrary
position
4.16 Deflection of both ends fixed beam receiving the uniformly distributed load
4.17 Deflection of both ends fixed beam receiving the triangular distributed load
4.18 Deflection of both ends fixed beam receiving the moment at arbitrary position
4.19 Deflection of arc beam receiving the load at end
4.20 Deflection of Archimedes curved beam receiving the load at outer end
4.21 Deflection of Archimedes curved beam receiving the load at inner end
5. Appendix
5.1 Multiplication formula
5.2 Integral formula of trigonometric function
Materials Mechanics
Beam Bending
Author Takashi Sasaya
English Translation by Toshihiko Chimura
ISBN : 978-4990912130
Publishing Office Greenwich Meridian
TEL/FAX +81-467-77-7742
Price will be reduced to US $38.00 from US $45.00 by 16%.
Price US $38.00 (including shipping charge and tax)
if the item is out of stock, delivery may take some time.
Inventory at present: 4 Date of delivery: About 10 days on the average
The PDF version can be viewed and downloaded
from a URL that will be provided separately.
This book explains in a manner as simple as possible the detailed
|
「Beam Bending」
Contents 1.Beam Bending 1.1 Shearing force & bending 1.2 Bending stress of beam 1.3 Geometric moment of inertia 1.4 Deflection of beam 2. Stress & Deflection of Beam 2.1 Cantilever beam receiving the 2.2 Cantilever beam receiving the 2.3 Cantilever beam receiving the 2.4 Cantilever beam receiving the 2.5 Cantilever beam receiving the triangular distributed load 2.6 Cantilever beam receiving the triangular distributed load at arbitrary 2.7 Cantilever beam receiving the inverted triangular distributed load 2.8 Cantilever beam receiving the inverted triangular distributed load 2.9 Cantilever beam receiving the moment at end 2.10 Cantilever beam receiving the moment at arbitrary position 2.11 Simply supported beam receiving the concentrated load at arbitrary 2.12 Simply supported beam receiving the uniformly distributed load 2.13 Simply supported beam receiving the triangular distributed load 2.14 Simply supported beam receiving the moment at one end 2.15 Simply supported beam receiving the moment at both ends 2.16 Simply supported beam receiving the moment at arbitrary position 2.17 Statically indeterminate beam receiving the concentrated load 2.18 Statically indeterminate beam receiving the uniformly distributed load 2.19 Statically indeterminate beam receiving the triangular distributed load 2.20 Statically indeterminate beam receiving the moment at one end 2.21 Statically indeterminate beam receiving the moment at arbitrary position 2.22 Both ends fixed beam receiving the concentrated load at arbitrary position 2.23 Both ends fixed beam receiving the uniformly distributed load 2.24 Both ends fixed beam receiving the triangular distributed load 2.25 Both ends fixed beam receiving the moment at arbitrary position 3. Thin-walled Curved Beam 3.1 Stress of thin-walled curved beam 3.2 Deflection of thin-walled curved beam 3.3 Deflection of arc beam 3.4 Stress of arc beam receiving the load at end 3.5 Deflection of Archimedes curved beam 4. Sample Program of gnuplot 4.1 Deflection of cantilever beam receiving the concentrated load at arbitrary position 4.2 Deflection of cantilever beam receiving the uniformly distributed load at arbitrary 4.3 Deflection of cantilever beam receiving the triangular distributed load at arbitrary 4.4 Deflection of cantilever beam receiving the inverted triangular distributed load at 4.5 Deflection of cantilever beam receiving the moment at arbitrary position 4.6 Deflection of simply supported beam receiving the concentrated load at arbitrary 4.7 Deflection of simply supported beam receiving the uniformly distributed load 4.8 Deflection of simply supported beam receiving the triangular distributed load 4.9 Deflection of simply supported beam receiving the moment at both ends 4.10 Deflection of simply supported beam receiving the moment at arbitrary position 4.11 Deflection of statically indeterminate beam receiving the concentrated load at 4.12 Deflection of statically indeterminate beam receiving the uniformly distributed 4.13 Deflection of statically indeterminate beam receiving the triangular distributed 4.14 Deflection of statically indeterminate beam receiving the momentat arbitrary 4.15 Deflection of both ends fixed beam receiving the concentrated load at arbitrary 4.16 Deflection of both ends fixed beam receiving the uniformly distributed load 4.17 Deflection of both ends fixed beam receiving the triangular distributed load 4.18 Deflection of both ends fixed beam receiving the moment at arbitrary position 4.19 Deflection of arc beam receiving the load at end 4.20 Deflection of Archimedes curved beam receiving the load at outer end 4.21 Deflection of Archimedes curved beam receiving the load at inner end 5. Appendix 5.1 Multiplication formula 5.2 Integral formula of trigonometric function
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