Post on 24-Jun-2015
description
Jakasaniya Jaydeep (01)Nayagpara Remik (26)Pokar Dixit (19)Pokar Hiren (07)Sherasiya Mahmadsafir (06)
HJD Institute of Technical Education and Research
Referred By: Prof. Narendrasinh Vadher
THIN CYLINDER
Introduction
Cylindrical and spherical vessels are used in the engineering field to store and transport fluids. Such vessels are tanks ,boilers , compressed air receivers , pipe lines etc. these vessels, when empty, are subjected to atmospheric pressure internally as well as externally and the resultant pressure on the walls of the shell is nil.
but whenever a vessel is subjected to an intenal pressure(due to air , water , steam etc.) its walls are subjected to tensile stresses.
Thin cylindrical shell.
When t/d <= d/10 to d/15, it is called thin cylindrical shell. t = thickness of the shell d =internal diameter of shell.
in thin cylindrical shells hoops stress and longitudinal stresses are constant over the Thickness and radial stresses are negligible.
When t/d > d/10 to d/15, it is called THICK cylindrical shell.
Stresses in thin cylindrical shells : whenever, a thin cylindrical shell is subjected to an internal pressure (p). Its Walls are subjected to two types of tensile stresses. (a) Hoop stress (circumferential stress) (b) Longitudinal stress.
Consider a thin cylindrical shell subjected to an internalPressure as shown in fig. = circumferential stress in the shell material. p =internal pressure d =internal diameter of shell t =thickness of the shell. Total pressure, p = Pressure * Area =p.d.l Resisting area = A = 2.t.l = P/A = p.d.l/2.t.l
= p.d/2t.
Hoop stress (circumferential stress) :
(b) Longitudinal stress ):
Total pressure p = Pressure * Areap = p
Resisting area,A =
= P/A = p
= pd/4t
Change in dimensions of a thin cylindrical shell due to internal pressure:
𝜺𝟏=𝒑𝒅 /𝟐𝒕𝑬 (𝟏−𝟏𝟐𝒎
)
=
Circumferential strain,
Longitudinal strain,
=
Let, =change in dia. Of shell =change in length of shell
Change in volume of a thin cylindrical shell due to internal pressure:Volume of shell,V = Final volume,V+Change in volume,
= [
=
=
= =/ = = (= , = ) =V(
Thin spherical shells
Consider a thin spherical shell subjected to internal pressure p as shown in fig.
p =internal pressure d =internal diameter of shell t =thickness of the shell stress in the shell material
Total force
P = Resisting section =
Stress in the shell force/resisting section = /
Chenge in diameter and volume of a thin spherical shell due to internal pressure
Consider a thin spherical shell subjected to internal pressure.
p =internal pressure d =internal diameter of shell t =thickness of the shell stress in the shell material
We know that for thin spherical shell Strain in any direction=
We know that, strain,
= ……(1)
Examples:
Thank you