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College aantekeningen

Machine Design
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  • Vak
  • Mechanical Engineering
  • Instelling
  • Mechanical Engineering
  • Boek
  • Mechanical Design of Machine Elements and Machines

This covers the fundamental principles and techniques used in the design of machine components. It is divided into several chapters that discuss various topics, such as the selection of materials, stress and strain analysis, fatigue, and shafts. This can be a useful reference for engineers and stu...

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Document informatie

  • 9 maart 2023
  • 8
  • 2022/2023
  • College aantekeningen
  • Onbekend
  • Alle colleges

Onderwerpen

  • machine design
  • analysis of simple stress
  • tolerances
  • allowances
  • variable stress analysis

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  • Mechanical Engineering
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Voorbeeld van de inhoud

TOPIC NO.1 where
ANALYSIS OF SIMPLE STRESS F = applied load
L = original length of the member
This topic includes the following: A = original cross-sectional area of the
1.1. Tensile member
1.2. Compressive δt = axial elongation
1.3. Shear or Torsion σt = tensile stress
1.4. Bending or Flexural E = modulus of elasticity
(Esteel = 30x106 psi)
A machine or machine member is usually
designed to perform its function for a specified 2. COMPRESSIVE STRESS. By reversing the
length of time (operating life). In many machines, directions of the loads in the tensile stress,
the members must be able to resist external forces, a compressive stress will be induced in the
called applied loads, and, in addition, they must member. The stress formula above can be
satisfy rigidity requirements. The machine designer used provided that the length-to-area ratio
must reach decisions concerning the nature of of the loaded member is sufficiently small
action in the member that may cause it to fail, in that it acts as a compression member
order to determine what quantity or quantities without tending to buckle.
should be expressed in terms of the loads and
dimensions of the member. This generally entails σc = F/A
the consideration of the loads applied to a member δc = FL/AE
and some quantity, such as stress, strain, deflection, δc = axial
or energy which characterizes the action that may contraction
cause its failure. (From Paul H. Black and O. Eugene
Adams, Jr., “Machine Design” 3rd edition, McGraw-
Hill Kogakusha, 3. BEARING STRESS. Bearing stress differs
Ltd.,1968) from compressive stress in that the latter is
the internal stress caused by a compressive
force, whereas bearing stress is a contact
TWO PRIMARY TYPES OF STRESS: pressure between separate bodies.
A. NORMAL STRESS, σ, the area is normal to
the force carried
B. SHEAR STRESS, τ, the area is parallel to the
force

Normal Stress Shear Stress

F
4. SHEARING STRESS. Or tangential stress is
produced whenever the applied loads cause
one section of a body to tend to slide past
A its adjacent section.

4.1. Single Shear
F

SIMPLE AND DIRECT STRESSES
1. TENSILE STRESS. The average tensile stress
induced in the body of a simple tension
member in which the tensile load is
perpendicular to the surface that produces
4.2 Double shear
stretching of a material.




σt = F/A δt = FL/AE

, Shear Deformation MAXIMUM TORSIONAL STRESS FOR A ROUND
SHAFT
δs = shear deformation
G = shear modulus of 𝟏𝟔𝐓
𝛕= (𝐟𝐨𝐫 𝐚 𝐬𝐨𝐥𝐢𝐝 𝐬𝐡𝐚𝐟𝐭)
elasticity or modulus of 𝛑𝐃𝟑
rigidity
δs = FL/AG 𝟏𝟔𝐓𝐃
𝛕= (𝐟𝐨𝐫 𝐚 𝐡𝐨𝐥𝐥𝐨𝐰 𝐬𝐡𝐚𝐟𝐭)
𝛑(𝐃𝟒 − 𝐝𝟒 )
Relationship between G and E

𝐄 ANGLE OF TWIST (TORSIONAL DEFORMATION)
𝐆=
𝟐(𝟏 + 𝐯)
𝐓𝐋
𝛉=
v = Poisson’s ratio of material ( typically 0.25 to 𝐉𝐆
0.3 for metals where

4.3. Punching Shear Stress 𝛑𝐃𝟒
𝐉= (𝐟𝐨𝐫 𝐚 𝐬𝐨𝐥𝐢𝐝 𝐬𝐡𝐚𝐟𝐭)
𝟑𝟐

𝛑(𝐃𝟒 −𝐝𝟒 )
𝐉= (𝐟𝐨𝐫 𝐚 𝐡𝐨𝐥𝐥𝐨𝐰 𝐬𝐡𝐚𝐟𝐭)
𝟑𝟐


POWER, TORQUE AND ANGULAR SPEED RELATION

P = 2πTn
5. Thermal Deformation and Thermal Stress
δT = α L ΔT (+) for heating
(-) for cooling 7. BENDING OR FLEXURAL STRESS. The
normal stresses induced in straight beams
α = coefficient of thermal expansion by bending are a particular distribution of
L = dimension of the member tensile and compressive stresses.
ΔT = change in temperature

Note: If the above deformation is
prevented to occur due to some restriction, 𝐌𝐜
said deformation is converted to a load 𝛔=
𝐈
deformation. The member is then under a
thermal stress, σT. M = bending moment
c = distance of the stressed fiber from the
δT = α L ΔT is equal to δt = FL/AE, where σ = neutral axis
P/A; thus, the resulting thermal stress is I = rectangular moment of inertia of the beam’s
σT = E α ΔT cross section from the neutral axis

6. TORSION. Torsional moments induce shear
stresses on cross sections normal to the axis
of bars and shafts.

TORSIONAL OR TWISTING STRESS




τmax = Tr/J (at the outermost surface of
shaft)

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