This document describes the design of a mechanical hydraulic jack. It begins with introducing the basic principles of hydraulics and how hydraulic jacks work based on Pascal's law. It then discusses the design considerations and methodology for key components of the hydraulic jack, including the ram cylinder, plunger cylinder, plunger, lever, reservoir, and base. Detailed calculations are shown for sizing each component based on the design loads, pressures, and materials. Manufacturing and inspection steps are also outlined for the ram cylinder.
Dear Friends here is a Presentation on , variety of Pumps , for many Industrial applications.
pumps allow us to transport Viscous Fluids, Adhesives, even Hot melts with great ease.
Watch this PPT
Pumps come in a variety of sizes for a wide range of applications. They can be classified
according to their basic operating principle as dynamic or displacement pumps. Dynamic
pumps can be sub-classified as centrifugal and special effect pumps. Displacement pumps can
be sub-classified as rotary or reciprocating pumps.
Training Report for 2 Months Industrial Training at CTU Workshop Depot No. - 2
The Chandigarh Transport Undertaking functions under
supervision of the Home Secretary who is also the Secretary,
Transport, Chandigarh Administration.
Dear Friends here is a Presentation on , variety of Pumps , for many Industrial applications.
pumps allow us to transport Viscous Fluids, Adhesives, even Hot melts with great ease.
Watch this PPT
Pumps come in a variety of sizes for a wide range of applications. They can be classified
according to their basic operating principle as dynamic or displacement pumps. Dynamic
pumps can be sub-classified as centrifugal and special effect pumps. Displacement pumps can
be sub-classified as rotary or reciprocating pumps.
Training Report for 2 Months Industrial Training at CTU Workshop Depot No. - 2
The Chandigarh Transport Undertaking functions under
supervision of the Home Secretary who is also the Secretary,
Transport, Chandigarh Administration.
Heavy duty gear pumps (Positive DisplacementRotary Twin gear Pumps) type AERN series pumps are useful for pumping and transfer of all kind of viscous Liquids and petroleum products.
All machines require some type of power source and a
way of transmitting this power to the point of operation.
The three methods of transmitting power are:
Mechanical
Electrical
Fluid
In this course, we are going to deal with the third type of power transmission which is the Fluid Power
Heavy duty gear pumps (Positive DisplacementRotary Twin gear Pumps) type AERN series pumps are useful for pumping and transfer of all kind of viscous Liquids and petroleum products.
All machines require some type of power source and a
way of transmitting this power to the point of operation.
The three methods of transmitting power are:
Mechanical
Electrical
Fluid
In this course, we are going to deal with the third type of power transmission which is the Fluid Power
Hydraulic Jack is a device that uses force to lift heavy loads. The primary
mechanism with which force is applied varies, depending on the specific type of
jack, but is typically a screw thread or a hydraulic cylinder. Jacks can be
categorized based on the type of force they employ: mechanical or hydraulic.
Mechanical jacks, such as car jacks and house jacks, lift heavy equipment and are
rated based on lifting capacity (for example, the number of tons they can lift).
Hydraulic jacks tend to be stronger and can lift heavier loads higher, and include
bottle jacks and floor jacks.
This powerpoint presentation is for the mechanical engineering field and for the subject fluid power engineering.
The topic covered is all the hydraulic machines used.
A telescopic cylinder is a hydraulic actuator that consists of a series of nested cylinders of gradually decreasing diameter. These cylinders, known as stages or sleeves, are stacked inside one another, with each stage sliding within the next larger stage. The telescopic design enables the cylinder to achieve a much longer stroke compared to its retracted length.
This mini project is based on Pascal's Law. Upload of the file is only for education purpose. New commerce from science background can get a basic idea to do a mini project.
Pneumatic three axis modern trailer group 14CHMURLIDHAR
Our main project is three axis pneumatic modern trailer works on the principles of pneumatic mechanism along with micro controllers. In this project the efficiency of dumping trailers will increase. The unloading of materials can be done to the three directions. This is very useful in the shipping industry.
Welocme to ViralQR, your best QR code generator.ViralQR
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1. IOSR Journal of Engineering (IOSRJEN) www.iosrjen.org
ISSN (e): 2250-3021, ISSN (p): 2278-8719
Vol. 04, Issue 07 (July. 2014), ||V1|| PP 15-28
International organization of Scientific Research 15 | P a g e
Design of Mechanical Hydraulic Jack
K.Sainath, MohdSalahuddinb
MohdJibranBaig,MdAzam Ali Farooky,
Mohammed Siddique Ahmed,MohdRiyazUddin, Faraz Ur Rehman Azhar, Md
Shaffi.
a
Mechanical Engineering Department professor @ Sreyas Institute of Engineering & Technology, Nagole,
Hyderabad-500068,
b
Student,Mechanical Engineering department, Sreyas Institute of Engineering & TechnologyNagole, JNTUH,
Hyderabad-500068, INDIA.
c
Student,Mechanical Engineering, shadan college of Engineering & technology
d
Mechanical Engineering student @ Nizam College Of Institute Of Engineering & Technology.
e. Student at Technische Hochschule Ingolstadt Master in International automotive engineering,
f. Mechanical Engineering Diploma student @ R.I.T TurkalakhanapurMedak District Andhra Pradesh.
g. Student,Mechanical Engineering department, Sreyas Institute of Engineering & TechnologyNagole,
Hyderabad-500068, INDIA.
h.Student,Mechanical Engineering department, Sreyas Institute of Engineering & TechnologyNagole,
Hyderabad-500068, INDIA.
Abstract: - A jack is a device that uses force to lift heavy loads. The primary mechanism with which force is
applied varies, depending on the specific type of jack, but is typically a screw thread or a hydraulic cylinder.
Jacks can be categorized based on the type of force they employ: mechanical or hydraulic. Mechanical jacks,
such as car jacks and house jacks, lift heavy equipmentand are rated based on lifting capacity (for example, the
number of tons they can lift). Hydraulic jacktend to be stronger and can lift heavier loads higher, and include
bottle jacks and floor jacks. HYDRAULIC JACKSdepend on force generated by pressure. Essentially, if two
cylinders (a large and a small one) are connected and force is applied to one cylinder, equal pressure is
generated in both cylinders. However, because one cylinder has a larger area, the force the larger cylinder
produces will be higher, although the pressure in the two cylinders will remain the same. Hydraulic jacks
depend on this basic principle to lift heavy loads: they use pump plungers to move oil through two cylinders.
The plunger is first drawn back, which opens the suction valve ball within and draws oil into the pump chamber.
As the plunger is pushed forward, the oil moves through an external discharge check valve into the cylinder
chamber, and the suction valve closes, which results in pressure building within the cylinder.
I. THEORY
HYDRAULICS:The word hydraulics is based on the Greek word for water, and originally covered the study of
the physical behavior of water at rest and in motion. Use has broadened its meaning to include the behavior of
all liquids, although it is primarily concerned with the motion of liquids. Hydraulics includes the manner in
which liquids act in tanks and pipes, deals with their properties, and explores ways to take advantage of these
properties.
Although the modern development of hydraulics is comparatively recent, the ancients were familiar
with many hydraulic principles and their applications. The Egyptians and the ancient people of Persia, India, and
China conveyed water along channels for irrigation and domestic purposes, using dams and sluice gates to
control the flow. The ancient Cretans had an elaborate plumbing system. Archimedes studied the laws of
floating and submerged bodies. The Romans constructed aqueducts to carry water to their cities. Torricelli,
French physicist, EdmeMariotte, and later, Daniel Bernoulli conducted experiments to study the elements of
force in the discharge of water through small openings in the sides of tanks and through short pipes. During the
same period, Blasé Pascal, a French scientist, discovered the fundamental law for the science of hydraulics.
Hydraulic jack is based on the Pascal’s law whichstates that increase in pressure on the surface of a confined
fluid is transmitted undiminished throughout the confined vessel or system.
Two common types of hydraulic jacks includeBOTTLE JACKS & FLOOR JACKS..
II. BOTTLE JACKS
BOTTLE JACKS became popular in the early 1900s when the automobile industry began to take off. Also
called hand jacks, bottle jacks provided an easy way for an individual to lift up a vehicle for roadside inspection
or service. Their resemblance to milk bottles earned bottle jacks their name—today, they range in size and
2. Design of Mechanical Hydraulic Jack
International organization of Scientific Research 16 | P a g e
weight to offer a lifting capability ranging from one hundred to several tons. Bottle jacks feature a vertical shaft,
which supports a platform (called a bearing pad) that directly bears the weight of the object as it is lifted.
Although they are most commonly used in the automobile industry (1.5 to 5 ton jacksare frequently used to lift
cars), bottle jacks have other uses as well. In the medical industry they can be used in hydraulic stretchers and
patient lifts. In industrial applications, they can be found as pipe benders used in plumbing, as cable slicers for
electrical projects, and as material lifts within warehouses. Their ability to lift heavy loads plays a big role in
enabling the repair of large agricultural machinery and in many construction operations. Bottle jacks can be
secured within a frame, mounted on a beam, or simply used as they are for easier jack transportation.
III. FLOOR JACKS
Unlike bottle jack shafts, the shaft in a floor jacksis horizontal—the shaft pushes on a crank that connects to a
lifting pad, which is then lifted horizontally. Floor jacks typically provide a greater range of vertical lift than
bottle jacks, and are available in two sizes. The original jack is about four feet long, a foot wide, and weights
around 200 pounds—they can lift 4-10 tons. A more compact model was later made, which is about three feet in
length, and can lift 11/2 tons. Although mini jack are also produced, they are not a recognized standard type of
floor jack. Typically, one of the first two sizes should be used.
IV. HYDRAULIC JACK
It is a short stroke hydraulic lift which is fed from hand pump. The hydraulic jack may be portable.
This is extensively used for lifting automobiles usually to facilitate and repair. And for replacing the punctured
wheels. The hydraulic jack is perhapsone of the simplest forms of a fluid power system. By moving the handle
of a small device, an individual can lift a load weighing several tons. A small initial force exerted on the handle
is transmitted by a fluid to a much larger area.
The operation of hydraulic jack depends on ―Pascal‘s law‖. This states that when a fluid is at rest in a closed
vessel and if a certain pressure is applied at any point the pressure will be transmitted equally in all direction.
Mechanical advantage is obtained by a practical application of Pascal‘s law of transmission of fluid
pressure. Two pistons of different sizes operate inside two cylinders suitably connected with a pipe so that
pressure in each is the same. If ―p ―is pressure and ―a1,a2‖ are the cross sectional area of cylinders, then a force
―F‖ applied to the smaller plunger will make available a load ―W‖ is lifted.
Where ,p = pressure of the fluid,
a1 = small cylinder area,
a2 = larger cylinder area,
F = force acting on smaller plunger,
W = load lifted.
If the volume of liquid is constant. The displacement of large piston will be proportionately to smaller plunger.
V. WORKING OF HYDRAULIC JACK
Hydraulic jack works on the principle of ―Pascal‘s law‖.
When the handle is operated, the plunger reciprocates then the oil from the reservoir is sucked into the
plunger cylinder during upward stroke of the plunger through the suction valve. The oil in the plunger cylinder
is delivered into the ram cylinder during the downward stroke of the plunger through the delivery valve. This
pressurized oil lifts the load up, which is placed on top plate of the ram. After the work is completed the
pressure in the ram cylinder is released by unscrewing the lowering screw thus the pressure releases and the ram
is lowered, then the oil is rushed into the reservoir.It consists of plunger cylinder on one side and ram cylinder
on the other side. These two cylinders are mounted on base which is made of mild steel. Plunger cylinder
consists of plunger which is used to build up the pressure by operating the handle. Plunger cylinder consists of
two non-return valves i.e. one for suction and other for delivery. Ram cylinder consists of ram which lifts the
load. The ram cylinder connected to delivery valve of plunger cylinder. It is also consists of lowering screw this
is nothing but a hand operated valve used for releasing the pressure in the ram cylinder for get down the load.
VI. SPECIFICATIONS OF HYDRAULIC JACK
• Rated capacity in tone
• Jack dimensions
• Lifting range in - cm
• Oil capacity in - cc
• Net weight in - kg
3. Design of Mechanical Hydraulic Jack
International organization of Scientific Research 17 | P a g e
CLASIFICATION OF HYDRAULIC JACK:
• According to the source of power
• Manually operated jacks (hand or pedal
operated)
• Power operated jacks (pump is used)
• According to the lift of ram
• High lift
• Medium lift
• Low lift
• According to the arrangement of cylinder
• Vertical
• Horizontal
• Inclined
• According to the number of cylinders
• Single cylinder
• Multi cylinder
• According to the construction
• Floor mounted jack
• Bottle jack
• Trolley jack
VII. DESIGN OF HYDRAULIC JACK
DESIGN CONSIDERATIONS& METHODOLOGY:
• Load ( W) = 06 ton(60kN)
• OPERATING PRESSURE (p) = 25 M Pa
• Lift range (L) = 20 cm
• Man effort put on the handle (e) = 20 Kg
• Permissible tensile stress of mild steel (σt) = 120 N/mm2
• No. of strokes for lifting load (n) = 150
• Factor of safety = 5
• Permissible shear stress of mild steel (τ) = 20 N/mm2
• Permissible compressive stress of mild steel(σc)= 20 N/mm2
• Permissible compressive stress of cast iron (σCI)= 120 N/mm2
• Permissible shear stress of cast iron (τCI) = 35 N/mm2
VIII. DESIGN OF RAM CYLINDER
It is a cylinder in which produces a slide way to the ram. The ram cylinder is made up of mild steel with density of 7.868
gm/cc. It is mounted on the base plate
Let,
d = inner diameter of ram cylinder
D = outer diameter of ram cylinder
P = pressure acting on cylinder =25 Mpa
W = load =60kN
T = thickness of ram cylinder
IX. DESIGN OF PLUNGER CYLINDER:
The plunger cylinder is made up of mild steel and is mounted on the base plate. It provides slide way to the
plunger in order to build up the pressure.
Let
dp= inside dia of plunger cylinder
= 8 mm
Dp = outside dia of plunger cylinder
tp = thickness of plunger cylinder
Assume the thickness of plunger cylinder (tp) = 5 mm
Tensile strength of mild steel (σt ) = 120 N/mm2
By LAME‘S equation
t = 5+ 5.0625(25 - 1)
126.5625 – 5.0625
+5.0625 = 126.5625 – 25
6.0625 = 101.5625
= 16.752 N/mm2
4. Design of Mechanical Hydraulic Jack
International organization of Scientific Research 18 | P a g e
Hence the induced tensile strength of M.S. is less than permissible value. So, the design is safe.
By using thickness and inside diameter, we can calculate the outer diameter of plunger cylinder
Dp =dp + 2t
= 8+2(5)
= 18 mm
Outer diameter of plunger cylinder (DP) = 18 mm
X. DESIGN OF PLUNGER
Let the plunger is made up of mild steel which reciprocates in plunger cylinder to increase the pressure of the oil.
Let,
W = load acting on plunger
dp = diameter of plunger
P = pressure developed in plunger cylinder
From standard table inside diameter of plunger cylinder is fixed i.e. 8 mm
Load acting on plunger = pressure × area
= 25×106
= 1256.63 Ν
= 128.09 kg
We taken Load acting on the plunger =130 kg
XI. PLUNGER DISPLACEMENT
We know that
Velocity ratio (V.R.) =
Assume V.R. = 150
150 = = 114.49 mm
= 11.449 cm
Therefore plunger displacement = 11.5 cm
XII. DESIGN OF LEVER
A lever is made up of mild steel and is used to apply load on the plunger. It is attached to the plunger with the help of
pivot.
Assumptions,
1. Effort put on lever by man = 20 kg
2. Load acting on plunger = 130 kg
Velocity ratio of lever = 6.5
Required distance from fulcrum to load = 11.5 cm
Total length of lever = 6.5× 11.5
= 74.75 cm.
We taken length of lever = 75 cm
Lever is made up of mild steel.
Permissible tensile strength of mild steel (σt) = 120 N/mm2
Where
M = maximum bending moment
I = moment of inertia
= permissible tensile strength
Y = distance between outer most layer to neutral layer
Z = section modulus
5. Design of Mechanical Hydraulic Jack
International organization of Scientific Research 19 | P a g e
Calculation of bending moment:-
Ra + Rb = 130 kg
Ra + 20 = 130
Ra =130-20
Ra = 110 kg
Bending moment at C = 0
Bending moment at B = 20× 9.81× 0.635 = 124.58 N-m
Bending moment at A = (20× 9.81× 0.75) – (130× 9.81× 11.5) = 0
From the above calculation
Maximum bending moment = 124.58 N-m
Where dl = diameter of lever
= 0.0219 m
= 21.9 mm
We adopt diameter of lever = 25 mm
XIII. DESIGN OF RESERVOIR
The volume of oil circulated in the system is 835c.c
But, we take the volume of oil is 33% greater than the volume of circulated in the system.
Volume of oil in the reservoir = 835+ × 835
= 1110c.c
[× L]- = 1110 c.c
Where
D = outer dia of ram cylinder
L = height = 119.89 mm
We adopt inner dia of reservoir () = 122mm
Assuming thickness of reservoir () = 4mm
Therefore outer dia of reservoir (Dr) =
= 122+(2×4)
= 130mm
XIV. DESIGN OF BASE
Fix the dimensions of base plate as
l× b × tb = 200×150×25
Where l = length of base
b =width of base
tb =thickness of base
Base is made up of mild steel.
Permissible compressive stress of M.S (σc) = 20 N/mm2
Compressive area of base =200×150
6. Design of Mechanical Hydraulic Jack
International organization of Scientific Research 20 | P a g e
= 30000
Permissible shear stress of mild steel (τ) = 20 N/mm2
Shearing area = π × d × tb
= π × 71.5 × 25
=5615.59
Where d = inner dia of ram cylinder
tb =thickness of base plate
Load acting on base = 100.17 KN
Checking for compressive strength
σc = 3.339 N/mm2
Checking for shear strength
τ =17.83 N/mm2
The induced shear and compressive stresses are less than permissible valve. Hence the design is safe.
1. RAM CYLINDER:
Sq.no. Machine Operation Tools & gauges Time
05 Check the raw material Vernier
10 Lathe -1 Hold the job in the
chuck
15 -do- Face the end Facing tool
20 -do- Turn outer dia to Ø90 Turning tool
25 -do- Face the other end Facing tool
30 Boring machine Bore a hole of Ø72 Boring tool
35 -do- Bore a hole of Ø50 Boring tool
40 Inspect Vernier and
Go & No go
gauges
RAM:
Sq.no. Machine Operation Tools & gauges Time
05 Universal testing machine Check the raw material
10 Lathe-1 fix the job in the chuck
15 -do- Face the end Facing tool
20 -do- Turn Ø 40 Turning tool
25 -do- Turn Ø 20 Turning tool
30 -do- Face the other end Facing tool
35 -do- Turn Ø 72 Turning tool
40 -do- Cut the grooves for ‗o‘ ring Form tool
45 Drilling machine Drill 4 holes of Ø 5 on pcd Ø 60 Drill bit
50 -do- Ream the holes Reamer
55 Inspect Vernier
3. RAM TOP PLATE:
Sq.no. Machine Operation Tools& gauges Time
05 Check the raw material Steel rule &Vernier
10 Shaping machine fix the job in the vice
15
-do-
Shpe the sides and faces of
plate Shaping tool
20 Drilling machine
Drill a hole of Ø 22 Drill bit
25
Inspect
Surface plate
&vernier
4. PLUNGER CYLINDER:
Sq.no. Machine Operation Tools& gauges Time
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05 Check the raw material Vernier
10 Lathe-1 fix the job in the chuck
15 -do- Face the end Facing tool
20 -do- Turn to Ø 35& Ø 18 Turning tool
25 -do- Face the other end Facing tool
30 Drilling
machine
Drill a hole of Ø 24.5 &
Ø 7.5
Drill bit
35 -do- Ream to a dia of Ø 25& Ø 8 Reamer
40 Inspect Vernier
Material : Mild steelTime :
PLUNGER
Sq.no. Machine Operation Tools& gauges Time
05 Check the raw material Steel rule &Vernier
10 Lathe-1 fix the job in the chuck
15 -do- Face the end Facing tool
20 -do- Turn Ø 8 Turning tool
25 -do- Face the other end Facing tool
30 -do- Turn Ø 5 Turning tool
35 Diestock Treading up to a length of 5 Die
40 Inspect Vernier
6. RESERVOIR:
Sq.no. Machine Operation Tools& gauges Time
05 Check the raw material Vernier& steel rule
10 Lathe-1 fix the job in the chuck
15 -do- Face the end Facing tool
20 -do- Turn outer to Ø 130 Turning tool
25 -do- Face the other end Facing tool
30 Boring machine Bore a hole of Ø 122 Boring tool
35 -do- Bore a hole of Ø 90 -do-
40 Inspect Vernier
7. LEVER:
Sq.no. Machine Operation Tools& gauges Time
05 Check the raw material Tape &Vernier
10 Lathe-1 fix the job in the chuck
15 -do- Face the end Facing tool
20 -do- Turn Ø 25 Turning tool
25 -do- Parting off bar Parting tool
30 -do- Face the other end Facing tool
35 -do- Knurling the bar at one end Knurling tool
40 Inspect Vernier
8. BASE PLATE:
Sq.no. Machine Operation Tools& gauges Time
05 Check the raw material Steel rule &Vernier
10 Shaping machine fix the job in the vice
15 -do- shape the sides and faces Shaping tool
20 Drilling machine Fix the job in vice
25 -do- Drill a holes of Ø 6 Expandable socket drill bit
30 -do- Counter drill to Ø 8 Drill bit
35 Inspect Vernier& steel rule
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ESTIMATING & COSTING
• Ram cylinder:
Volume of ‗A‘ = (D2
-d1
2
) ×L
=(902
-722
) ×214.58
= 491.252 c
Volume of ‗B‘ = (D2
-d2
2
) ×L1
= (902
-502
) ×9
= 39.58c
Total volume = volume of ‗A‘ +volume of ‗B‘
= 491.252 + 39.58
= 530.832 cm3
Weight = volume × density
= 530.832 × 7.8
= 4140.48 g
= 4.14 kg
2. RAM:
Volume of ‗A‘ =
= -
= 31.94cm3
Volume of ‗B‘= 251.327c
Volume of ‗C‘= 3.1415c
Total volume = volume of ‗A‘ +volume of ‗B‘ +volume of ‗C‘
= 31.94+251.327+3.1415
= 286.40cm3
Weight = volume × density
= 286.40 ×7.2
= 2062.14 g
=2.062 kg
3. TOP PLATE:
Volume = 38.958c
Weight = volume × density
= 38.958 × 7.8
= 306.52 g
= 0.306 kg
4. PLUNGER CYLINDER:
Volume of ‗A‘ =
= ×10
= 4.712 cm3
Volume of ‗B‘ = 2.735 cm3
Volume of ‗C‘ = 21.441cm3
Total volume = volume of ‗A‘ +volume of ‗B‘ +volume of ‗C‘
= 2.735+4.712+21.441 +1.1309
=30.018 cm3
Weight = volume × density
= 30.018 ×7.8
=0.2341 kg
5. PLUNGER:
Volume of ‗A‘ = 0.502 cm3
Volume of ‗B = 2.218 cm3
Total volume = volume of ‗A‘+ volume of ‗B‘
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=0.5026+2.218
=2.7206 cm3
Weight = volume × density
= 2.7206 ×7.8
= 0.212 kg
6. LEVER:
Volume = 368.155 cm3
Weight = volume × density
= 368.155 × 7.8
= 2.87 kg
7. RESERVOIR:
Volume of ‗A‘ = 329.339 cm3
Volume of ‗B‘= 27.64 cm3
Total volume = volume of ‗A‘ +volume of ‗B‘
= 329.339+27.64
= 356.979 cm3
Weight = volume × density
= 356.339×7.8
= 2.78 kg
8. BASE PLATE:
Volume of ‗A‘ = l × b × h
= 200 × 150 × 25
= 750 cm3
Volume of ‗B = 3. 293 cm3
Volume of ‗C‘ = 2.117 cm3
Volume of ‗D' = 2.3 cm3
Total volume = volume of ‗A‘ +volume of ‗B‘ +volume of ‗C‘+ volume of ‗D‘
= 742.29 cm3
Weight = volume × density
= 742.29 × 7.8
= 5.789 kg
Net weight of the unit = 4.14 +2.062 +0.306 +0.2341 + 0.212 +2.87 +2.78
+5.789
= 18.39 kg
S.NO DESCRIPTION MATERIAL
WEIGT / kg
COST /kg WEIGHT in Rs TOTAL COST IN Rs
1.
2.
Mild steel
Cast iron
16.328
2.062
26
24
424.528
49.488
Total direct material cost 474.016
% of scrap = 15% is added to direct material cost
Total direct material cost = Rs. 550
XV. BREAKEVEN ANALYSIS
• Breakeven point
1. Breakeven quantity (B.E.Q) =
Where F = fixed cost
SP = selling price per unit = Rs 1700
V = variable cost per unit
=
= Rs 1005.33
B.E.Q =
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= 180.18 = 181
2. Breakeven value =Rs 3, 06,316.6
3. Breakeven sales (or)% of breakeven quantity = 0.4641 , = 46.41%
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ORGANISATION STRUCTURE
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REFERENCES
[1] Electric Scissor Jacks, Jackmaster. "Electric Scissor Jacks". Retrieved 8 February 2014.
[2] William Cox (July 2001), "Light Talk On Heavy Jacks", Old-House Journal: 37
[3] Brian S. Elliott (2006), "Air-Over-Hydraulic Jacks", Compressed Air Operations Manual, Mcgraw-
Hill Professional, Pp. 56–58, Isbn 978-0-07-147526-6
[4] George William Sutcliffe (1895), Steam Power And Mill Work Principles And Modern Practice,
Whittaker & Co., P. 828, "The Bottle-Jack Is Exceedingly Firm And Safe For Short Vertical Lifts,
But Is Not Convenient For Pushing In A Horizontal Or Oblique Direction."
[5] John Norman (2009), Fire Department Special Operations, Fire Engineering Books,
P. 51, Isbn 978-1-59370-193-2
[6] Reference Books:
[7] Strength Of Materials - A.S.Ramamrutham
[8] Applied Mechanics - R.S.Khurmi
[9] Applied Mechanics And Strength Of Materials - Dr. R.K.Bansal
[10] Applied Mechanics And Strength Of Materials - I.B.Prasad
[11] Pneumatics & Hydraulics - Harry. L. Stewart
[12] Introduction To Pneumatics - Festo Manual
[13] Fundamentals Of Pneumatic Control Engineering - Festo Manual
[14] Hydraulic Machines, Jagadishlal, , Metropolitan Book Co. Pvt. Ltd., 1, Faiz Bazaar, New Delhi –
110 006.
[15] Hydraulics,Andrew Parr (A Technician‘s And Engineer‘s Guide) Fundamentals Of Pneumatic
Control Engineering -Festo Manual
[16] Fluid Mechanics And Hydraulic Machines,R. K. Bansal, Laxmi Publications Pvt.,Ltd,22,Golden
House, Daryaganj, New Delhi – 110 002
[17] Jagadishlal, Hydraulic Machines, 1990, Published By Metropolitan Book Co. Pvt. Ltd., 1 Faiz
Bazaar, New Delhi – 6.
[18] R.K.Bansal, Fluid Mechanics And Hydraulic Machines , Edn. 8, Laxmi Publications P. Ltd., 22
Golden House, Daryaganj, New Delhi 110 002 – 2003.
[19] Andrew Parr, Hydraulics And Pneumatics (A Technician‘s And Engineer‘s Guide) Festo Manual,
Fundamentals Of Pneumatic Control Engineering
[20] Text Book Of Hydraulics By H. Meixner And R.Kober, Edn. 1990 Published By Fiesto Didactic
Kg, D – 7300 Esslingen, 1977, 1988.
[21] A Text Book Of Hydraulics, Fluid Mechanics And Hydraulic Machines, R.S. Khurmi, - Edn.18,
S.Chand & Co., Ram Nagar, New Delhi – 110 055, Ram Nagar, New Delhi – 2002
[22] A Text Book Of Fluid Mechanics And Hydraulic Machines – By, R. K Rajput And S. Chand &
Co,Ram Nagar, New Delhi – 110 055.
[23] Jack LewinDesign Of Hydraulic Gates By Jack Lewin
[24] Thomas Telford, 1995 - Hydraulic Engineering - Hydraulics Of Spillways And Energy Dissipators
Rajnikant M. Khatsuria.