190301a

Question 1

List four (4) advantages of hydraulic control of heavy equipment machinery
functions.

Answer 1

a) Hydraulic components are relatively compact. They are powerful yet are
light in weight and generally occupy a small space.
b) Installation of a hydraulic system is much more flexible than mechanical
systems because components can be easily placed in the best position on the
machine.
c) Cooling and lubrication of system components is easy to accommodate.
d) The operator can easily control several functions at one time which increases
productivity.

Question 2

List four (4) disadvantages of hydraulic control of heavy equipment machinery
functions.

Answer 2

a) Fluids under pressure can result in personal injury or death if not handled
safely.
b) There is always some noise produced by the system.
c) Oil leakage is a source of contamination and fire.
d) Temperature variations (too high or low) effect component reliability and
machine performance.

Question 3

Work is defined as a:

Answer 3

force acting through a distance.

Question 4

Force is the push or pull that is capable of producing or changing the motion of a
body T/F

Answer 4

true

Question 5

Energy is defined as?

Answer 5

Energy is defined as the ability to do work

Question 6

List four (4) common forms of energy.

Answer 6

a) mechanical energy
b) hydraulic energy
c) heat energy
d) electrical energy

Question 7

The law of conservation of energy states that

Answer 7

energy cannot be created or destroyed.

Question 8

In an engine, chemical energy in the fuel is converted to mechanical energy in the
engine combustion chamber.T/F

Answer 8

false; Chemical energy in the fuel is converted to heat energy in the
combustion chamber.

Question 9

A hydraulic actuator converts:

Answer 9

hydraulic energy into mechanical energy.

Question 10

Kinetic energy in a hydraulic system is created by

Answer 10

the flow of oil through the system.

Question 11

Potential energy in a hydraulic system is responsible for creating:

Answer 11

force.

Question 12

A hydraulic cylinder that has a bore of 10 cm and a stroke of 4.25 m. How much
pressure (in MPa) is required to overcome a load of 2500 kg when the cylinder is
extending? Round off your answer to the nearest 2 decimal places.

Answer 12

3.12 MPa

Question 13

If the cylinder described in question 12 has a rod diameter is 5.5 cm and a stroke
length of 4.25 m, what flow rate (in L/min) would be required to move the load from
the fully extended position to the fully retracted position in 7 seconds? Round off
your answer to the nearest 2 decimal places.

Answer 13

199.56 L/min

Question 14

How much output power (measured in kW) must the cylinder produce to accomplish
the task described in question 13? Round off your answer to the nearest 2 decimal
places.

Answer 14

14.89 kW

Question 15

Laminar flow refers to

Answer 15

flow that moves in straight parallel flow paths.

Question 16

List three (3) conditions that could result in turbulent flow.

Answer 16

. a) Installing conductors that are too small.

b) Abrupt changes in conductor cross-section.
c) Abrupt changes in flow direction.

Question 17

Excessively turbulent flow in a hydraulic system will result in excessive:

Answer 17

pressure losses.

Question 18

Hydraulic actuators that are connected in series will have the same pressure applied
to each actuator.T/F

Answer 18

false; Pressure applied to each actuator will vary while flow remains constant.

Question 19

Actuators connected in series provide:

Answer 19

limited toque but high speed.

Question 20

Describe the pressure and flow characteristics of a hydraulic circuit that has multiple
actuators connected in parallel.
a) Pressure characteristics are ________
b) Flow characteristics are__________

Answer 20

a) the same pressure is applied to each actuator.

b) the flow is split amongst the actuators.

Question 21

Hydraulic fluids that have a low VI number:

Answer 21

have wide viscosity changes with temperature.

Question 22

The oil characteristic that has the most significant effect on the oil’s lubricating
ability is:

Answer 22

viscosity.

Question 23

Two (2) conditions that indicate that an oil is excessively oxidized are:

Answer 23

a) the oil will have a burnt odour.

b) the oil will have a watery feel.

Question 24

Which of the following hydraulic fluids is NOT a fire resistant fluid?

Answer 24

petroleum-based fluid

Question 25

State the two (2) conditions that a hydraulic fluid must meet in order to be classified
as biodegradable

Answer 25

a) 70 - 80% of the base fluid must be able to be broken down by micro-organisms.
b) The fluid must not harm living organisms.

Question 26

Why is it a common service procedure to replace the hydraulic filter on a new piece
of machinery after about 100 hours of operation?

Answer 26

To remove built-in contamination from the system.

Question 27

List four (4) entry points of ingressed contamination.

Answer 27

a) reservoir air breathers
b) pump inlet leakage
c) cylinder seals
d) unclean maintenance procedures.

Question 28

A rapid total disabling of a system or component is known as an:

Answer 28

catastrophic failure.

Question 29

Degradation failures are caused by _________

Answer 29

gradual surface wear.

Question 30

What type of contamination comes from external sources?

Answer 30

Ingressed

Question 31

What type of contamination could be drawn in by leakage at the pump inlet?

Answer 31

Air

Question 32

Will hydraulic cylinder seals and wipers remove all fine contaminants from the rod as it retracts?

Answer 32

No. Particles larger than 10 µm (microns) will be brought into the system through ingress contamination

Question 33

What is internally generated contamination?

Answer 33

It refers to particles the break loose from internal surfaces of hydraulic components.

Question 34

Internally generated particles come from where?

Answer 34

Possibly every component in the system.

Question 35

What are three types of failures of hydraulic components related to contamination?

Answer 35

Catastrophic failure intermittent failure degradation failure

Question 36

Small particles blocking a relief valve poppet could cause?

Answer 36

Relief valve to not move and resulting overpressure could sheer drive shafts or split pump housing’s

Question 37

Why is it intermittent failure sometimes called transient failure?

Answer 37

Because the problem often moves from component to component. Often self-correcting which makes it difficult to troubleshoot

Question 38

What is a characteristic of degradation failure?

Answer 38

It will result in excessive internal leakage and progress to catastrophic failure.

Question 39

What is a synthetic fire resistant hyd fluid made up of?

Answer 39

It is made up of chemically remanufactured ester fluids. Most common is phosphate ester fluid.

Question 40

Name the advantages syn fire resistant fluids have over water based.

Answer 40

They can operate at higher pressures.
They offer greatly improved lube qualities.
They are generally more fire resistant.

Question 41

What 2 conditions must oil meet to be qualified as a bio oil by ISO standards?

Answer 41

1) 70-80% must be able to be broken down by micro organisms within a set period of time.
2) must not harm living organisms.

Question 42

What is an ester?

Answer 42

In chemistry, esters are chemical compounds derived from an acid (organic or inorganic) in which at least one -OH (hydroxyl) group is replaced by an -O-alkyl (alkoxy) group.[1] Usually, esters are derived from a carboxylic acid and an alcohol. Glycerides, which are fatty acid esters of glycerol, are important esters in biology, being one of the main classes of lipids, and making up the bulk of animal fats and vegetable oils. Esters with low molecular weight are commonly used as fragrances and found in essential oils and pheromones. Phosphoesters form the backbone of DNA molecules. Nitrate esters, such as nitroglycerin, are known for their explosive properties, while polyesters are important plastics, with monomers linked by ester moieties.

Question 43

What is a problem with vegetable oils being used as a hyd fluid?

Answer 43

They oxidize rapidly when exposed to temps above 60c (140f).

Question 44

There are some problems associated with ester hyd fluids, they are:

Answer 44

They produce acids that damage system components. Nitrile rubber must be replaced with Viton seals.
They react with metals in the system. Particularly zinc, brass and bronze.
Very expensive.

Question 45

Proper hyd fluid should be chosen after considering:

Answer 45

Manufacturers specifications
Ambient conditions
Compatibility

Question 46

There are many contaminants in a system, name some possibilities.

Answer 46

Foreign liquids - water and acids
Metallic particles - iron, steel, aluminum and brass
Non metallic particles - dirt, rubber, lint and flakes of paint

Question 47

There are always contamination built into a system. T/F

Answer 47

True. This is why it is recommended that an oil change be done within a machines first 100 hours.

Question 48

Two hydraulic motors are connected in parallel.The parallel circuit divides what between the two motors?

Answer 48

oil flow

Question 49

What type of equipment would we see a series-parallel hydrulic circuit in?

Answer 49

Automatic two speed skid steer

Question 50

Hydraulic oils can be divided into three general categories. They are:

Answer 50

• petroleum-based hydraulic fluids,
• fire resistant hydraulic fluids and
• biodegradable hydraulic fluids

Question 51

What is Bernoulli’s principle?

Answer 51

Bernoulli’s principle states that as the velocity of a fluid decreases the pressure exerted by the fluid increases

Question 52

True of Flase

The power that a hydraulic system must develop is dependent upon the job that the system is trying to accomplish

Answer 52

True

Question 53

What is the formula for pressure?

Answer 53

Pressure = force/area

Question 54

What is the formula for flow rate

Answer 54

Flow rate = cylinder volume/time

Question 55

What is the formula for output power

Answer 55

Output power (kW) = flow rate(L/min) x pressure (MPa) x 0.0167(constant)

Question 56

Describe hydraulic system inefficiency

Answer 56

A system that does not effectively transmit power is said to be inefficient

Question 57

How is hydraulic system efficiency determined?

Answer 57

Hydraulic system efficiency is determined by comparing output power of a system with the amount of power required to drive the system(input power)

Question 58

Power loss takes two forms what are they?

Answer 58

Pressure loss and flow loss

Question 59

True or false

There must be a difference in potential energy in order for flow to occur in a hydraulic system

Answer 59

True

Question 60

Potential energy that is lost is not destroyed but changed into what type of energy?

Answer 60

Heat energy

Question 61

The greater the pressure lost in the system, the more _____ will be generated

Answer 61

Heat

Question 62

Describe laminar flow

Answer 62

Oil should move through the system in straight parallel flow paths

Conductors of adequate size with smooth transition in cross-section and hl Direction will provide lower fluid velocity and turbulence which results in lower pressure losses and he generation