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Text 1. Principles of Hydraulics



Hydraulics is a division of the science of fluid mechanics which includes the study of liquids and their physical characteristics, both at rest and in motion. The type of hydraulics applied to aircraft and other aerospace-vehicle systems is called power hydraulics because it involves the application of power through the medium of hydraulics. Among the uses of hydraulic systems in aerospace-vehicle components are the operation of landing gear doors, flight controls, brakes, and a wide variety of other devices requiring high power, quick action, and/or accurate control.

In general, and for practical purposes, liquids are regarded as being incompressible. This means that the volume of a given quantity of a liquid will remain constant even though it is subjected to high pressure. Because of this characteristic, it is easy to determine the volume of hydraulic fluid required to move a piston through its operating range.

The volume of the cylinder through which the piston moves is equal to the area of the piston head multiplied by the length of the cylinder. Because of the relative incompressibility of a liquid, we know that a given output volume from a hydraulic pump will provide an equal volume of fluid at the operating unit.

Hydraulic fluids and other liquids expand as temperature increases; hence, safeguards must be provided in hydraulic systems to allow for the expansion and contraction of fluids as temperature changes. Devices to provide the necessary protection are called thermal relief valves. A liquid which is confined will seek its own level and the pressure is the same at all points on the bottom of the container. The liquid surfaces at all points are all equidistant from the bottom of the container.

A basic principle of hydraulics is expressed in Pascal’s law formulated by Blaise Pascal in the seventeenth century. This law states that a confined hydraulic fluid exerts equal pressure at every point and in every direction in the fluid. This is true under static conditions and when the force of gravity is not taken into consideration. In actual practice the weight of the fluid would cause a small increase in the pressure on the bottom and lower sides of the container.

When liquids are in motion, certain dynamic characteristics must be taken into consideration. One of the principal factors in liquid motion is friction. Friction exists between the molecules of the liquid and between the liquid and the pipe through which it is flowing. The effects of friction increase as the velocity of liquid flow increases. Friction in a moving liquid produces heat, and this heat represents a loss of energy in a hydraulic system. According to the law of conservation of energy, which states that energy can neither be created nor destroyed, energy converted to heat must be subtracted from the total energy of the moving liquid. Hence, if a hydraulic pump is discharging hydraulic fluid the power available for useful work is reduced.

 

Exercise 3. Answer the questions on text 1.

1. What do you associate the word ‘hydraulic’ with?

2. What does hydraulics study?

3. What property of liquids is used in hydraulic power systems?

 

Exercise 4. Put key questions to text 1.

 

Exercise 5. Find equivalents to the following words and word combinations in text 1.

Фізичні характеристики; як … такі; у стані спокою; під час руху; аерокосмічні транспортні системи; безліч; в обмеженому просторі; чинити однаковий тиск; брати до уваги; перепад тиску; втрата енергії; закон збереження енергії; звідси / отже; для практичного застосування; вважатися такими, що не стискаються; треба вживати запобіжні пристрої; забезпечувати необхідний захист; гідравлічна рідина в обмеженому просторі; справляти однаковий тиск; в статичних умовах; сила тяжіння; брати до уваги; відповідати дійсності; площа, помножена на довжину; в міру того, як збільшується швидкість; на практиці.

Exercise 6. Find synonyms in text 1 to the following words.

Part, properly, two, is named, usage, facilities, precise, search, tank, principle, influence, tube, speed, preservation, general, thus, decrease.

 

Exercise 7. Match the terms (A) with their definitions (B).

A B
1) velocity a) the process of moving or the way that someone or something moves.
2) friction b) energy that can be used to make a machine work or to make electricity.
3) pressure c) a piece of equipment that makes a vehicle go more slowly or stop.
4) motion d) the natural force that prevents one surface from sliding easily over another surface.
5) power e) the way something or someone moves, faces or is aimed.
6) brake f) the force produced by the quantity of gas or liquid in a place or container.
7) volume g) the speed of something that is moving in a particular direction.
8) direction h) the total amount of something, especially when it is large or increasing.

 

Exercise 8. Translate the following “noun+noun” clusters.

Lubrication system, fluid mechanics, output volume, temperature increase, temperature changes, liquid surface, liquid motion, flight controls, liquid flow, windshield wiper reservoir, power plant, aerospace-vehicle systems, landing gear doors, relief valves, liquid flow increase, piston head, power hydraulics, fluid ocean, fluid atmosphere, gas tank, engine combustion chamber, exhaust manifold, container bottom and sides, windmill.

 

Exercise 9. Speak on:

1. What is meant by the term ‘incompressibility’?

2. Why is it easy to determine the volume of hydraulic fluid required to move a piston through its operating range?

3. What safeguards must be provided in hydraulic systems?

Exercise 10. Match the English-Ukrainian equivalents.

1) volume 2) quantity 3) liquid 4) pressure 5) piston 6) operating range 7) length 8) cylinder 9) compressibility 10) pump 11) expansion 12) safeguard 13) contraction 14) valve 15) protection   a) циліндр b) насос c) розширення d) об’єм e) клапан f) довжина g) рідина h) тиск i) запобіжник j) поршень k) захист l) стискуванність m) стиснення n) кількість o) радіус дії  

 

Exercise 11. Make questions for each sentence below with reference to text 1 using the question word given in brackets.

1. Hydraulics studies liquids and their physical characteristics (What…?) (2 questions)

2. The type of hydraulics applied to aircraft is called power hydraulics (What …?) (2 questions)

3. The pressure is the same at all points on the bottom of the container (Where …? What …?) (3 questions)

4. A basic principle of hydraulics is expressed in Pascal’s law (In what law …? What …?) (3 questions)

5. Pascal’s law is true under static conditions (When …?)

6. The weight of the fluid would cause a small increase in the pressure (What …?) (3 questions)

 

Exercise 12. Translate into English.

1. Розділ науки, яка займається вивченням фізичних властивостей рідини, називається гідравлікою. 2. Об’єм рідини залишається незмінним навіть при дуже високому тиску. 3. Об’єм циліндра, вздовж якого рухається поршень, дорівнює площі днища циліндра, помноженій на його довжину. 4. Підвищення температури призводить до розширення рідини. 5. Французький вчений Паскаль сформулював основний принцип гідравліки ще в 17 столітті. 6. Закон, сформульований Паскалем, є діючим тільки за умови, що сила тяжіння не враховується. 7. Необхідно брати до уваги деякі динамічні характеристики рідин що рухаються. 8. Тертя виникає між молекулами рідини, а також між рідиною і поверхнями труби, якою вона тече. 9. При збільшенні потоку рідини збільшується ефект тертя, а об’єм корисної роботи відповідно зменшується. 10. Закон збереження енергії говорить, що енергія ані з’являється, ані зникає,, вона переходить з однієї форми в іншу.

 

Exercise 13. Answer the questions on text 1.

1. What does hydraulics study? 2. What type of hydraulics is called power hydraulics and why? 3. In what aerospace-vehicle systems are hydraulic systems widely used? 4. What is meant by incompressibility of liquids? 5. Due to what characteristic of liquids must safeguards be provided in hydraulic systems? 6. What will a confined liquid seek? 7. Who expressed a basic principle of hydraulics and when was it done? 8. What does Pascal’s law state? 9. When is this law true? 10. What is one of the principal factors in liquid motion? 11. What does the law of conservation of energy state?

 

Exercise 14. Make a summary of text 1.

 

Exercise 15. Memorize the following words and word combinations to text 2.

Power - сила, потужність

product - добуток

force times distance - сила помножена на відстань

define - давати визначення, визначати як …

push - штовхати

pull - тягнути

cause - 1) причина; підстава, привід 2) спричиняти, заподіювати

determine - визначати, встановлювати

inch - дюйм (2,54 см)

lb (pound) - фунт (453, 6 г)

amount - кількість; сума

advantage - превага

ft - foot (pl. feet) - фут

multiply - помножувати

application - застосування

create - створювати

destroy - знищувати, винищувати

at the expense of - за рахунок

actuating cylinder - силовий циліндр

cross-sectional area - плаща поперечного перерізу

 

Exercise 16. Read and translate text 2.







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