Vocabulary

Date: 2015-10-07; view: 400.

Mechanical engineering

MECHANICAL ENGINEERING

LESSON 5, 6

Summarize the text

Answer the questions

Give the synonyms

Exercises

Classes of materials (by bond types)

Materials science encompasses various classes of materials, each of which may constitute a separate field. Materials are sometimes classified by the type of bonding present between the atoms:

1. Ionic crystals

2. Covalent crystals

3. Metals

4. Intermetallics

5. Semiconductors

6. Polymers

7. Composite materials

8. Vitreous materials

Joining

Rustproof

Augment

Strength

Lap

Rather

Cheap

Great number of

Mobile phone

Normally

1. What does the material engineer deal with?

2. What is material science?

3. What does material science study?

4. What are the most wide-spread metal alloys? Why?

Application of principles

Core concepts

Motor vehicles

Ancient and medieval societies

Throughout the globe

Remarkable contributions

Cam shafts

To range from the ocean bottoms to space

To pursue a postgraduate degree

Split a subject into multiple classes

Strength of materials

To gain practical problem-solving experience

Hold internships

Possess the necessary technical knowledge

Computer-aided design (CAD)

Designing mating interfaces and tolerances

To predict product response to expected loads

Iterate the design process

To merge with other disciplines

The text is taken from: http://en.wikibooks.org/wiki/Materials_Science

Mechanical Engineering is an engineering discipline that involves the application of principles of physics for analysis, design, manufacturing, and maintenance of mechanical systems. Mechanical engineering is one of the oldest and broadest engineering disciplines.

It requires a solid understanding of core concepts including mechanics, kinematics, thermodynamics, fluid mechanics, and energy. Mechanical engineers use the core principles as well as other knowledge in the field to design and analyze motor vehicles, aircraft, heating and cooling systems, watercraft, manufacturing plants, industrial equipment and machinery, robotics, medical devices and more.

Applications of mechanical engineering are found in the records of many ancient and medieval societies throughout the globe. In ancient Greece, the works of Archimedes (287 BC–212 BC) and Heron of Alexandria (c. 10–70 AD) deeply influenced mechanics in the Western tradition. In China, Zhang Heng (78–139 AD) improved a water clock and invented a seismometer, and Ma Jun (200–265 AD) invented a chariot with differential gears. The medieval Chinese horologist and engineer Su Song (1020–1101 AD) incorporated an escapement mechanism into his astronomical clock tower two centuries before any escapement could be found in clocks of medieval Europe, as well as the world's first known endless power-transmitting chain drive.

During the years from 7th to 15th century, the era called islamic golden age, there have been remarkable contributions from Muslims in the field of mechanical technology, Al Jaziri, who was one of them wrote his famous "Book of Knowledge of Ingenious Mechanical Devices" in 1206 presented many mechanical designs.

During the early 19th century in England and Scotland, the development of machine tools led mechanical engineering to develop as a separate field within engineering, providing manufacturing machines and the engines to power them. The first British professional society of mechanical engineers was formed in 1847, thirty years after civil engineers formed the first such professional society. In the United States, the American Society of Mechanical Engineers (ASME) was formed in 1880, becoming the third such professional engineering society, after the American Society of Civil Engineers (1852) and the American Institute of Mining Engineers (1871). The first schools in the United States to offer an engineering education were the United States Military Academy in 1817, an institution now known as Norwich University in 1819, and Rensselaer Polytechnic Institute in 1825. Education in mechanical engineering has historically been based on a strong foundation in mathematics and science.

The field of mechanical engineering is normally considered the broadest of all engineering disciplines. The work of mechanical engineering ranges from the ocean bottoms to space.