纺织英语第三版课文翻译电子版课文

Lesson One

Cotton Growing

Cotton is the world's most widely used fiber. Its popularity stems from both its relative ease of production and its applicability to a wide variety of textile products. The price of cotton yarn, however, is strongly dependent upon the cost of labor, so that in the industrialized nations, where labor is expensive, cotton yarns may be relatively high priced.

Until relatively recent times, however, cotton was not as widely used as wool and linen. This was because it was easier to spin wool or flax into yam because of their greater length. In addition, cotton fibers have to be separated from the seeds to which they cling. This procedure was very tedious and time-consuming when done by hand. Early machinery could be used on only the longest staple cotton. So labor costs tended to be very high.

The invention of the saw-type cotton gin made possible the exploitation of the short staple fiber, which thrived in the Carolinas and Virginia of the United States. The dramatic increase in productivity, coupled with the low cost of labor in the southern United States, gave cotton a continually expanding portion of the world textile market. Increasing mechanization of fiber and yarn production helped keep the cost of cotton goods low. The, development of the textile machinery enlarged the production base.

Cotton cultivation requires warm climates with a high level of moisture or irrigation. The growing season is from six to seven months long. During this period the seeds sprout and grow, producing a white blossom in about 100 days. The blossom produces a seed pod, which matures during the next two months. When the pod bursts, the cotton fibers are ready for picking.

Before yam manufacture, cotton is graded, sorted, and blended to insure uniform yam quality. Cotton is graded on the basis of color, staple length, fineness, and freedom from foreign matter. In the United States, cottons are divided into grades according to length of staple, uniformity, strength, color, cleanness and flexibility. These are compared with a standard supplied by the United States Department of Agriculture. The standard provides 6 grades above and 6 grades below the Middling grade. The most common grades are:

(1) Strict good middling.

(2) Good middling.

(3) Strict middling.

(4) Middling.

(5) Strict low middling

(6) Low middling.

(7) Strict good ordinary.

The cotton fiber may be from 0.3 to 5.5 cm long. Under the microscope it appears as a ribbon like structure that is twisted at irregular intervals along its length. The twists, called

convolutions, increase the fiber-to-fiber friction necessary to secure a strong spun yarn. The fiber ranges in color from a yellowish to pure white, and may be very lustrous. However, most cotton dull.

A cross-sectional view reveals that the fiber is kidney-shaped with central hollow core known as the lumen. The lumen provides a channel for nutrients while the plant is growing. The fiber consists of an outer shell, or cuticle, which surrounds the primary wall. The primary wall, in turn, covers the secondary wall surrounding the lumen. The cuticle is a thin, hard shell which protects the fiber from bruising and damage during growth. In use as a textile fiber, the cuticle provides abrasion resistance to cotton.

Lesson Two

Cotton Properties and Uses

A relatively high level of moisture absorption and good wicking properties help make cotton one of the more comfortable fibers. Because of the hydroxyl groups in the cellulose, cotton has a high attraction for water. As water enters the fiber, cotton swells and its cross section becomes more rounded. The high affinity for moisture and the ability to swell when wet allow cotton to absorb about one-fourth of its weight in water. This means that in hot weather perspiration from the body will be absorbed in cotton fabrics, transported along the yarns to the outer surface of the cloth and evaporated into the air. Thus, the body will be aided in maintaining its temperature.

Unfortunately, the hydrophilic nature of cotton makes it susceptible to water-borne stains. Water-soluble colorants such as those in coffee or grape juice will penetrate the fiber along with the water; when the water evaporates, the colorant is trapped in the fiber. Perhaps the major disadvantage to cotton goods is their tendency to wrinkle and the difficulty of removing wrinkles. The rigidity of cotton fiber reduces the ability of yarns to resist wrinkling. When the fibers are bent to a new configuration, the hydrogen bonds which hold the cellulose chains together are ruptured and the molecules slide in order to minimize the stress within the fiber. The hydrogen bonds reform in the new positions, so that when the crushing force is removed the fibers stay in the new positions. It is the rupture and reformation of the hydrogen bonds that helps to maintain wrinkles, so that cotton goods must be ironed.

Cotton is a moderately strong fiber with good abrasion resistance and good dimensional stability. It is resistant to the acids, alkalies, and organic solvents normally available to consumers. But since it is a natural material, it is subject to attack by insects, molds and fungus. Most prominent is the tendency for cotton to mildew if allowed to remain damp.

Cotton resists sunlight and heat well, although direct exposure to constant strong sunlight will cause yellowing and eventual degradation of the fiber. Yellowing may also occur when cotton goods are dried in gas dryers. The color change is the result of a chemical reaction between cellulose and oxygen or nitrogen oxides in the hot air in the dryer. Cottons will retain their whiteness longer

when line-dried or dried in the electric dryer.

Of major interest is the fact that cotton yarn is stronger when wet than when dry. This property is a consequence of the macro-and micro-structural features of the fiber. As water is absorbed, the fiber swells and its cross section becomes more rounded. Usually the absorption of such a large amount of foreign material would cause a high degree of internal stress and lead to weakening of the fiber. In cotton, however, the absorption of water causes a decrease in the internal stresses. Thus, with less internal stresses to overcome, the swollen fiber becomes stronger. At the same time, the swollen fibers within the yarns press upon each other more strongly. The internal friction strengthens the yarns. In addition, the absorbed water acts as an internal lubricant which imparts a higher level of flexibility to the fibers. This accounts for the fact that cotton garments are more easily ironed when damp. Cotton fabrics are susceptible to shrinkage upon laundering.

Perhaps more than any other fiber, cotton satisfies the requirements of apparel, home furnishings, recreational, and industrial uses. It provides fabrics that are strong, lightweight, pliable, easily dried, and readily laundered. In apparel, cotton provides garments that are comfortable, readily dried in bright, long-lasting colors, and easy to care for. The major drawbacks are a propensity for cotton yams to shrink and for cotton cloth to wrinkle. Shrinkage may be controlled by the application of shrink-resistant finishes. Durable-press properties may be imparted by chemical treatment or by blending cotton with more wrinkle-resistant fibers, such as polyester.

In home furnishings, cotton serves in durable, general-service fabrics. Although they may lack the formal appearance of materials made from other fibers, cotton goods provide a comfortable, homey environment. Cotton fabrics have been the mainstay of bed linens and towels for decades, because they are comfortable, durable, and moisture-absorbent. Polyester/cotton blends provide the modern consumer with no-iron sheets and pillowcases that retain a crisp, fresh feel.

For recreational use, cotton has traditionally been used for tenting and camping gear, boat sails, tennis shoes and sportswear. Cotton is particularly well-suited for tent. A tent fabric must be able to "breath", so that the occupants are not smothered in their own carbon dioxide. Furthermore, exchange of air with the outside atmosphere reduces the humidity within the tent and keeps it from becoming stuffy. Fabrics woven from cotton can be open enough to provide good air permeability for comfort. Tents should also shed water, when wet by rain, cotton yarns swell, reducing the interstices between the yarns and resisting the penetration of water. Today, however, heavy canvas gear is being supplanted by light-weight nylon in tenting equipment.

Cotton cord, twine and ropes are used in industry to bind, hold, and lash all kinds of things, from bales to boats. Cotton yarns are used to reinforce belts on drive motors and in work clothing.

Lesson Four

Wool

The early history of wool is lost in antiquity. Sheepskin, including the hair, was probably used long before it was discovered that the fibers could be spun into yarns or even felted into fabric.

There is no evidence to support the theory that wool was the first fiber to be processed into

fabric, but it seems certain that, as a part of the skin, wool was used for covering and protection by prehistoric peoples long before yarns and fabrics were made.

The earliest fragments of wool fabric have been found in Egypt, probably because of the preserving qualities of the climate. These have been dated from 4000 to 3500 B C. The earliest example of wool fabric found in Europe has been dated about 1500 B C; it was unearthed in archeological digs in Germany. Danish sites have yielded excellent fragments of early wool fabrics dated about 1300 to 1000 BC. These fabrics are rough and coarse and contain considerable wild sheep hair.

Wool is a natural fiber of animal origin. Though vegetable fibers were probably the first to be used for spinning and weaving into cloth, animal fibers in the form of skins were the earliest type of clothing worn by man.

There are indications that, as early as the seventh century BC, people began to sell and buy woolen goods. The supply of wool available to the world every year amounts to about 5000 million pounds. After scouring, this is reduced to about 3000 million pounds of pure wool. The wool crop is insufficient to meet the world needs. Pure wool is often mixed with other type fibers and recovered wool to meet the demand.

The qualities of different wools vary greatly. The merino sheep of Australia, South America and South Africa produce very free and soft wool. The quality of wool from these sources depends upon the conditions and heritage of the sheep. Port Philip wool is the finest in Australia and is used to produce the highest quality woolen and worsted fabrics.

Wool from South Africa is very wavy with a good white color and is used for good quality worsted and woolen goods. South American wool is usually of lower quality than wool from Australia or South Africa. Merino wool has been successfully raised in Germany, France, Spain and the United States and is of high quality.

To provide the freest-quality wool, production is scientifically controlled. Sheep are inoculated against disease, dipped in chemicals to protect them against insects, and unless on rangeland, fed diet designed to produce healthy animals.

Wool can be sheared from the living animal or pulled from the hide after the animal has been slaughtered for its meat. Sheared wool is called fleece or clip wool and is quality to pulled wool, which is taken from the hides of slaughtered sheep Wool considered superior

Shearing is currently done very rapidly with power shears. A good worker can completely shear a sheep in less than one minute, sometimes as short as 20 seconds. Recent developments in Australia have led to a process called chemical or biological shearing. The animal is fed a chemical similar to that used in the treatment of cancer, which cause the hair to fall out within two weeks. Within very short time following the loss of the hair, it starts to grow again, and the sheep suffer no damage. Fibers obtained in this way are slightly longer than those sheared from the animal, and there appears to be less physical damage to the fibers.

Usually shearing is done once a year in the early spring, and the fleece is removed in one piece, rolled, packed into bags, and shipped to the nearest processing center. Pulled wool is removed from the hide by one of two methods. It may be treated with a depilatory that loosens the fiber and permits it to be pulled away from the skin without damaging the hide, or it Can be loosened by the action of bacteria on the root end of the fiber. Pulled wool is usually mixed with fleece or clip wool before processing into yarns and fabrics.

Preliminary grading of wool fibers is done while they are still in the fleece, because this step is important in determining cost. Factors used in determining the grade of wool include fiber fineness or diameter and length, the age of the animal, the natural color, the breed of the sheep, and the condition under which the animal lived. After grading, fleeces are shipped to the mill, where they are prepared for further processing into yarns and fabrics.

Wool is attacked by hot sulfuric acid and decomposes completely. most other mineral acids of all strengths. Wool will dissolve in caustic soda solutions that would have little effect on cotton.

Lesson Five

Structure and Properties of Wool

Under the microscopic observation, the length of the wool fiber shows a scale structure. The size of the scale varies from very small to comparatively broad and large. As many as 700 scales are found in 1 cm of fine wool, whereas coarse wool may have as few as 275 per cm. Fine wool does not have as clear and distinct scales as coarse wool, but they can be identified under high magnification.

A cross section of wool shows three distinct parts to the fiber. The outer layer, called cuticle, is composed of the scales. These scales are somewhat horny and irregular in shape, and they overlap, with the top pointing towards the tip of the fiber; they are similar to fish scales. The major portion of the fiber is the cortex (composed of cortical cells ); this extends toward the center from the cuticle layer. Cortical cells are long and spindle-shaped and provide fiber strength and elasticity. The cortex accounts for approximately 90 percent of the fiber mass. In the center of the fiber is the medulla. The size of the medulla varies and in fine fibers may be invisible. This is the area through which food reached the fiber during growth, and it contains pigment that gives color to fibers.

Wool fibers vary in length from 3.8 to about 38 cm. Most authorities have determined that fine wools are usually from 3.8 to 12.7 cm; medium wool from 6.4 to 15.2 cm; and long (coarse) wools from 12.7 to 38 cm.

The width of wool also varies considerably. Fine fibers such as Merino have an average width of about 15 to 17 microns; whereas medium wool averages 24 to 34 microns and coarse wool about 40 microns. Some wool fibers are exceptionally stiff and coarse; these are called kemp and average about 70 microns in diameter.

The wool fiber cross section may be nearly circular, but most wool fibers tend to be slightly

elliptical or oval in shape. Wool fibers have a natural crimp, a built-in waviness. The crimp increases the elasticity and elongation properties of the fiber and also aids in yarn manufacturing. It is three-dimensional in character; in other words, it not only moves above and below a central axis but also moves to the right and left of the axis.

There is some luster to wool fibers. Fine and medium wool tends to have more luster than very coarse fibers. Fibers with a high degree of luster are silky in appearance.

The color of the natural wool fiber depends on the breed of sheep. Most wool, after scouring, is a yellowish-white or ivory color. Some fibers may be gray, black, tan or brown.

The tenacity of wool is 1.0 to 1.7 grams per denier when dry; when wet, it drops to 0.7 to 1.5 g/d. Compared with many other fibers, wool is weak, and this weakness restricts the kinds of yarns and fabric constructions that can be used satisfactorily. However, if yarns and fabrics of optimum weight and type are produced, the end-use product will give commendable wear and retain shape and appearance. Fiber properties such as resiliency, elongation, and elastic recovery compensate for the low strength.

Wool has excellent elasticity and extensibility. At standard conditions the fiber will extend between 20 and 40 percent. It may extend more than 70 percent when wet. Recovery is superior. After a 2 percent elongation the fiber has an immediate regain or recovery of 99 percent. Even at 10 percent extension, it has a recovery of well over 50 percent, which is higher than for any other fiber except nylon.

The resiliency of wool is exceptionally good. It will readily spring back into shape after crushing or creasing. However, through the application of heat, moisture and pressure, durable creases or pleats can be put into wool fabrics. This crease or press retention is the result of molecular adjustment and the formation of new cross-linkages in the polymer. Besides resistance to crushing and wrinkling, the excellent resilience of wool fiber gives the fabric its loft, which produces open, porous fabrics with good covering power, or thick, warm fabrics that are light in weight. Wool is very flexible and pliable, so it combines ease of handling and comfort with good shape retention.

The standard moisture regain of wool is 13.6 to 16.0 percent. Under saturation conditions, wool will absorb more than 29 percent of its weight in moisture. This ability to absorb is responsible for the comfort of wool in humid, cold atmospheres. As part of the moisture absorption function, wool produces or liberates heat. However, as wet wool begins to dry, the evaporation causes heat to be absorbed by the fiber, and "chilling" may be experienced, though the chilling factor is slowed down as the evaporation rate is reduced. The property of moisture absorption and desorption peculiar to wool and similar hair fibers is called hygroscopic behavior. Wool accepts colors and finishes easily because of its moisture absorption properties.

Despite the absorption properties of wool, it has an unusual property of exhibiting hydrophobic characteristics. That is, it tends to shed liquid easily and appears not to absorb moisture.

The cause is a combination of factors: interfacial surface tension, uniform distribution of

pores, and low bulk density. These moisture properties help make wool very desirable for use in a variety of situations where moisture can be a problem to comfort.

Wool fibers are not dimensionally stable. The structure of the fiber contributes to a shrinking and felting reaction during processing, use and care. This is due, in part, to the scale structure of the fiber. When subjected to heat, moisture, and agitation, the scales tend to pull together and move toward the fiber tip. This property is noticeable in yarns and fabrics and is responsible for both felting and relaxation shrinkage.

Lesson Six

Silk

For approximately 3000 years China successfully held the secret of silk and sericulture and held a virtual monopoly on the silk industry. About AD 300 Japan learned the secret of raising silkworms and reeling the filaments from the cocoons.

Throughout history, silk has maintained a position of great prestige and is considered a luxury fiber. It is often called the "queen of fibers" Perhaps one of the most important contributions silk has made in the history of textiles is that it was responsible for investigation into the possible production of man-made fibers. Scientists observed how the silkworm spun the fibers and believed that people could duplicate the art.

Silk is one of the strongest natural fibers used in creating textile products. It has a tenacity of 2.4 to 5.1 grams per denier when dry. Wet strength is about 80 to 85 percent of the dry strength. Silk has good elasticity and moderate elongation, when it is dry, the elongation varies from 10 to25 percent; when wet, silk will elongate as much as 33 to 35 percent. At 2 percent elongation the fiber has a 92 percent elastic recovery.

Silk has medium resiliency. Creases will hang out relatively well, but not so quickly or completely as for wool.

The density of specific gravity of silk is cited as 1.25 to 1.34 grams per cubic centimeter, depending on the resource used. Because of the nature of silk, it is possible that the density varies among fibers as well as between the various types of moths that form the fiber. Another source of variation may be due to methods used in determining density. In any case, the density results in the formation of lightweight but strong filaments, yarns and fabrics.

Silk has a relatively high standard moisture regain of 11 percent. At saturation the regain is 25 to 35 percent. This relatively high absorption is helpful in applying dyes and finishes to silk; however, unlike many fibers, silk also absorbs impurities such as metal salts. These contaminants tend to damage silk by weakening the fiber or causing actual ruptures to occur when the fabric is not handled properly.

Silk will ignite and continue to burn when there is another source of flame. After removal from the source, it will sputter and eventually extinguish itself. It leaves a crisp, brittle ash and

gives off an order like that of burning hair or feathers. It burns similarly to wool.

Like other protein fibers, silk has a lower thermal or heat conductivity than cellulosic fibers. This factor, coupled with certain methods of construction, creates fabrics that tend to be warmer than comparable fabrics of cellulosic fibers.

Silk is damaged by strong alkalies and will dissolve in heated caustic soda ( NaOH ); however, silk reacts more slowly than wool, and frequently the identity of the two fibers can be determined by the speed of solubility in NaOH. Weak alkalies such as soap and ammonia cause little or no damage to silk unless they remain in contact with the fiber for a long time.

Silk protein, like wool, can be decomposed by strong mineral acids. Medium concentrations of hydrochloric acid will dissolve silk, and moderate concentrations of other mineral acids cause fiber contraction and shrinkage, The molecular arrangement in silk permits rapid absorption of acids but tends to hold the acid molecules, so they are difficult to remove. This accounts for some of the acid damage to fibroin that does not occur to keratin. Organic acids do not damage silk and are used in some finishing processes. Some authorities maintain that the scroop of silk—a rustling or crunching sound which used to be considered a natural characteristic, is actually developed by exposure to organic acids.

Silk has been the queen of fabrics for centuries. As in the past, it is still used for luxury fabrics and for high-fashion items. It is frequently considered to be a sensuous fabric because of its smooth and soft feel, or hand.

Dry cleaning is the preferred method of care for silk fabrics and products. If handled carefully, however, silk fabrics can be laundered. A mild soap or synthetic detergent in warm, not hot, water should be used, and minimal handling is recommended. Thorough rinsing is required, and the best method for extracting water is to roll the garment in a towel and then hang it in a cool place, out of the sun, to dry. Tumble drying should not be attempted unless a care label specifies that such procedures are acceptable. Silk should be ironed or pressed at medium to low temperatures; steam is acceptable.

When silk requires bleaching, hydrogen peroxide or perborate bleaches must be used, as chlorine bleaches may destroy the silk.

One problem with silk is that body perspiration tends to weaken the fibers and frequently will alter the color. Many deodorants and antiperspirants contain aluminum chloride, which damage silk. It is advisable to wear protective dress shields if perspiration is a serious problem.

Several factors are involved in the demand for silk. It offers an incredible variety in fabric and yarn structure. Through dyeing, many beautiful fabrics can be produced. Probably no other fiber is so widely accepted and suitable for various occasions. It is versatile and can be used in almost any type of apparel and in a wide variety of fabrics for home furnishings.

Many silk fabrics cost considerably more than similar fabrics for man-made fibers. However, the consumer who has formed an attachment to silk is willing to pay the high price. Because silk

combines strength, flexibility, good moisture absorbency, softness, warmth, luxurious appearance, and durability, choice products for the discerning consumer are made of this fiber. Its use, however, is limited primarily to apparel and home furnishings such as draperies and accessories.

Lesson

Seven

Flax

Flax is a bast fiber——a woody fiber obtained from the phloem plants. It derives from the stalk or stem of the plant. The flax plant requires a temperate climate with generally cloudy skies and adequate moisture. Bright sunlight and high temperatures are damaging unless alternated with abundant rainfall. Flaxseed is planted in April or May. When the crop is to be used for fiber, the seed is sown close together so that the plants will be closely packed and produce fine plants with long, thin stems. The plants grow to a height of 0.9 to 1.2 meters for fiber use. The blossoms are a delicate pale blue, white, or pink. Flax for fiber is pulled before the seeds are ripe.

Flax for fiber is pulled by hand in some countries or by mechanical pullers. It is important to keep the roots intact, as fibers extend below the ground surface. Harvesting occurs in late August when the plant is a brown color. After drying, the plant is ripped; that is, it is pulled through special threshing machines that remove the seed bolls or pods.

To obtain fibers from the stalk, the outer woody portion must be rotted away. This process, known as retting, can be accomplished by any of several procedures.

Dew retting involves the spreading of the flax on the ground, where it is exposed to the action of dew and sunlight. This natural method of retting gives uneven results but provides the strongest and most durable linen. It requires a period of 4 to 6 weeks.

Pool retting is a process whereby the flax is packed in sheaves and immersed in pools of stagnant water. Bacteria in the water rot away the outer stalk covering. The time required is 2 to 4 weeks.

Tank retting similar to pool retting, utilizes large tanks in which the flax is stacked. The tanks are filled with warm water, which increases the speed of bacterial action. Tank retting requires only a few days. Both pool and tank retting give good-quality flax that is uniform in strength and light in color.

Chemical retting is accomplished by stacking the flax in tanks, filling the tanks with water, and adding chemicals such as sodium hydroxide, sodium carbonate, or dilute sulfuric acid. Chemical retting can be completed in a matter of hours instead of days or weeks. However, it must be carefully controlled in order to prevent damage to the fiber.

After the retting is complete, the flax is rinsed and dried. The stalks are then bundled together and pressed between fluted rollers that break the outer woody covering into small particles. It is then scutched to separate the outer covering from the usable fiber.

After scutching, the flax fibers are hackled, or combed. This operation separates the short fibers, called tow, from the long fibers, called line. This is accomplished by drawing the fibers between several sets of pins, each successive set finer than the preceding set. This process is similar to the carding and combing operation used for cotton and prepares the flax fibers for the final steps in yarn manufacture. As the fibers are removed from the hackling machine, they are drawn out into a sliver.

The flax sliver is drawn out into yarn, and twist is imparted. Flax fibers are spun either dry or wet, but wet spinning is considered to give the best quality yarn. The final yarn processing is similar to that used for cotton fiber.

Flax fiber is not so fine as cotton; flax cells have an average diameter of 15 to 18 microns and vary in length from 0.63 to 6.35 cm. Bundles of cells form the actual fiber as it is used in spinning into yarns, and these bundles may be anywhere from 12.7 to 50.8 cm long. Line fibers are usually more than 30.5 cm long; tow fibers are shorter.

The natural color of flax varies from light to ivory to gray. The choice fibers from Belgium are a pale sandy color and require little or no bleaching.

Flax fibers have a high natural luster with an attractive sheen.

Flax is a strong fiber; the normal tenacity ranges between 5.5 and 6.5 grams per denier. Some fibers of inferior quality may have a tenacity as low as 2.6 g/d, and some top quality fiber may exhibit a tenacity as high as 7.7 g/d. Fabrics of flax are durable and easy to maintain because of the fiber strength. When wet, the fiber is about 20 percent stronger than when dry.

Most linen fabrics for apparel use have been given various resin finishes to provide consumers with easy-care performance. These finishes reduce the strength of flax so that these fabrics tend to give less durability.

Flax has low pliability or flexibility, which may result in reduced serviceability in uses where frequent bending is required.

Flax has a standard moisture regain of about 12 percent. The saturation regain is comparable to that of other cellulosic fibers. Flax has outstanding wicking properties, which make it possible to move moisture along the fibers and yarns as well as to absorb moisture.

Like other cellulose fibers, flax burns quickly. It is highly resistant to decomposition or degradation by dry heat and will withstand temperatures to 150。C for long period with little or no change in properties. Prolonged exposure above 150。C will result in gradual discoloration. Safe ironing temperature may go as high as 260。C as long as the fabric is not held at that high temperature for any length of time.

The strength of flax fibers makes it possible to manufacture a wide variety of yarns, from very fine to very heavy, which can be used to make a wide variety of fabrics, from the sheer and loose to heavy and compact. Linen is a frequent choice for table coverings because it wears well, looks extremely attractive and elegant, and when properly finished, lies flat on the table. To achieve this flat effect, a beetling finish is often used.

The natural resistance of flax to chemicals, including detergents, bleaches, other laundry aids, and dry-cleaning solvents, provides a fabric that is easily maintained. Further, these properties, plus resistance to sunlight, inherent fiber strength, and resistance to aging, result in fabrics with along life.

八上英语课文翻译

2018年新版八年级上册1 - 10单元 (课文+翻译) 八年级上册1 - 10单元(课文+翻译) Unit 1 Where did you go on vacation? ---------------------------------- P 2 你去哪儿度假了？ Unit 2 How often do you exercise? -------------------------------------- P4 你多久锻炼一次？ Unit 3 I’m more outgoing than my sister. ----------------------------- P6 我比我的姐妹外向。 Unit 4 What’s the best movie theater? ---------------------------------- P8 最好的电影院是哪家？ Unit 5 Do you want to watch a game show? -------------------------- P 10 1

你想看个游戏节目吗？ Unit 6 I'm going to study computer science. ------------------------- P 12我打算学习计算机科学。 Unit 7 Will people have robots? ---------------------------------------- P 14人们将会有机器人吗？ Unit 8 How do you make a banana milk shake? -------------------- P16 你怎样制作香蕉奶昔？ Unit 9 Can you come to my party? ------------------------------------P18 你能来我的聚会吗？ Unit 10 If you go to the party, you’ll have a great time! -------------P20如果你去参加聚会的话，你将会玩得非常高兴！ Unit 1 Where did you go on vacation? 你去哪儿度假了？Section A —1b（P1） Conversation 1（对话1） Xiang Hua: Hey, Tina. Where did you go on vacation? 嘿，蒂娜。你去哪儿度假了？ Tina: I went to the mountains with my family. 我和家人去爬山了。Xiang Hua: Did everyone have a good time? 大家都玩得开心吗？Tina: Oh, yes. Everything was excellent. Where did you go, Xiang Hua? 哦，是的。一切都很棒。你去哪儿了，项华？ Xiang Hua: I went to New York City. 我去了纽约市。Conversation 2（对话2） Girl: Where did you go on vacation, Sally? 莎莉，你去哪儿度假了？Sally: Nothing. I just stayed at home. 没有，我只是呆在家里。Girl: And did you do anything interesting, Bob? 你做了什么有趣的事吗，鲍勃？ Bob: Yes, I visited my uncle. We went fishing, but we didn’t get any fish. 是的，我看望了我叔叔。我们去钓鱼了，但是没钓到鱼。Conversation 3（对话3） Boy: Did you go anywhere on vacation, Tom? 汤姆，假期你去了什么地方吗？ Tom: I went to summer camp. 我去了夏令营。 Boy: Did you go with anyone? 你和别人去的吗？ 2

英语1.3.5单元课文翻译

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Unit4 无子女家庭：亘古生息的反叛 1二十好几的凯茜、韦恩夫妇结婚已有五年之久，膝下犹虚。上次凯茜娘家有一个人问：“你们打算什么时候要孩子?”她答道：“我们就是孩子!” 2凯茜与韦恩属于一代人数日益增长、决定不要孩子的年轻已婚夫妇群体。最近一项调查显示在过去的五年中，年龄在25至29岁之间妇女不愿生养的百分比几乎翻了一番，在18至24岁的已婚妇女中几乎增至三倍。在这个似乎大胆反抗生物性和社会性的决定后面隐藏着什么原因呢? 3或许最能公开坦陈心曲的无子女夫妇是《婴儿陷阱》一书的作者：埃伦，派克，其夫威廉，一位广告总经理兼全国不生养夫妇协会主席。派克夫妇认为他们和协会均无意反对生儿育女，不过是反对迫使人们传宗接代的社会压力，它无视人们是否殷切盼望和真的需要孩子或者根本不好此道。 4“这是一种生活方式的选择，”埃伦说，“我们选择自由和自愿，清净和闲暇。这也是一个朝哪个方向付出努力的问题——在你自己的小家庭之内或在一个大的社团之中。这一代人面临有关地球生命延续的严重问题以及生命质量的问题。我们的孙男孙女也许将购票去观赏最后一批红松林或排队去获取氧气配给。有人抱怨在回家见五个孩子的途中被交通堵塞困住好几个小时，但是他们不能将孩子与交通堵塞联系起来。在一个受到人口过剩一系列后果威胁的世界上，我们正在参与一项事业使膝下无子的生活模式为社会所接受并受世人尊重。太多的孩子作为一种文化强制的后果而呱呱坠地，离婚和虐待儿童的相关统计充分揭露了这一结果。” 5埃伦的丈夫补充说：“每位朋友、亲戚、同事不停地给你施加压力，劝你要孩子，说什么‘发现你生活中失去的东西’。好多好多人很晚才发现，所谓他们失去的东西其实是他们完全不适合做的事情。” 6埃伦还说：“从抱第一个洋娃娃开始，大到欣赏电视肥皂剧，成年后参加鸡尾酒会，无形之中，总有一种压力要你为人父母。但是让我们来看看养育失败的比率吧，或许天下父母应该视为像当医生一样的专门职业。有些人擅长此道，他们应当生养孩子；有些人一窍不通，他们应该认为他们还有其他的选择。” 7专业观察家同意这一看法：很多人生养孩子没有正当的理由，有时候则完全没有理由。男人常常稀里糊涂就当上了父亲，根本就没有作出审慎的选择；对许多妇女来说，怀孕能够成为逃脱不可消解)中突的一种方式，譬如，迅速获得身份，或者为卑贱的自我形象增添砝码，满足关注和垂爱的需要，她们觉得在孩提时代从来就没有感受到这份亲情。 8我与许多人类行为领域的专家交谈，探讨为什么那么多年轻夫妇决定不要孩子，他们的看法也是众说纷纭。一位家庭治疗专家把不要孩子的决定描写为“对当今世界形势基本的本能反应”，暗示像动物群集本能那样的东西正在起作用，作为对人口过剩、城市拥挤、环境污染与核战争危险的一种反应。群集本能促使妇女感到繁殖人口有违心愿，并指引她们去寻找在家庭生活之外实现自我价值的新方式。 9不止一位精神病医生暗示，凡是不愿生育的人有自恋癖——在关于照顾别人与受人照顾这