材料科学与工程专业英语教材全套课件教学教程整本书电子教案全书教案课件.ppt

1、材料科学与工程专业英语材料科学与工程专业英语课程简介共20学时（课堂14学时，课后6学时）考试：开卷，当堂完成教材：材料科学与工程专业英语第二版主要内容和课时安排Introduction to materials science and engineering(4学时)Metallic materials and alloys（4学时）Ceramics（2学时）Polymer（2学时）Composites（2学时）Nanostructured materials（2学时）Part 1 Introduction to materials science and engineeringUnit 1

2、 Physical and chemical properties of materialsUnit 2 Mechanical properties of materialsUnit 1 Physical and chemical properties of materialsPhysical properties are those that can be observed without changing the identity of the substance.The general properties of matter such as color,density,hardness

3、,are examples of physical properties.Properties that describe how a substance changes into a completely different substance are called chemical properties.Flammability and corrosion/oxidation resistance are examples of chemical properties.In general,some of the more important physical and chemical p

4、roperties from an engineering material standpoint include phase transformation temperatures,density,specific gravity,thermal conductivity,linear coefficient of thermal expansion,electrical conductivity and resistivity,magnetic permeability,and corrosion resistance,and so on.磁导率磁导率Phase Transformatio

5、n TemperaturesWhen temperature rises and pressure is held constant,a typical substance changes from solid to liquid and then to vapor.Transitions from solid to liquid,from liquid to vapor,from vapor to solid and visa versa are called phase transformations or transitions.Since some substances have se

6、veral crystal forms,technically there can be solid to another solid from phase transformation.Melting point:the phase transition temperature where a solid changes to a liquidBoiling point:the temperature at which the vapor pressure of a liquid equals 1 atm(101.3 kPa)Some materials,such as many polym

7、ers,do not go simply from a solid to a liquid with increasing temperature.Instead,at some temperature below the melting point,they start to lose their crystalline structure but the molecules remain linked in chains,which results in a soft and pliable material.The temperature at which a solid,glassy

8、material begins to soften and flow is called the glass transition temperature.DensityMass can be thinly dsitrbuted as in a pillow,or tightly packed as in a block of lead.质量可以像枕头似地稀疏地分布，也可以像铅那样紧紧地堆积在一起。The space the mass occupies is its volume,and the mass per unit of volume is its density.Mass(m)is

9、a fundamental measure of the amount of matter.Weight(w)is a measure of the force exerted by a mass and this force is produced by the acceleration of gravity.Therefore,on the surface of earth,the mass of an object is determined by dividing the weight of an object by 9.8 m/s2(the acceleration of gravi

10、ty on the surface of the earth).因此，在地球表面，物体的质量由物体的重量和重力加速度因此，在地球表面，物体的质量由物体的重量和重力加速度所决定。所决定。Since we are typically comparing things on the surface of the earth,the weight of an object is commonly used rather than calculating its mass.The density(r)of a material depends on the phase it is in and the

11、temperature(the density of liquids and gases is very temperature dependent).Water in the liquid state has a density of 1 g/cm3 at 4.Ice has a density of 0.917 1 g/cm3 at 0,and it should be noted that this decrease in density for the solid phase is unusual.For almost all other substances,the density

12、of the solid phase is greater than that of the liquid phase.Water vapor has a density of 0.051 g/cm3.Specific GravitySpecific gravity is the ratio of density of a substance compared to the density of fresh water at 4.At this temperature the density of water is at its greatest value and equal to 1 g/

13、mL.Since specific gravity is a ratio,so it has no units.An object will float in water if its density is less than the density of water and sink if its density is greater than that of water.Similarly,an object with specific gravity less than 1 will float and those with a specific gravity greater than

14、 1 will sink.Specific gravity values for a few common substances are Au,19.3;mercury,13.6;alcohol,0.7893;benzene,0.8786.Note that since water has density of 1 g/cm3,the specific gravity is the same as the density of the material measured in g/cm3.Magnetic PermeabilityMagnetic permeability or simply

15、permeability is the ease with which a material can be magnetized.It is a constant of proportionality that exists between magnetic induction and magnetic field intensity.磁感应强度磁感应强度磁场强度磁场强度This constant is equal to approximately 1.25710-6 Henry per meter(H/m)in free space(a vacuum).In other materials

16、it can be much different,often substantially greater than the free-space value,which is symbolized 0.其他材料却截然不同，通常远大于真空值。其他材料却截然不同，通常远大于真空值。Materials that cause the lines of flux to move farther apart,resulting in a decrease in magnetic flux density compared with a vacuum,are called diamagnetic.Mater

17、ials that concentrate magnetic flux by a factor of more than one but less than or equal to ten are called paramagnetic;materials that concentrate the flux by a factor of more than ten are called ferromagnetic.The permeability factors of some substances change with rising or falling temperature,or wi

18、th the intensity of the applied magnetic field.Exercises Translate the following into Chinese Phase transformation temperaturesSpecific gravityThermal conductivityThe melting pointThe acceleration of gravityMagnetic permeabilityMagnetic lines of fluxferromagneticTranslate the following into English

19、相对密度相对密度 沸点沸点 磁感应磁感应热导率热导率 玻璃转变温度玻璃转变温度 有色金属有色金属线性热膨胀系数线性热膨胀系数 单位体积质量单位体积质量Unit 2 Mechanical Properties of MaterialsThe mechanical properties of a material are those ones that involve a reaction to an applied load.The common properties considered are strength,ductility,hardness,impact resistance,and

20、 fracture toughness.强度、延展性、硬度、冲击强度、断裂韧性强度、延展性、硬度、冲击强度、断裂韧性Most structural materials are anisotropic,which means that their material properties vary with orientation.The variation in properties can be due to directionality in the microstructure(texture)from forming or cold working operation,the contr

21、olled alignment of fiber reinforcement and a variety of other causes.Mechanical properties are generally specific to product form such as sheet,plate,extrusion,casting,forging,and etc.Additionally,it is common to see mechanical property listed by the directional grain structure of the material.In pr

22、oducts such as sheet and plate,the rolling direction is called the longitudinal direction,the width of the product is called the transverse direction,and the thickness is called the short transverse direction.longitudinal lnditju:dinl 轴向轴向Transverse trnsv:s 横向横向The mechanical properties of a materia

23、l are not constant and often change as a function of temperature,rate of loading,and other conditions.For example,temperatures below room temperature generally cause an increase in strength properties of metallic alloys;while ductility,fracture toughness,and elongation usually decrease.Temperatures

24、above room temperature usually cause a decrease in the strength properties of metallic alloys.Ductility may increase or decrease with increasing temperature depending on the same variablesIt should be also be noted that there is often significant variability in the values obtained when measuring mec

25、hanical properties.Seemingly identical test specimen from the same lot of materials will often produce condsideralbe different results.Therefore,multiple tests are commonly conducted to determine mechanical properties and values reported can be an average value or calculated statistical minimum valu

26、e.Also,a range of values is sometimes reported in order to show variability.loadingThe application of a force to an object is known as loading.Materials can be subjected to many different loading scenarios and a materials performance is depent on the loading conditions.There are five fundamental loa

27、ding conditions:tension,compression,bending,shear,and torsion.scenarios:情况情况 情节情节Tension is the type of loading in which the two sections of material on either side of a plane tend to be pulled apart or elongated.Compression is the reverse of tensile loading and involves pressing the material togeth

28、er.Loading by bending involves applying a load in a manner that causes a material to curve and results in compressing the material on one side and stretching it on the other.Shear involves applying a load parallel to a plane which caused the material on one side of the plane to want to slide across

29、the material on the other side of the plane.Torsion is the application of a force that causes twisting in a material.If a material is subjected to a constant force,it is called static loading.If the loading of the material is not constant but instead fluctuates,it is called dynamic or cyclic loading

30、.The way a material is loaded greatly affects its mechanical properties and largely determines how,or if,a component will fail;and whether it will show warning signs before failure actually occurs.StressThe term stress(S)is used to express the loading in terms of force applied to a certain cross-sec

31、tional area of an object.From the perspective of loading,stress is the applied force or system of forces that tends to deform a body.From the perstective of what is happening within a material,stress is the internal distribution of forces within a body that balance and react to the loads applied to

32、it.The stress distribution may or may not be uniform,depending on the nature of the loading condition.For example,a bar loaded in pure tension will essentially have a uniform tensile stress distribution.However,a bar loaded in bending will have a stress distribution that changes withDistance perpend

33、icular to the normal axis.垂直的Strain Strain is the response of a system to an applied stress.When a material is loaded with a force,it produces a stress,which then causes a material to deform.Engineering strain is defined as the amount of deformation in the direction of the applied force divided by t

34、he initial length of the material.The results in a unitless number,although it is often left in the unsimplified form,such as inches per inch or meters per meter.工程应变可定义为：所施加力方向上的材料的改变工程应变可定义为：所施加力方向上的材料的改变量与材料原始长度的比值量与材料原始长度的比值For example,the strain in a bar that is being stretched in tension is th

35、e amount of elongation or change in length divided by its original length.As in the case of stress,the strain distribution may or may not be uniform in a complex structural element,depending on the nature of the loading condition.If the stress is small,the material may only strain a small amount and

36、 the material will return to its original size after the stress is released.This is called elastic deformation,because of liking elastic,it returns to its unstressed state.Elastic deformation only occurs in a material when stresses are lower than a critical stress called the yield strength.If a mate

37、rial is loaded beyond it elastic limit,the material will remain in a deformed condition after the load is removed.This is called plastic deformation.Tensile propertiesTensile properties indicate how the material will react to forces being applied in tension.A tensile test is a fundamental mechanical

38、 test where a carefully prepared specimen is loaded in a very controlled manner while measuring the applied load and the elongation of the specimen over some distance.Tensile tests are used to determine the modulus of elasticity,elastic limit,elongation,proportional limit,reduction in area,tensile s

39、trength,yield point,yield strength and other tensile properties.拉伸试验是一种基本的力学测试，它是对所制备好的拉伸试验是一种基本的力学测试，它是对所制备好的样品施加一种可以控制的负荷，来测量所施加的负荷样品施加一种可以控制的负荷，来测量所施加的负荷和在一段距离内样品的拉长。和在一段距离内样品的拉长。Hardness Hardness is the resistance of a material to localized deformation.The term can apply to deformation from inde

40、ntation,scratching,cutting or bending.In metals,ceramics and most polymers,the deformation considered is plastic deformation of the surface.For elastomers and some polymers,hardness is defined at the resistance to deformation of the surface.The lack of a fundamental definition indicates that hardnes

41、s is not be a basic property of a material,but rather a composite one with contributions from the yield strength,work hardening,true tensile strength,modulus,and other factors.Hardness measurements are widely used for the quality control of materials because they are quick and considered to be nonde

42、structive tests when the marks or indentations produced by the test are in low stress areas.Toughness The ablity of a metal to deform plastically and to absorb energy in the process before fracture is termed toughness.The emphasis of this definition should be placed on the ablity to absorb energy be

43、fore fracture.Recall that ductility is a measure of how much something deforms plastically before fracture,but just because a material is ductile does not make it tough.The key to toughness is a good combination of strength and ductility.A material with high strength and high ductility will have mor

44、e toughness than a material with low strength and high ductility.Therefore,one way to measure toughness is by calculating the area under the stress strain curve from a tensile test.This value is simply called“material toughness”and it has units of energy per volume.Material toughness equates to a sl

45、ow absorption of energy by the material.ExercisesTranslate the following into Chinesethe service life the longitudinal directionthe transverse directiondynamic or cyclic loadingthe initial length of the material elastic deformationplastic deformationlocalized doformation Translate the following into

46、 English实验样品实验样品 静负荷静负荷 作用力作用力垂直轴垂直轴 工程应变工程应变 临界应力临界应力屈服强度屈服强度 应力面积应力面积 应力应力-应变曲线应变曲线Part Metallic Materials and AlloysUnit 3 Metals and Their ApplicationsIntroduction to Metals and Alloys In chemistry,a metal is defined as an element that readily loses electrons to form positive ions(cations)and fo

47、rms metallic bonds between other metal atmos(forming ionic bonds with non-metals).The metals of the periodic table are formally defined as lithium,beryllium,sodium,magnesium,aluminium,potassium,calcium,scandium,titanium,vanadium,chromium,zirconium,niobium,molybdenum,technetium,ruthenium,rhodium,pall

48、adium,silver,cadmium,indium,tin,antimony,caesium,barium,lanthanum,hafnium,tantalum,tungsten,rhenium,osmium,iridium,platinum,gold,mercury,thallium,lead and bismuth.berilim 铍铍liim 锂锂sudim 钠钠mgni:zim 镁镁.ljuminim 铝铝ptsim 钾钾klsim 钙钙skndim钪钪taiteinim 钛钛vneidim 钒钒krumim 铬铬z:kunim 锆锆naiubim 铌铌mlibdinm钼钼tekn

49、i:im 锝锝 Tcru:i:nim 钌钌rudim 铑铑pleidim 钯钯silv 银银kdmim 镉镉indim 铟铟tin 锡锡ntimni 锑锑si:zim 铯铯brim 钡钡lnnm镧镧hfnim铪铪tntlm 钽钽tstn 钨钨ri:nim 铼铼zmim 锇锇airidim 铱铱pltinm 铂铂m:kjuri 汞汞lim 铊铊li:d 铅铅bizm 铋铋Metals are sometimes described as a lattice of positive ions surrounded by a cloud of delocalized electrons.Metals

50、 are one of the three groups of elements as distinguished by their ionization and bonding properties,along with the metalloids and nonmetals.ionization：.ainaizein,.ainzein离离子化，电离子化，电离 metalloid:metlid,metl.id 类金属类金属 An alternative definition of metals is that they have overlapping conduction bands a