材料科学与工程基础5(上课)课件.pptx

1、Chapter 5 Engineering Alloys12021/7/135.1 IntroductionMetals and alloys are the most important engineering materials in industry,which account for about 90%of the worlds production of metals.Because of:Good strength,Toughness,Ductility,Low cost Major types:Ferrous alloy（黑色合金）（黑色合金）:based on ironNonf

2、errous alloy（有色合金）（有色合金）:based on the other metals22021/7/135.2 Production of Iron and Steel5.2.1 Production of Pig Iron(生铁生铁)Most pig iron is extracted from iron ores in a large blast furnace(高炉高炉),and then is usually transferred to steel-making furnace in the liquid state.5.2.2 Typical reaction:Fe

3、2 O3(iron ores 铁矿石铁矿石)+3CO(coke 焦炭焦炭)2Fe +3CO232021/7/13Production of Iron and Steel42021/7/13Properties of pure iron:low strength and ductilityTensile strength:180 230 MN/m2Yield strength at 0.2%offset:100-170 MN/m2Hardness(Hb):50 80 kgf/mm2Percent elongation at fracture:30-50%Therefore,it is rare

4、to use pure iron in industry.52021/7/135.3 Steel making and processing of major steel products The majority of steels contain less than 0.5%of carbon.Most commonly process for converting pig iron into steel is basic process(氧气吹顶法氧气吹顶法).Pig iron and 30%steel crap is fed into refractory furnace to whi

5、ch oxygen lane is inserted.Oxygen reacts with liquid bath to form iron oxide.FeO+C Fe+CO Slag forming fluxes are added.Carbon content and other impurities are lowered.Molten steel is continuously cast and formed into shapes.62021/7/1372021/7/135.4 The iron iron carbide phase diagram (铁碳合金相图铁碳合金相图)Th

6、e components for iron iron carbide phase diagram (Fig.9.6)82021/7/13The components for iron iron carbide phase diagram (Fig.9.6)*Pure Fe *Fe3 C(渗碳体渗碳体):intermetallic compound,up to 6.67 wt%c in the systemBasic properties for Fe3 C:High hardness with brittle featureTensile strength:30 MN/m2Hardness(H

7、b):800 kgf/mm2Percent elongation at fracture:0 92021/7/13Solid phases in the phase diagram:*-ferrite:高温铁素体高温铁素体 BCC structure An interstitial solid solution of carbon in iron.It has a greater lattice constant.*-ferrite:铁素体铁素体 BCC structure An interstitial solid solution of carbon in the BCC iron cry

8、stal lattice.Carbon is only slightly soluble in ferrite 102021/7/13*-austenite:奥氏体奥氏体 FCC structure An interstitial solid solution of carbon in iron.*cementite(Fe3 C):渗碳体渗碳体 +Fe3 C:mixture of eutectic reaction ledeburite莱氏体莱氏体 Liquid(4.3%C)(2.08%C)+Fe3 C(6.67%C)*+Fe3 C:mixture of eutectoid reaction,

9、Pearlite 珠光体珠光体 (0.8%C)(0.02%C)+Fe3 C(6.67%C)112021/7/13Point T C C wt%MeaningA 1538 0 melting T of pure FeB 1495 0.53 Lb for peritectic reactionC 1148 4.30 eutectic point(共晶点共晶点)D 1227 6.67 melting T of Fe3 C E 1148 2.08 max.C in -FeG 912 0 -Fe -FeH 1495 0.09 max.C in -Fe J 1495 0.17 peritectic poi

10、nt(包晶点包晶点)N 1394 0 -Fe -FeP 723 0.02 max.C in -Fe S 723 0.8 eutectoid point(共析点共析点)Q 650 0.005 max.C in -Fe Points in the phase diagram:122021/7/13Invariant reactions Peritectic reaction:Liquid(0.53%C)+(0.09%C)(0.17%C)Eutectic reaction:Liquid(4.3%C)austenite(2.08%C)+Fe3C(6.67%C)Eutectoid reaction:Au

11、stenite(0.8%C)Ferrite(0.02%C)+Fe3C(6.67%C)14950C11480C7230C0.8%CEutectoid SteelHypoeutectoidSteelHypereutectoidSteelLess than 0.8%More than 0.8%132021/7/135.5 The cooling process of typical composition in iron-iron carbide phase diagram1)Eutectoid plain-carbon steel(共析普通碳素钢共析普通碳素钢):0.8%C,cooled from

12、 750 C Fig.9.7 on page 375 Final phases:Pearlite2)Hypoeutectoid plain-carbon steel(亚共析普通碳素钢亚共析普通碳素钢):0.4%C,cooled from 900 C Fig.9.9 on page 377 Final phases:+pearlite142021/7/133)Hypereutectoid plain-carbon steel(过共析普通碳过共析普通碳素钢素钢)1.2%C,cooled from 950 C Fig.9.11 on page 379 Final phases:Fe3 C+pearl

13、ite152021/7/13Example 1 A 0.80%C eutectoid plain-carbon steel is slowly cooled from 750to a temperature just slighly below 723.Assuming that the austenite is completely transformed to and cementite:(1)Calculate the weight percent eutectoid ferrite formed.(2)Calculate the weight percent eutectoid cem

14、entite formed.162021/7/13Example 2A 0.4%C hypoeutectoid plain-carbon steel is slowly cooled from 940to a temperature just slightly below 723(1)Calculate the weight percent proeutectoid ferrite present in the steel(2)Calculate the weight percent eutectoid ferrite and weight percent eutectoid cementit

15、e present in the steel172021/7/13Example 3 A hypoeutectoid plain-carbon steel was slow-cooled from the austenitic region to room temperature contains 9.1%eutectoid ferrite.Assuming no change in structure on cooling from just below the eutectoid temperature to room temperature,What is the carbon cont

16、ent of the steel?182021/7/13Problem A hypereutectoid plain-carbon steel contains 10.7wt%eutectoid Fe3C.What is its average carbon content in weight percent?Fig.EP 9.3 P381192021/7/13Slow Cooling of Plain Carbon Steel Eutectoid plain carbon steel:If a sample is heated up to 7500C and held for suffici

17、ent time,structure will become homogeneous austenite.Below eutectoid temperature,layers of ferrite and cementite are formed.Pearlite.202021/7/13Slow Cooling of Plain Carbon Steel(Cont.)Hypoeutectoid plain carbon steel:If a sample of 0.4%C is heated up to 9000C,it gets austenitized.Further cooling gi

18、ves rise to and pearlite.Pearlite 212021/7/13Slow Cooling of Plain Carbon Steel(Cont.)Hypereutectoid plain carbon steel:If a 1.2%C sample is heated up to 9500C and held for sufficient time,it entirely gets austenitized.Further cooling results results in eutectoid cementite and pearlite.222021/7/13 H

19、eat treatment is the way to improve the components and/or structures of metallic materials.*Annealing(退火）退火）*Normalizing(正火正火)*Quenching(淬火淬火)*Tempering(回火）回火）5.6 Heat treatment of metallic materials232021/7/13 Annealing(退火退火):Definition:金属加热到适当金属加热到适当温度保温一段时间，以适温度保温一段时间，以适当速度冷却到室温的热处当速度冷却到室温的热处理过程。

20、理过程。full annealing(完全退火完全退火)process annealing:stress relief (低温退火低温退火,去应力退火去应力退火 )242021/7/131)full annealing(完全退火完全退火)full annealing temperature for hypereutectoid steel:above Accm(+40)temperature Structure:pearlite(珠光体）珠光体）+cementite （渗碳体）（渗碳体）for hypoeutectoid steel:above Acs temperature Structur

21、e:pearlite(珠光体）珠光体）+ferrite（铁素体）（铁素体）purpose:increase of ductility,decrease of hardness and strength252021/7/13262021/7/132)process annealing:stress relief (低温退火低温退火,去应力退火去应力退火)temperature below the eutectoid temperature.Which is often referred to as a stress relief,partially softens cold-worked low

22、-carbon steels by relieving internal stresses from cold working.For hypoeutectoid steels with less than 0.3%C below eutectoid temperature,550-650 272021/7/13*Normalizing(正火正火)The steel is heated in the austenitic region and then cooled in still air.ACs(orAccm)+3050 The purpose of normalizing:(1)To r

23、efine the grain structure(2)To increase the strength of the steel(3)To reduce compositional segregation in castings or forgings and thus provide a more uniform structure282021/7/13*Quenching(淬火淬火)1.Definition and Destination of quenching Definition:A sample of a heated metallic materials is rapidly

24、cooled to a settled temperature in water or oil.(加热的钢或合金，在一设定温度保温一段时间，以获得加热的钢或合金，在一设定温度保温一段时间，以获得不同要求的高温相，然后快速冷却以获得远离平衡相组不同要求的高温相，然后快速冷却以获得远离平衡相组织的过程。）织的过程。）292021/7/13For example:plain-carbon steel in the austenitic condition be quenched in waterthe forming of martensite(马氏体马氏体):A interstitial soli

25、d solution(间隙固溶体间隙固溶体)of carbon in BCC iron.Metastable phase consisting of supersaturated solid solution of C in BCC or BCT iron.Caused by rapid cooling of austenitic steel into room temperature(quenching).Ms temperature of martensite start.Mf temperature of martensite finish.302021/7/13Microstructu

26、re of Fe C Martensites Lath martensite（板条状马氏体）（板条状马氏体）:Less than 0.6%C and consists of domains of lathe of different orientation.Plate martensite（片状马氏体）（片状马氏体）:More than 1.0%C and have fine structure of parallel twins.Lath typePlate type312021/7/13Lath Martensite 板条状板条状Plate Martensite 片状片状(或针状或针状)3

27、22021/7/13Martensite(Cont.)Transfer to martensite is diffusionless.No change of relative position of carbon atoms after transformation.Strength and hardness increases with carbon content.Strength is due to high dislocation concentration and interstitial solid solution strengthening.FCCBCCBCT332021/7

28、/132.Mechanism of quenching(Three steps)A:Surrounded by vapor(形成蒸汽膜包围形成蒸汽膜包围)B:boiling to form core(沸腾成核沸腾成核)C:liquid cooling(液体冷却阶段液体冷却阶段)3.Quenching medium of quenching(淬火介质淬火介质)(1)Water (2)Salt solution:NaCl CaCl2 (3)Basic water(碱水碱水):):5%-10%NaOH (4)Oil（常规，快速，等温）（常规，快速，等温）(5)Polymeric solution(高

29、聚物溶液高聚物溶液)PVA（聚乙烯醇），（聚乙烯醇），PVP（聚乙烯吡咯烷酮，（聚乙烯吡咯烷酮，PAG(环氧乙环氧乙烷和环氧丙烷的共聚物烷和环氧丙烷的共聚物)342021/7/134.Methods of quenching (1)single stage quenching 单液淬火单液淬火(2)double quenching 双液淬火双液淬火(Ms-oil)(3)interrupted quenching 分级淬火分级淬火(4)isothermal quenching 等温淬火等温淬火(5)localized quench hardening局部淬火局部淬火352021/7/13Mart

30、empering(marquenching)（马氏体（马氏体等温淬火）等温淬火）Is a modified quenching procedure used for steels to minimize distortion and cracking that may develop during uneven cooling of heat-treated material.362021/7/13Process of Martempering:(1)Austenitizing the steel(2)Quenching it in hot oil or molten salt at temp

31、erature just slightly below the Ms temperature(3)Holding the steel in quenching medium until the temperature is uniform throughout and stopping this isothermal treatment before the austenite-to bainite（贝氏体）（贝氏体）transformation begin(4)Cooling at moderate rate to room temperature372021/7/13Pearlite珠光体

32、珠光体lower Bainite下贝氏体下贝氏体upper Bainite上贝氏体上贝氏体382021/7/13Advantages of Martempering The martempered steel has high impact energy values.Austempering（奥氏体等温淬火）（奥氏体等温淬火）Is an isothermal heat treatment which produces a bainite（贝氏体）（贝氏体）structure in some plain-carbon steels.Increasing the toughness and du

33、ctility.392021/7/13Process of Austempering:(1)Austenitizing the steel (2)Quenched in a molten salt bath (above the Ms temperature)(3)held isothermally(austenite-to bainite)(4)Cool to room temperature in air402021/7/13Advantages and disadvanges of Austempering Advantages(1)Improve ductility and impac

34、t resistance(2)Decrease distortion of quenched materialsDisadvantages(1)The need for special molten salt bath(2)The process can be used for only a limited number of steels.412021/7/13Isothermal decomposition of Austenite.Several samples are first austenitized above eutectoid temperature and rapidly

35、cooled in salt bath at a desired temperature,after various time intervals,and then quenched in water at room tremperature.Repeat procedureat progressivelowertemperatures422021/7/13432021/7/13IT Diagrams for Noneutectoid Steels S curves of IT diagrams of noneutectoid steel is shifted to left.Not poss

36、ible to quench from austenitic region to produce entirely martensite.Additional transformation line indicates start and formation of proeutectoid ferrite.442021/7/13Continuous Cooling-Transformation Diagram In continuous cooling transformation from martensite to pearlite takes place at a range of te

37、mperature.Start and finish lines shifted to longer time.No transformation below 4500C.452021/7/13*Tempering(回火回火):heating a steel at a temperature below the eutectoid point temperature（AC1）for a certain time and then lower it to room temperature to make it softer and more ductile.the effect of tempe

38、ring temperature on the shape of the carbide (200-700 cementitie)200-300 rodlike 400-700 spherical-like P396 Fig.9.30 Fig.9.31 the effect of tempering temperature on the hardness of plain-carbon steel Fig.9.32 462021/7/13Effects of Tempering Hardness decreases as temperature increases above 2000C Th

39、is is due to diffusion of carbon atoms from interstitial sites to iron carbide precipitates.472021/7/135.7 The classification of iron iron carbide alloy materials*Major types on the basis of C concentration in metals:Iron:C 2.08 wt%Steel:C 2.08 wt%*Major types of steel:1)On C contents:low carbon ste

40、el:C 0.25 wt%medium carbon steel:0.25 wt%0.6 wt%482021/7/132)On quality:plain-carbon steel:S 0.055 wt%(普通碳素钢普通碳素钢)P 0.045 wt%high quality steel:S 0.04 wt%(优质碳素钢优质碳素钢)P 0.04wt%super high quality steel:S 0.03 wt%(高级优质碳素钢高级优质碳素钢)P 0.035 wt%In addition to C,steel also contains S,P,Si,Mn trace elements.S

41、,P:disadvantages in steel Si,Mn in steel will improve its strength and hardness )492021/7/133)On application:Carbon structure steel(碳素结构钢碳素结构钢)e.g.45Mn:C=0.45 wt%,Mn wt 0.8%Carbon tool steel (碳素工具钢碳素工具钢)e.g.T8:C=0.8 wt%碳素工具钢碳素工具钢 T8A:C=0.8 wt%高级优质碳素工具钢高级优质碳素工具钢 4)On steel-making method:open-hearth f

42、urnace steel(平炉钢平炉钢)basic oxygen furnace steel(转炉钢转炉钢)502021/7/135)Classification of plain-carbon steels in USA by a four digit AISI-SAE code AISI:American Iron and Steel Institute SAE:Society for Automotive EngineersFor example:1030:a plain-carbon steel with 0.3 wt%of CMedium carbon steels:1020 104

43、0High carbon steels:1060 1095 512021/7/13Plain carbon steelsTypical mechanical properties and applications of various kinds of plain carbon steels.The limitations of plain carbon steels in engineering applications:1.cant strengthened beyond about 690 MPa 2.They are not deep-hardenable 3.has low corr

44、osion and oxidation resistance 4.Rapid quenching can obtain a fully martensitic structure,however,it leads to possible distortion and crack 5.Has poor impact resisitance at low temperature522021/7/136)Classification of alloy steels in USA Low alloy steels:containing 1 to 4%of alloying elements Alloy

45、 steels:may contain up to 50%of alloying elements.532021/7/135.7.1 Low Alloy Steels and Alloy SteelsManganese steels:锰钢锰钢Chromium steels:铬钢铬钢Chromium molybdenum steels:铬钼钢铬钼钢Nickel molybdenum steels:镍钼钢镍钼钢Nickel chromium-molybdenum steels:镍铬钼钢镍铬钼钢 Ni:1.83 wt%,Ni:0.55 wt%Table 9.4 on page 394 Table 9

46、.6 on page 402 542021/7/13Classification of Alloy Steels First two digits:Principle alloying element.Last two digits:%of carbon.552021/7/13Distribution of Alloying Elements Distribution depends upon compound and carbide forming tendency of each element.562021/7/13Effects of Alloying Element on Eutec

47、toid Temperature Mn and Ni lower eutectoid temperature.They act as austenite stabilizing element.Tungsten,molybdenum and titanium raise eutectic temperature.They are called ferrite stabilizing elements.572021/7/13Mechanical Properties of Low Alloy Steels582021/7/13592021/7/135.7.2 Cast iron 铸铁铸铁Norm

48、ally contain 2 to 4%carbon and 1 to 3%silicon.Other alloying elements may also be present to control or vary certain properties.Classifications:White cast iron 白口铁白口铁 Gray cast iron 灰口铸铁灰口铸铁Malleable cast iron 可锻铸铁可锻铸铁Ductile(nodular)cast iron 球墨铸铁球墨铸铁 602021/7/13White Cast iron Fractured surface ap

49、pears white and crystalline.Low carbon(2.5 3%)and silicon(0.5 1.5%)content.Much of carbon forms iron carbide instead of graphite up on solidification.Excellent wear resistance.Iron CarbidePearlite612021/7/13Gray Cast Iron Fractured surface appears gray.2.5 4%C and 1 3%Si(Promotes formation of graphi

50、te).Carbon exceeds the amount that can dissolve in austenite and precipitate as graphite flakes.Excellent machinability,hardness and wear resistance,and vibration damping capacity.GraphiteFlakes622021/7/13Malleable(可鍛）可鍛）Cast Iron 2-2.6%C and 1.1 1.6%Si.White cast iron is heated in malleablizing fur