MARC

 008021018s2000        ulka                    000      kor
■020    ▼a89-8417-109-3
■0801  ▼a620.0
■082    ▼a620▼223
■090    ▼a620▼b서82ㅇ
■1000  ▼a서창민
■24510▼a알기쉬운  기계재료학▼d서창민  저.
■260    ▼a서울▼b원창출판사▼c2000
■300    ▼a320p.▼b삽도▼c26cm
■505    ▼a제1장  재료▼a1.1  재료의  조건▼c1▼a1.2  기계와  재료▼c2▼a1.3  재료의  종류▼c4▼a1.4  기계재료의  학습목적▼c6▼a■  연습문제▼c8▼x6▼y6▼z0▼a제2장  금속재료의  구조▼x7▼y7▼z0▼a2.1  결정구조▼c9▼x8▼y8▼z0▼a2.1.1  결정의  종류▼c10▼x9▼y9▼z0▼a2.1.2  결정면과  결정방향의  표시방법▼c17▼x10▼y10▼z0▼a2.2  합급의  원자배열▼c21▼x11▼y11▼z0▼a2.2.1  합금▼c21▼x12▼y12▼z0▼a2.2.2  고용체의  종류▼c23▼x13▼y13▼z0▼a2.2.3  고용강화▼c25▼x14▼y14▼z0▼a2.3  결정구조의  결함▼c25▼x15▼y15▼z0▼a2.3.1  점결함▼c25▼x16▼y16▼z0▼a2.3.2  선결함▼c26▼x17▼y17▼z0▼a2.3.3  면결함▼c28▼x18▼y18▼z0▼a2.3.4  전위에  의한  강화▼c30▼x19▼y19▼z0▼a2.4  원자간  거리▼c30▼x20▼y20▼z0▼a2.4.1  원자간  인력과  척력▼c30▼x21▼y21▼z0▼a2.4.2  결합에너지▼c32▼x22▼y22▼z0▼a2.5  원자진동▼c33▼x23▼y23▼z0▼a2.6  원자확산▼c35▼x24▼y24▼z0▼a2.6.1  확산기구▼c35▼x25▼y25▼z0▼a2.6.2  자기확산▼c37▼x26▼y26▼z0▼a2.6.3  확산계수와  온도  관계▼c37▼x27▼y27▼z0▼a■  연습문제▼c43▼x28▼y28▼z0▼a제3장  금속의  기계적  성질과  소성가공▼x29▼y29▼z0▼a3.1  금속재료의  기계적  성질▼c45▼x30▼y30▼z0▼a3.1.1  인장시험▼c46▼x31▼y31▼z0▼a3.1.2  경도시험▼c50▼x32▼y32▼z0▼a3.1.3  인성시험▼c54▼x33▼y33▼z0▼a3.1.4  피로시험▼c58▼x34▼y34▼z0▼a3.2  소성가공과  기계적  성질의  변화▼c60▼x35▼y35▼z0▼a3.2.1  소성가공▼c600▼x36▼y36▼z0▼a3.2.2  가공경화와  어닐링▼c62▼x37▼y37▼z0▼a3.2.3  결정립의  크기,  방향과  방위▼c68▼x38▼y38▼z0▼a3.2.4  결정립의  미세와▼c71▼x39▼y39▼z0▼a3.3  금속재료의  변형▼c73▼x40▼y40▼z0▼a3.3.1  금속의  슬립변형▼c73▼x41▼y41▼z0▼a3.3.2  쌍정에  의한  변형▼c78▼x42▼y42▼z0▼a■  연습문제▼c82▼x43▼y43▼z0▼a제4장  금속의  상변화  상태도▼x44▼y44▼z0▼a4.1  합금의  응고조직▼c85▼x45▼y45▼z0▼a4.1.1  상변화와  변태점▼c85▼x46▼y46▼z0▼a4.1.2  순금속의  응고조직▼c87▼x47▼y47▼z0▼a4.1.3  합금의  응고▼c87▼x48▼y48▼z0▼a4.2  상태도의  종류▼c90▼x49▼y49▼z0▼a4.2.1  전율  고용체형  상태도▼c90▼x50▼y50▼z0▼a4.2.2  공정형  상태도(Ⅰ)▼c92▼x51▼y51▼z0▼a4.2.3  공정형  상태도(Ⅱ)  부분적인  고용범위를  가진  경우▼c95▼x52▼y52▼z0▼a4.2.4  포정형  상태도▼c97▼x53▼y53▼z0▼a4.2.5  그밖의  상태도▼c99▼x54▼y54▼z0▼a■  연습문제▼c106▼x55▼y55▼z0▼a제5장  철강의  상태도와  조직▼x56▼y56▼z0▼a5.1  강재의  분류▼c109▼x57▼y57▼z0▼a5.2  순철의  상태도▼c111▼x58▼y58▼z0▼a5.3  강의  상태도▼c113▼x59▼y59▼z0▼a5.3.1  Fe-Fe▼bC  상태도▼d113▼y60▼z0▼a5.3.2  강의  상태도▼c114▼x61▼y61▼z0▼a5.3.3  강의  상태도를  보는  방법▼c116▼x62▼y62▼z0▼a5.4  탄소량에  따른  기계적  성질의  변화▼c121▼x63▼y63▼z0▼a5.5  강의  상태도와  합금원소▼c124▼x64▼y64▼z0▼a5.5.1  Fe과  다른  원소와의  상태도  분류▼c124▼x65▼y65▼z0▼a5.5.2  강의  상태도에  대한  첨가원소의  영향▼c125▼x66▼y66▼z0▼a5.5.3  강에  미치는  웅요  첨가원소의  영향▼c126▼x67▼y67▼z0▼a5.6  가의  감별법과  검사▼c129▼x68▼y68▼z0▼a5.6.1  불꽃  시험법▼c129▼x69▼y69▼z0▼a■  연습문제▼c131▼x70▼y70▼z0▼a제6장  강의  열처리(Ⅰ)▼x71▼y71▼z0▼a6.1  열처리▼c133▼x72▼y72▼z0▼a6.1.1  가열과  냉각▼c133▼x73▼y73▼z0▼a6.1.2  가열과  냉각에  따른  변태▼c135▼x74▼y74▼z0▼a6.1.3  가열온도아  오스테나이트  입도▼c135▼x75▼y75▼z0▼a6.2  열처리의  종류▼c137▼x76▼y76▼z0▼a6.2.1  노멀라이징▼c137▼x77▼y77▼z0▼a6.2.2  어닐링▼c139▼x78▼y78▼z0▼a6.2.3  ？칭과  템퍼링▼c141▼x79▼y79▼z0▼a6.3  강의  연속냉각에  의한  변태▼c142▼x80▼y80▼z0▼a6.3.1  열처리에  의한  냉각속도와  변태▼c142▼x81▼y81▼z0▼a6.3.2  항온냉각에  의한  조직  변화(TTT  곡선)▼c144▼x82▼y82▼z0▼a6.3.3  연속냉각에  의한  조직  변화(CCT  곡선)▼c147▼x83▼y83▼z0▼a6.4  마르텐사이트  변태의  특징▼c148▼x84▼y84▼z0▼a6.5  마르텐사이트의  템퍼링▼c155▼x85▼y85▼z0▼a6.5.1  탄소강의  템퍼링  과정▼c156▼x86▼y86▼z0▼a6.5.2  템퍼링  과정에서의  기계적  성질의  변화▼c157▼x87▼y87▼z0▼a6.5.3  템퍼링에  있어  합금원소의  효과▼c159▼x88▼y88▼z0▼a■  연습문제▼c161▼x89▼y89▼z0▼a제7장  강의  열처리(Ⅱ)▼x90▼y90▼z0▼a7.1  강의  ？칭▼c163▼x91▼y91▼z0▼a7.1.1  강의  질량효과▼c163▼x92▼y92▼z0▼a7.1.2  ？칭액의  영향▼c164▼x93▼y93▼z0▼a7.1.3  냉각속도와  경화능▼c166▼x94▼y94▼z0▼a7.2  그  와의  열처리  기술▼c169▼x95▼y95▼z0▼a7.2.1  항온변태의  응용▼c169▼x96▼y96▼z0▼a7.2.2  가공  열처리의  종류와  특징▼c171▼x97▼y97▼z0▼a7.3  강의  표면  경화법▼c174▼x98▼y98▼z0▼a7.3.1  침타법과  청화법▼c174▼x99▼y99▼z0▼a7.3.2  질화법▼c177▼x100▼y100▼z0▼a7.3.3  표면？칭▼c179▼x101▼y101▼z0▼a■  연습문제▼c182▼x102▼y102▼z0▼a제8장  사용  조건하의  재료의  성질변화▼x103▼y103▼z0▼a8.1  저온하의  기계적  성질▼c185▼x104▼y104▼z0▼a8.2  고온하의  기계적  성질▼c187▼x105▼y105▼z0▼a8.2.1  청열취성▼c187▼x106▼y106▼z0▼a8.2.2  프리프▼c188▼x107▼y107▼z0▼a8.2.3  고온피로▼c190▼x108▼y108▼z0▼a8.2.4  고온산화▼c191▼x109▼y109▼z0▼a8.3  부식전지의  종류와  특징▼c192▼x110▼y110▼z0▼a8.4  합금원소에  의한  방식법▼c196▼x111▼y111▼z0▼a8.5  철강의  부식제어▼c197▼x112▼y112▼z0▼a8.5.1  표면처리  방법▼c197▼x113▼y113▼z0▼a8.5.2  전기적  방식법▼c198▼x114▼y114▼z0▼a■  연습무제▼c200▼x115▼y115▼z0▼a제9장  구조용  강▼x116▼y116▼z0▼a9.1  비조질  구조용  압연재▼c202▼x117▼y117▼z0▼a9.1.1  일반  구조용(SB재)강▼c202▼x118▼y118▼z0▼a9.1.2  용접  구조용(SWS  재)  강▼c202▼x119▼y119▼z0▼a9.1.3  보일러용(SBB  재)▼c202▼x120▼y120▼z0▼a9.1.4  비조질  고장력강▼c203▼x121▼y121▼z0▼a9.2  조질형  고장력강▼c204▼x122▼y122▼z0▼a9.3  저온용  강▼c205▼x123▼y123▼z0▼a9.3.1  알미늄  킬드강▼c206▼x124▼y124▼z0▼a9.3.2  조질형  고장력강▼c206▼x125▼y125▼z0▼a9.3.3  Ni  강▼c207▼x126▼y126▼z0▼a9.4  기계구조용  강▼c207▼x127▼y127▼z0▼a9.4.1  기계구조용  탄소강▼c2.7▼x128▼y128▼z0▼a9.4.2  기계구조용  합금강▼c208▼x129▼y129▼z0▼a9.4.3  표면  강화강과  질화강▼c210▼x130▼y130▼z0▼a9.4.4  쾌삭강▼c210▼x131▼y131▼z0▼a9.5  초강력강▼c212▼x132▼y132▼z0▼a9.5.1  저합금  초강력강▼c212▼x133▼y133▼z0▼a9.5.2  중합금  초강력강▼c213▼x134▼y134▼z0▼a9.5.3  고합금  초강력강▼c214▼x135▼y135▼z0▼a■  연습문제▼c215▼x136▼y136▼z0▼a제10장  특수강▼x137▼y137▼z0▼a10.1  공구강▼c217▼x138▼y138▼z0▼a10.1.1  탄소  공구강▼c219▼x139▼y139▼z0▼a10.1.2  합금  공구강▼c220▼x140▼y140▼z0▼a10.1.3  고속도강▼c222▼x141▼y141▼z0▼a10.1.4  베어링강과  스프링강▼c224▼x142▼y142▼z0▼a10.2  스테인리스  강▼c225▼x143▼y143▼z0▼a10.2.1  Cr계  스테인리스강▼c226▼x144▼y144▼z0▼a10.2.2  Cr-Ni계  스테인리스강▼c227▼x145▼y145▼z0▼a10.2.3  석출경화형  PH스테인리스강▼c230▼x146▼y146▼z0▼a10.3  내열강▼c231▼x147▼y147▼z0▼a10.4  초내열  합금▼c234▼x148▼y148▼z0▼a10.4.1  Ni-Fe  합금▼c234▼x149▼y149▼z0▼a10.4.2  Ni  합금▼c234▼x150▼y150▼z0▼a10.4.3  Co  합금▼c235▼x151▼y151▼z0▼a10.4.4  그  외의  내열합금▼c235▼x152▼y152▼z0▼a■  연습문제▼c237▼x153▼y153▼z0▼a네11장  주철과  주강▼x154▼y154▼z0▼a11.1  주물재와  가공재▼c239▼x155▼y155▼z0▼a11.2  주철의  조직▼c239▼x156▼y156▼z0▼a11.2.1  조직과  상태도▼c239▼x157▼y157▼z0▼a11.2.2  주철의  조직도▼c241▼x158▼y158▼z0▼a11.2.3  주철의  흑연상태와  기지의  조직▼c243▼x159▼y159▼z0▼a11.3  실용  주철의  종류  및  특성▼c245▼x160▼y160▼z0▼a11.3.1  회주철▼c246▼x161▼y161▼z0▼a11.3.2  구상  흑연주철▼c248▼x162▼y162▼z0▼a11.3.3  CV  주철▼c251▼x163▼y163▼z0▼a11.3.4  가단주철▼c251▼x164▼y164▼z0▼a11.4  주철에  요구되는  성질▼c252▼x165▼y165▼z0▼a11.5  주강▼c256▼x166▼y166▼z0▼a11.5.1  탄소강  주강▼c256▼x167▼y167▼z0▼a11.5.2  합금강  주강▼c257▼x168▼y168▼z0▼a■  연습문제▼c258▼x169▼y169▼z0▼a네12장  비철금속▼x170▼y170▼z0▼a12.1  알미늄과  AI합금▼c259▼x171▼y171▼z0▼a12.1.1  알미늄▼c259▼x172▼y172▼z0▼a12.1.2  AI합금의  분류▼c259▼x173▼y173▼z0▼a12.1.3  AI합금의  특징▼c261▼x174▼y174▼z0▼a12.1.4  고장력  AI합금▼c267▼x175▼y175▼z0▼a12.1.5  실용AI  합금▼c268▼x176▼y176▼z0▼a12.2  동과  동합금▼c272▼x177▼y177▼z0▼a12.2.1  황동계  합금▼c273▼x178▼y178▼z0▼a12.2.2  청동계  합금▼c275▼x179▼y179▼z0▼a12.3  마그네슘(Mg)과  Mg  합금▼c277▼x180▼y180▼z0▼a12.4아연(Zn)과  아연  합금▼c279▼x181▼y181▼z0▼a12.5  납(Pb),  주석(Sn),  안티몬(Sb)과    그  합금▼c280▼x182▼y182▼z0▼a■  연습문제▼c283▼x183▼y183▼z0▼a제13장  특수재료▼x184▼y184▼z0▼a13.1  분말야금재료▼c185▼x185▼y185▼z0▼a13.1.1  소결  공구재료▼c285▼x186▼y186▼z0▼a13.1.2  소결내열재▼c287▼x187▼y187▼z0▼a13.1.3  소결  기계재료▼c289▼x188▼y188▼z0▼a13.1.4  초미분▼c290▼x189▼y189▼z0▼a13.2  고융점  금속▼c290▼x190▼y190▼z0▼a13.2.1  티탄늄(Ti)와    그  합금▼c290▼x191▼y191▼z0▼a13.2.2  고융점  금속(Cr,  Mo,  W)▼c292▼x192▼y192▼z0▼a13.2.3  그  외의  금속과  합금▼c294▼x193▼y193▼z0▼a13.3  복합재료▼c295▼x194▼y194▼z0▼a13.3.1  천연  복합재료  -  목재▼c295▼x195▼y195▼z0▼a13.3.2  복합재료의  종류▼c298▼x196▼y196▼z0▼a13.4  기능재료▼c302▼x197▼y197▼z0▼a13.4.1  초소성  합금▼c3.2▼x198▼y198▼z0▼a13.4.2  형상기억  합금▼c304▼x199▼y199▼z0▼a13.4.3  아몰파스  금속▼c306▼x200▼y200▼z0▼a13.4.4  초전도  재료▼c307▼x201▼y201▼z0▼a■  연습문제▼c308▼x202▼y202▼z0▼a부록▼c311▼x203▼y203▼z0▼a찾아보기▼c313▼x204▼y204▼z0
■9500  ▼b￦13000

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