MARC

 008061124s2005        ulka                    000a    kor
■020    ▼a89-88825-82-9
■0801  ▼a62-11
■082    ▼a621.815▼bS555ㄱ▼223
■090    ▼a621.815▼bS555ㄱ
■1000  ▼aBudynas,  Joseph  E.  Shigley,  Charles  R.  Mischke,  Richard  G.
■24510▼a기계설계  7th  edition/▼dJoseph  E.  Shigley,  Charles  R.  Mischke,  Richard  G.  Budynas  공저▼e▼e김영진,  김태우,  김현수,  이건상,  최재붕  공역
■260    ▼a서울▼b한국맥그로힐(주),,▼c2005
■300    ▼a812p.:p.▼b삽도▼c26cm
■505    ▼aPart  1  설계  기본지식▼a1  서론▼a1-1  설계▼c5▼a1-2  기계공학설계▼c7▼a1-3  설계과정  요소간의  상호작용▼c12▼a1-4  설계도구  및  자원▼c15▼a1-5  설계자의  전문가적  책임▼c17▼a1-6  기술기준과  표준▼c19▼a1-7  설계의  경제성▼c20▼a1-8  안전성과  제조물  책임▼c2200▼a1-9  타당성  평가▼c2211▼a1-10  불확실성▼c2422▼a1-11  응력과  강도▼c2533▼a1-12  설계계수와  안전계수▼c2844▼a1-13  신뢰성▼c2955▼a1-14  단위와  유효  단위▼c3166▼a1-15  계산과  유효  숫자▼c3477▼a2  재료88▼a2-1  재료  강도와  강성▼c4099▼a2-2  재료  물성치의  통계적  의미▼c4400▼a2-3  강도와  냉간  가공▼c4511▼a2-4  경도▼c4822▼a2-5  충격  특성▼c5133▼a2-6  온도의  영향▼c5344▼a2-7  번호  체계▼c5455▼a2-8  사형  주조▼c5666▼a2-9  쉘  조형▼c5677▼a2-10  인베스트먼트  주조▼c5788▼a2-11  분말-야금  공정▼c5799▼a2-12  열간  가공  공정▼c5800▼a2-13  냉간  가공  공정▼c5811▼a2-14  강  열처리▼c5922▼a2-15  합금강▼c6233▼a2-16  내부식성  강▼c6444▼a2-17  주물  재료▼c6455▼a2-18  비철  금속▼c6666▼a2-19  플라스틱▼c7077▼a2-20  복합  재료▼c7088▼a3  하중과  응력  해석99▼a3-1  평형과  자유물체도▼c7800▼a3-2  보에서의  전단력과  굽힘  모멘트▼c8211▼a3-3  특이함수▼c8322▼a3-4  응력▼c8733▼a3-5  직각  좌표계의  응력  성분▼c8844▼a3-6  평면  응력에  대한  Mohr원▼c8955▼a3-7  일반적인  3차원  응력▼c9666▼a3-8  탄성  변형률▼c9777▼a3-9  균일  분포  응력▼c9888▼a3-10  굽힘  하중  하에서  보의  수직  응력▼c9999▼a3-11  비대칭  단면을  갖는  보▼c10500▼a3-12  굽힘  하중  하에서  보의  전단  응력▼c10611▼a3-13  비틀림▼c11222▼a3-14  응력집중▼c12233▼a3-15  가압  실린더의  응력▼c12644▼a3-16  회전  링의  응력▼c12955▼a3-17  억지  끼워  맞춤▼c12966▼a3-18  온도효과▼c13177▼a3-19  굽힘  하중  하에서의  굽은  보▼c13288▼a3-20  접촉  응력▼c14099▼a3-21  요약▼c14400▼aPart2  파손  방지11▼a4  정적하중하의  파손22▼a4-1  정적  강도▼c17333▼a4-2  응력  집중▼c17344▼a4-3  파손  이론▼c17655▼a4-4  연성  재료에  대한  최대전단응력  이론▼c17766▼a4-5  연성  재료와  대한  변형에너지  이론▼c17877▼a4-6  연성  재료에  대한  Coulomb-Mohr  이론▼c18588▼a4-7  연성  재료에  대한  파손  이론  요약▼c18899▼a4-8  취성  재료에  대한최대수직응력  이론▼c19200▼a4-9  취성  재료에  대한  수정  Mohr  이론▼c19411▼a4-10  취성  재료에  대한  파손  이론  요약▼c19722▼a4-11  파손  기준의  선택▼c19833▼a4-12  축에  작용하는  정적  또는  준정적  하중▼c19944▼a4-13  파괴역학  개론▼c20255▼a4-14  통계적  해석▼c21366▼a5  변동하중으로  인한  피로파손77▼a5-1  금속피로의  개요▼c23088▼a5-2  해석과  설계를  위한  피로파손에  대한  접근법▼c23699▼a5-3  피로-수명  방법▼c23700▼a5-4  응력-수명방법▼c23811▼a5-5  변형률-수명  방법▼c24022▼a5-6  선형탄성  파괴역학법▼c24333▼a5-7  피로한도▼c24744▼a5-8  피로강도▼c24955▼a5-8  피로강도▼c24966▼a5-9  피로한도  수정계수▼c25277▼a5-10  응력집중과  노치  민감도▼c26088▼a5-11  변동응력의  특성화▼c27099▼a5-12  변동응력에  대한  피로파손기준▼c27200▼a5-13  변동응력에  대한  비틀림  피로강도▼c28811▼a5-14  하중  모드의  중첩▼c28922▼a5-15  변화하는  변동응력;누적피로손상▼c29233▼a5-16  표면피로강도▼c29944▼a5-17  통계적  해석▼c30255▼aPart3  기계요소의  설계66▼a6  나사,결합요소,비영구적  이음에  대한  설계77▼a6-1  나사산의  표준과  정의▼c33088▼a6-2  운동용  나사의  역학▼c33499▼a6-3  나사산이  있는  결합요소▼c3420000▼a6-4  이음에서,결합요소의  강성▼c3450101▼a6-5  이음에서,부재의  강성▼c3480202▼a6-6  볼트의  강도▼c3510303▼a6-7  이음에서,인장방향의  외력으로  인산  식▼c3540404▼a6-8  볼트토크와  볼트인장력의  관계▼c3560505▼a6-9  이음에서,  인장방향의  외력으로  인한  부재의  분리▼c3590606▼a6-10  개스킷이  부착된  이음▼c3630707▼a6-11  인장방향의  외력이  반복적으로  작용하는  이음▼c3630808▼a6-12  전단이음▼c3700909▼a6-13  멈춤나사▼c3751010▼a6-14  키와핀▼c3771111▼a6-15  통계학론적  고려▼c3831212▼a7  용접,접착,영구적  이음에  대한  설계1313▼a7-1  용접기호▼c3981414▼a7-2  맞대기용접과  필릿용접▼c4001515▼a7-3  비틀림을  받는  용접이음에서의  응력▼c4031616▼a7-4  굽힘을  받는  용접이음에서의  응력▼c4091717▼a7-5  용접이음의  강도▼c4111818▼a7-6  정하중▼c4141919▼a7-7  피로하중▼c4182020▼a7-8  저항용접▼c4202121▼a7-9  전단을  받는  볼트/리벳이음▼c4212222▼a7-10  접착제  이음▼c4252323▼a8  기계적  스프링2424▼a8-1  헬리컬  스프링에  작용하는  응력▼c4422525▼a8-2  곡률효과▼c4432626▼a8-3  헬리컬스프링의  처짐▼c4442727▼a8-4  압축스프링▼c4452828▼a8-5  안정성▼c4462929▼a8-6  스프링  재료▼c4483030▼a8-7  정적  부하상태의  헬리컬  압축스프링  설계▼c4533131▼a8-8  헬리컬  스프링의  임계진동수▼c4613232▼a8-9  헬리컬  압축스프링의  피로하중▼c4623333▼a8-10  피로  하중에  대한  헬리컬  압축스프링  설계▼c4673434▼a8-11  인장스프링▼c4703535▼a8-12  헬리컬  코일  비틀림스프링▼c4793636▼a8-13  Belleville  스프링▼c4873737▼a8-14  기타  스프링▼c4883838▼a8-15  요약▼c4903939▼a9  구름베어링4040▼a9-1  베어링의  종류▼c4994141▼a9-2  베어링의  수명▼c5014242▼a9-3  정적  신뢰도에서의  베어링  부하  수명▼c5024343▼a9-4  베어링  존속:  신뢰성과  수명▼c5044444▼a9-5  하중,수명  그리고  신뢰도  사이의  관계▼c5064545▼a10  기어-일반4646▼a11  스퍼기어,헬리컬기어4747▼a12  클러치,브레이크,커플링과  플라이휠4848▼a13  축  및  액슬4949
■7001  ▼a김영진,  김태우,  김현수,  이건상,  최재붕
■950    ▼b￦32000
■971    ▼a김영진,  김태우,  김현수,  이건상,  최재붕  공역

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