기계공학 실험 - 충격시험
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작성일 22-03-07 20:46본문
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1. 실험목적···································································································· 2
β : 시험편을 절단하고 상승했을 때의 각도
R : 축 중심 O로부터 팬둘럼의 중심 G까지의 거리 (m)
W : 팬둘럼의 무게 (kgf)
<그림 1> 그림1 Charpy 충격 실험의 원리 ··························································· 2
2.1 충격 實驗의 원리 (Charpy impact test)
기계공학 실험 - 충격시험
2. theory 적 배경································································································ 2
2. 이론(理論)적 배경
충격 시험은 시험편을 양단힌지 위에 올려놓은 다음 시험편의 notch부분이 정확하게 중앙에 오도록 수평으로 놓는다. 그리고 충격시험기의 원리 및 구조를 이해하는데 있다
A : 노치부의 원래의 단면적
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▶bibliography ···························································································· 9
순서
<표 2> 실험결과 그래프·················································································· 8
2. 결론 및 고찰 ····························································································· 8
Ⅱ.본론
그림1과 같이 핸들을 돌려서 팬둘럼이 α되는 각도의 위치에 고정시키고 펜듈럼 팬둘럼의 날이 시험편의 노치 부분에 오도록 시험편을 바른 위치에 놓은 다음, 팬둘럼을 낙하시켜서 시험편을 파괴시키고 팬둘럼이 각도 β만큼 올라가게 한다.
<표 1> 실험결과···························································································· 6
설명
α : 팬둘럼을 들어 올렸을 때의 초기각도
1. 실험결과 및 정리 ······················································································· 6
2. 실험시 주의사항·························································································· 6
h1 : 끌어올린 위치
<그림 3> Charpy 충격 시험기············································································ 5
Ⅲ.결론
다. 1. 實驗 목적
Ⅰ.서론
▶그림과 표 說明(설명)
h2 : 팬둘럼이 시험편을 통과한 올라간 위치
1. 실험장비 및 방법························································································ 4
<그림 2> 시험편···························································································· 4
기계공학 실험,충격시험
Ⅰ.서론 1. 실험목적···································································································· 2 2. 이론적 배경································································································ 2 Ⅱ.본론 1. 실험장비 및 방법························································································ 4 2. 실험시 주의사항·························································································· 6 Ⅲ.결론 1. 실험결과 및 정리 ······················································································· 6 2. 결론 및 고찰 ····························································································· 8 ▶그림과 표 설명 <그림 1> 그림1 Charpy 충격 실험의 원리 ··························································· 2 <그림 2> 시험편···························································································· 4 <그림 3> Charpy 충격 시험기············································································ 5 <표 1> 실험결과···························································································· 6 <표 2> 실험결과 그래프·················································································· 8 ▶참고문헌 ···························································································· 9
레포트 > 공학,기술계열
충격시험은 재료의 연성(ductility) 또는 인성(toughness)의 판정을 위한 것으로서, 아주 짧은 시간에 큰 하중이 작용하는 하중을 충격하중이라 하며 재료에 충격저항이 작용할 때 에너지법을 이용하여 충격저항을 측정하며, notch부의 형상에 따른 충격저항의 變化(변화)를 구하여 이에 대한 영향을 이해해 보고자 한다. 이때 시험편이 중앙점을 충격하중을 가하여 시험편이 파단 되는데 소요된 흡수에너지E(kgf․m)로 충격치를 나타낸다.