安徽职业技术学院学报
安徽職業技術學院學報
안휘직업기술학원학보
JOURNAL OF ANHUI VOCATIONAL TECHNICAL COLLEGE
2014年
4期
13-16
,共4页
分子静力学%铝材料%机械材料%热变形%形状与结构参数
分子靜力學%鋁材料%機械材料%熱變形%形狀與結構參數
분자정역학%려재료%궤계재료%열변형%형상여결구삼수
molecular statics%aluminum crystal%mechanical material%thermal deformation%shape and structure paramete
热特性是机械材料非常重要的物理特性。为了研究不同形体结构的热变形规律,文章针对铝材料进行微观层面的数值模拟和宏观的热变形实验。在原子尺度上分别构建立方体和空心圆柱体的3D纳米单晶铝模型,采用分子静力学理论与数值算法对模型热变形,得到模型升温后的变形量和热膨胀系数。微观模拟和数值模拟的结果均表明:立方体升温后,表面不同位置的热变形量不一样,中间的热变形量大于边缘处,即机械材料热变形具有非相似性特征;内径尺寸一致、外径尺寸不同的一组空心圆柱体升温后,外径和内径的热膨胀系数均不同。这说明机械形体的形状与结构参数对材料热变形规律影响重大,该现象在精密机械工程中不可忽略。
熱特性是機械材料非常重要的物理特性。為瞭研究不同形體結構的熱變形規律,文章針對鋁材料進行微觀層麵的數值模擬和宏觀的熱變形實驗。在原子呎度上分彆構建立方體和空心圓柱體的3D納米單晶鋁模型,採用分子靜力學理論與數值算法對模型熱變形,得到模型升溫後的變形量和熱膨脹繫數。微觀模擬和數值模擬的結果均錶明:立方體升溫後,錶麵不同位置的熱變形量不一樣,中間的熱變形量大于邊緣處,即機械材料熱變形具有非相似性特徵;內徑呎吋一緻、外徑呎吋不同的一組空心圓柱體升溫後,外徑和內徑的熱膨脹繫數均不同。這說明機械形體的形狀與結構參數對材料熱變形規律影響重大,該現象在精密機械工程中不可忽略。
열특성시궤계재료비상중요적물리특성。위료연구불동형체결구적열변형규률,문장침대려재료진행미관층면적수치모의화굉관적열변형실험。재원자척도상분별구건립방체화공심원주체적3D납미단정려모형,채용분자정역학이론여수치산법대모형열변형,득도모형승온후적변형량화열팽창계수。미관모의화수치모의적결과균표명:립방체승온후,표면불동위치적열변형량불일양,중간적열변형량대우변연처,즉궤계재료열변형구유비상사성특정;내경척촌일치、외경척촌불동적일조공심원주체승온후,외경화내경적열팽창계수균불동。저설명궤계형체적형상여결구삼수대재료열변형규률영향중대,해현상재정밀궤계공정중불가홀략。
Thermal characteristic is one of the most important mechanical properties of materials. The paper studies the thermal deformation characteristics of mechanical parts by using the microscopic numerical simulation and macroscopic experiment. The paper takes a set of 3D aluminum crystal models as the objects of study and gets the thermal deformation data by the molecular statics method. Meanwhile, series of macroscopic thermal deformation experiments of aluminum sample are also carried out. The consistency of microscopic simulation and macroscopic experiment results demonstrate that with the body worming, the thermal deformation of the different position of surface is not the same, and the thermal of the middle is larger than the edges, namely, mechanical deformation is not similar. After heating the hollow cylinders with the same inner diameter size and different outer diameter size, the coefficient of thermal expansion of the outer diameter and the inner diameter is different. It proves that the thermal deformation of mechanical part is obviously affected by its shape and structure parameters, which should not be ignored in precision machinery engineering.