结果表明,轧制变形程度和铝层加热温度都是影响复合板初结合强度的主要因素。
The results prove that the initial bonding strength mostly depends on total reduction and heating temperature of al.
对钢板感应加热成型进行有限元分析,包括钢板截面的温度分析,应力分析,变形分析等。
Simulating the deformation of the steel plate by induction heating in Finite Element Method(FEM), including temperature analysis, stress analysis and deformation analysis.
提出了采用加热空气介质的高温空气槽测定材料热变形温度(HDT)的方法,通过几种高分子材料在油浴中及高温空气槽中测定HD T值的比较。
The way of heating air by using high temperature-air container was designed for the measurement of the heat deflection temperature (HDT) of polymer materials.
按新方程加工的模具,当加热达到复合材料的成型温度时恰好变形到理论方程型面。
When the mould designed with the new equation is heated to molding temperature, the distortion meets the theoretical equation nicely.
研究了镍基合金冷变形管坯退火裂纹与加热温度的关系和退火裂纹产生的原因。
The relationship between annealing cracks and heating temperatures of Ni-based alloy cold-formed billets and the causes of annealing crack occurrence are studied.
结合控制气氛轧制复合工艺,研究了轧制张力和坯料加热温度对轧制复合临界变形程度和复合后厚比的影响规律。
The effect of temperature and tensile force on the threshold deformation and the thickness ratio after bond was mainly studied under the condition of control atmosphere rolling process.
采用偏低的加热温度、适当的保温时间和小变形量、多道次的工艺制度可以明显改善这两种不锈钢的热加工性能。
Lower heating temperature, proper heating time, light reduction and multipass processes could be adopted to improve the hot ductility of the steels studied.
铝合金和镁合金等轻合金在常温下变形能力差,但在加热到一定温度时塑性变形能力大幅提高。
The formability of lightweight alloys, such as Aluminum and Magnesium is generally low at room temperature, which can be improved significantly at elevated temperature.
干涉仪的第二个问题是热杂讯,其中以来自雷射光本身的热最是严重;雷射光点打在镜子中心使之温度上升,加热不均匀的结果,会导致镜面变形。
A second problem is thermal noise, especially that caused by the laser beam itself: the laser spots hit the center of the mirrors, heating them unevenly and thereby deforming them.
对不同温度下变形和变形后再加热到奥氏体区的低碳钢SS40 0的显微组织进行了研究。
The microstructure of low carbon steel SS400 deformed at different temperatures and reheated to austenite region after deformation was studied.
对不同温度下变形和变形后再加热到奥氏体区的低碳钢SS40 0的显微组织进行了研究。
The microstructure of low carbon steel SS400 deformed at different temperatures and reheated to austenite region after deformation was studied.
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