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The finite element method (FEM) simulation of deep-drawing of steel sheet with nickel coating based on the solid element and dynamic explicit method was reported. Penalty function method was used to treat the contact algorithm. The friction between the punch and coating sheet was based on a Coulomb formulation. The combination of coating and substrate was defined as tied with failure contact. The results of the simulation illustrate that the steel sheet and the nickel coating do not delaminate at the interface. The stress field of the nickel coating is more complicated thala that of the steel substrate. Furthermore, it is found that the punch-nose radius is the most unsubstantial part for the intensity of the entire deep-drawing part and the thinnest part, it is a dangerous zone for the break. At this zone, the thickness thinning of the steel sheet and the nickel coating are up to 4.8% and 6.7%, respectively. Meanwhile, it is found that the curve of the variable blankholder force (VBHF) designed can improve the formability of sheet. 相似文献
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采用电沉积法在低碳钢基体上制备了韧性较好的镍镀层,并对镀镍钢带进行了拉伸试验.通过扫描电镜(SEM)和X射线衍射(XRD)分别对镍镀层变形前后的表面形貌和织构进行了研究.用纳米压痕的方法对拉伸变形前后的镍镀层样品进行了载荷-深度曲线的测试,并测量了电沉积镍镀层变形前后的硬度与杨氏模量.结果表明,拉伸变形后的镍镀层表面粗糙度变大,出现起皱,但并没有产生新的织构,只是原有织构的强度发生了变化,其硬度和杨氏模量都明显减小.对于同一样品,加不同载荷会导致不同的压痕深度,随深度的增加,测得的压痕硬度和样式模量也有明显降低. 相似文献
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采用鼓包法研究聚丙烯薄膜/不锈钢基底的粘接性能。基于数字散斑相关法,对自由窗口的聚丙烯薄膜受油压发生变形的全场形貌进行测量。实验结果表明:方形窗口薄膜的剥离最先从四边的中心开始,然后扩展到薄膜的4个尖角,变形形貌从方形最后变成圆形。聚丙烯薄膜/不锈钢基底的界面粘接能为(22.60~1.55)J/m2,这个结果和圆形薄膜窗口测量的结果吻合得较好。 相似文献
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为了改善锂离子电池锡负极的循环性能,将碳纳米管与锡负极复合,以铜片为基底,采用复合电沉积的方式制备了含有不同直径碳纳米管的Sn-CNTs复合电极,并对其表面形貌,成分与结构分别进行了扫描电子显微镜法(SEM)、X射线衍射光谱法(XRD)、能量散射光谱(EDS)分析。最后,组装模拟电池并测试其电化学性能。结果表明:制备的电极表面不规则,可明显观察到CNTs与Sn颗粒,且当CNTs直径为10~20 nm时,其在镀层内含量最高,制备的Sn-CNTs复合电极循环性能最佳,经过50次充放电循环后,其比容量仍能达到420 m Ah/g。 相似文献
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采用有限元法系统地研究了平面应变鼓包实验中鼓包尺寸、薄膜初始条件以及材料参数对薄膜变形行为的影响。然后,根据有限元结果,分析平面应变鼓包实验测量薄膜力学性能的精度。结果表明:尽管原有的平面应变鼓包理论模型测量平面应变模量的精度很高,但是依其测量残余应力的精度并不高,尤其是在低残余应力阶段。最后,根据上述情况,提出一种新的分析鼓包实验数据的方法以提高平面应变鼓包技术的精度和可靠性。 相似文献
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The electroless Ni-P-SiC composite coatings were prepared and the influence of vacuum heat treatment on its structure and properties was analyzed. The Ni-P-SiC composite coatings were characterized by morphology, structure and micro-hardness. The morphology and structure of the Ni-P-SiC composite coatings were studied by scanning electron microscopy (SEM) and X-ray diffractometry (XRD), respectively. A great deal of particles incorporation and uniform distribution were found in Ni-P-SiC composite coatings. XRD results show a broad peak of nickel and low intensity SiC peaks present on as-deposited condition. Micro-hardness of as-deposited Ni-P-SiC composite coatings is improved greatly, and the best micro-hardness is obtained after heat treatment in a high vacuum at 400 ℃. 相似文献