首页> 外文会议>Shape Casting >RELATIONSHIP BETWEEN HTC EVOLUTION, GAP FORMATION AND STRESS ANALYSIS AT THE CHILL INTERFACE IN ALUMINUM SAND CASTING

【24h】

RELATIONSHIP BETWEEN HTC EVOLUTION, GAP FORMATION AND STRESS ANALYSIS AT THE CHILL INTERFACE IN ALUMINUM SAND CASTING

机译：铝砂铸件冷轧过程中HTC的演变，间隙形成与应力分析之间的关系

获取原文

获取原文并翻译 | 示例

页面导航

摘要
著录项
相似文献
相关主题

摘要

The effect of the interface pressure on the metal-chill Heat Transfer Coefficient (HTC) during the cooling of a A356 aluminum alloy in a gravity sand casting process is analyzed. HTCs are evaluated by inverse analysis in different processing conditions, by varying both chill material (copper, aluminum and cast iron) and size (30, 60 and 90 mm depth). All the experimental conditions are reconstructed by numerical analysis with the aim of evaluating the increase of contact pressure between casting and chill before the formation of an air gap. The experimental heat flow as determined in each experiment was used as a boundary condition for the calculations. The evaluated interface pressures were put in relation to the particular HTC evolution in the different experiments in order to point out correlations.

机译：分析了重力砂铸造过程中A356铝合金冷却过程中界面压力对金属-冷态传热系数（HTC）的影响。通过在不同的加工条件下进行逆分析来评估HTC，方法是改变冷却材料（铜，铝和铸铁）和尺寸（深度30、60和90 mm）。通过数值分析来重建所有实验条件，目的是评估在形成气隙之前铸件和冷却之间的接触压力的增加。在每个实验中确定的实验热流用作计算的边界条件。在不同的实验中，将评估的界面压力与特定的HTC演变联系起来，以指出相关性。

著录项

来源
《Shape Casting》|2007年|241-248|共8页
会议地点 OrlandoFL(US);OrlandoFL(US)
作者
A.Meneghini; L.Tomesani; G. Sangiorgi Cellini;
展开▼
作者单位

University of Bologna, Dept. DIEM;

Viale Risorgimento 2;

Bologna, 40136, Italy;

展开▼
会议组织
原文格式 PDF
正文语种 eng
中图分类铸造工艺;
关键词
stress analysis; heat transfer coefficient; sand casting; gap formation;

机译：压力分析；传热系数砂模铸造;缺口形成;
入库时间 2022-08-26 14:21:50

相似文献

外文文献
中文文献
专利

1. 嵌入式铝/钢冷轧复合带材铝层的厚度波动形成机理与控制 [J] . 王春阳, 姜雁斌, 谢建新, 中国有色金属学报（英文版） . 2017,第005期
2. 嵌入式铝/钢冷轧复合带材铝层的厚度波动形成机理与控制 [J] . 王春阳, 姜雁斌, 谢建新, 中国有色金属学报：英文版 . 2017,第005期
3. Chill material and size effects on HTC evolution in sand casting of aluminum alloys [J] . A. Meneghini, L. Tomesani Journal of Materials Processing Technology . 2005,第0期

机译：铝合金砂铸中冷硬材料和尺寸对HTC演变的影响
4. Chill material and size effects on HTC evolution in sand casting of aluminum alloys [J] . A. Meneghini, L. Tomesani Journal of Materials Processing Technology . 2005,第0期

机译：铝合金砂铸中冷硬材料和尺寸对HTC演变的影响
5. A fully-coupled thermal-stress model to predict the behavior of the casting-chill interface in an engine block sand casting process [J] . Farzaneh Farhang Mehr, Steve Cockeroft, Daan Maijer International Journal of Heat and Mass Transfer . 2020,第May期

机译：一个完全耦合的热应力模型，用于预测机体砂型铸造过程中的铸-冷界面行为
6. RELATIONSHIP BETWEEN HTC EVOLUTION, GAP FORMATION AND STRESS ANALYSIS AT THE CHILL INTERFACE IN ALUMINUM SAND CASTING [C] . A. Meneghini, L.Tomesani, G. Sangiorgi Cellini TMS Annual Meeting Exhibition . 2007

机译：HTC演化，间隙形成和压力分析在铝砂铸造中的冷却界面之间的关系
7. Thermal stress prediction for direct-chill casting of a high strength aluminum alloy. [D] . Wan, Jian. 1998

机译：高强度铝合金直接冷铸的热应力预测。
8. Motion and Distribution of Floating Grain in Direct-Chill Casting of Aluminum Alloys: Experiments and Numerical Modeling [O] . Qipeng Dong, Yanbin Yin, Zhen Zhu, 2020

机译：铝合金直接寒冷铸造浮粒的运动和分布：实验与数值模型
9. Prediction of residual stress and deformation of sand castings by using FEM thermal stress analysis [O] . 本山雄一 2013

机译：有限元热应力分析预测砂型铸件的残余应力和变形
10. Fundamental insights on impact of non-condensible gas evolution from coating pyrolysis and intentional injection on molten-aluminum water explosion onset during direct-chill casting [R] . Taleyarkhan, R. P. , Kim, S. H. , Gulec, K. 1998

机译：在直接冷硬铸造过程中涂层热解和有意注入对熔融铝水爆炸的不可凝结气体演变影响的基本见解

RELATIONSHIP BETWEEN HTC EVOLUTION, GAP FORMATION AND STRESS ANALYSIS AT THE CHILL INTERFACE IN ALUMINUM SAND CASTING

摘要

著录项

相似文献

相关主题

期刊订阅