1) solidification and heat transfer model
凝固传热模型
1.
A method based on CACO(chaos ant colony optimization) algorithm and 2-D solidification and heat transfer model was presented to optimize the water distribution parameters in secondary cooling for continuous casting — a multi-criteria optimization problem.
采用控制容积法建立的凝固传热模型主要用于连铸过程仿真,研究铸流表面温度分布和参数搜索空间特性。
2) three-dimensional solidification heat transfer model
三维凝固传热模型
3) thermo-mechanical coupled model
凝固传热与凝固变形的耦合模型
4) heat transfer and solidification
传热凝固
1.
Under conditions of a slab caster and the working tip structure of SEN used,comprehensive mathematical description and simulation concerning fluid flow of liquid steel,fluctuation of bath surface and heat transfer and solidification of steel were performed.
结合连铸机设备工艺条件和所采用浸入式水口结构进行了结晶器内钢水流动、自由液面以及传热凝固等冶金现象的综合描述和数值分析。
2.
For CSP thin slab caster at Zhujiang Steel,a comprehensive mathematical simulation concerning fluid flow,fluctuation of bath surface,heat transfer and solidification of melt was performed with given SEN and measured heat fluxes.
基于珠钢CSP薄板坯连铸机设备工艺条件和所采用扁平浸入式水口结构,结合铜板测温导出的热流密度分布进行了漏斗形结晶器内钢水流动、自由液面以及传热凝固等冶金现象的综合描述和数值分析。
5) Solidification and heat transfer
凝固传热
1.
Changeable space FDM for solidification and heat transfer of rectangular billet in continuous casting;
矩形连铸坯凝固传热的变间距有限差分模拟
2.
Numerical simulation of solidification and heat transfer in the mold for the bloom caster in Baotou Iron and Steel Co.;
包钢大方坯连铸机结晶器凝固传热的数值模拟
3.
Research and application of solidification and heat transfer for liquid steel in mould of SPHC;
SPHC连铸结晶器内钢水凝固传热的研究与应用
6) heat transfer
凝固传热
1.
Numerical Simulation and Control of Heat Transfer in Continuous Casting Process;
连铸凝固传热全过程数值模拟与控制
2.
Based on the mathematical model of heat transfer in slab continuous casting process, the MSC Marc is adopted to simulate the temperature field and solidification of continuous casting process, and the result of simulation is analyzed.
在建立板坯连铸凝固传热数学模型的基础上,采用有限元软件MSCMarc对国内某板坯连铸机的凝固过程进行模拟,并对其仿真结果进行分析。
补充资料:钢锭凝固传热模型
钢锭凝固传热模型
mathematical model of solidification thermol conduction
gongdingn一nggu ehuanre mox一ng钢锭凝固传热模型(mathematieal model ofsolidifieation thermol eonduetion)描述钢锭凝固过程中温度场变化规律的数学表达式。由钢液转变为钢锭或铸坯、铸件,要放出大量的热,包括钢液的过热显热、结晶潜热和凝固层的降温显热。凝固过程中这些热量的散失方式及其强度,直接影响钢锭的凝固速度、结晶组织、物理和化学不均匀性及表面质量等。钢凝固传热的基本规律及特点首先是钢锭和钢锭模在凝固过程中的温度场既随空间变化,又随时间变化,即属于三维不稳定态传热;其次,它包括钢锭模与钢锭凝固层间的传导传热,钢液内部的传导及对流传热,流动的钢液与凝固前沿的对流及传导传热,以及钢锭与锭模之间气隙中的辐射、传导及对流传热等等,属于综合传热过程。对如此复杂的三维不稳定态综合传热的凝共、刃仅为温度的函数,而与空间位置无关。这样,对于扁锭,三维的不稳定态导热微分方程式便简化为:贵一。10t上大下小镇”钢钢“内温度变化曲线图逃。。。。、、。、。。、、,。**。,*_七。卜品一嘛线都表示钢锭半高处的锭表
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