本文运用液相烧结模型对实验结果进行了探讨。
The liquid phase sintering model was discussed to explain the experimental result.
试验和分析结果将为建立非等温烧结模型和烧结工艺参数的优化方法提供依据。
The experimental and analytical results make the reference for building the non-isothermal sintering model and for the optimization of sintering process parameters.
依据华东烧结模型中膨胀机制和收缩机制的数学表征,讨论了两种机制的相互关系。
The interaction between two sintering mechanisms in Huadong model was discussed by mathematical method.
本文叙述并分析了烧结终点微机控制系统的原理,提出了实用的控制方法和数学模型。
This paper describes and analyzes the principle of microcomputer system controlling sintering burn-through point, and provides its practical control methods and mathematical models.
烧结是一个典型的时变、非线性、大滞后的系统,很难用一个确定的数学模型去描述整个过程。
As sinter is a typical time varying and nonlinear system with large delay time, it is difficult to describe the whole process using a mathematical model.
建立了烧结金属多孔材料连通孔隙形成的模型,通过控制机械压制压力获得了一定孔隙率的金属多孔材料。
Geometrical models are built for connected pores of the sintered porous metal. The mechanical compaction force is controlled to obtain the porous metal with the certain porosity.
并通过试验,用微波炉模拟微波烧结腔体测得温度数据,建立模型。
In experiment, microwave oven is used to simulate microwave sintering cavity, then temperature data are gained and model is established.
将不同品位的烧结矿成本按某一品位折算为可比成本,建立了线性规划模型。
The linear programming model was established by the manner of converting sintering costs of various sinters to a certain sinter′s comparable cost.
运用模糊控制理论研制出烧结终点位置模糊控制模型。提出了前馈-反馈控制方法。
Developed the fuzzy control model of sintering burning-through-point with fuzzy theory, and put forward the feedforward-feedback fuzzy control method.
采用烧结的平面物理模型,实验模拟底水绕过上窜夹层的动态过程。
The dynamic process of bottom-water bypassing interbed and fleeing upward is simulated by using sintered planner models.
依据液相烧结理论和双肖特基模型对实验结果进行了讨论。
The experiment results are explained based on the theory of liquid-phase sintering and the model of Schottkey barriers.
依据液相烧结理论和双肖特基模型对实验结果进行了解释。
The results of experiment have been explained based on the theory of liquid-phase sintering and the model of Schottkey barriers.
通过应用毛细作用的的基本公式得到钉基厚膜应变电阻烧结阶段的模型。
The fundamental formula of capillarity is employed on the Ru-based thick film strain resistors in the progress of sintering, and we got a mathematical model of this stage.
在分析纳米材料已有烧结理论的基础上,结合激光加工中有关热传导理论,建立了纳米材料在激光作用下晶粒尺寸变化的数学模型。
Analyzing the sintering theory of nano material and the heat conduction theory of laser machining, the mathematic model of grain size growth of nano material in laser irradiation was built.
在分析宝钢烧结配矿方案、工艺参数以及产质量指标三者相互关系的基础上,提出了两种优化烧结工艺参数的数学逻辑模型。
Two kinds of optimization logic model of sintering process are put forward after analyzing the relation of mix ore scheme, process parameters and product quality index of Baoshan iron plant.
根据试验数据,应用多元非线性回归方法建立了密度与摆放位置关系的数学模型,并讨论了改善烧结密度的措施。
Maths model is built up to show the relationship of density with locating place using multiple nonlinear regression analysis of experimental results.
采用数据分析的方法建立了废气温度上升点、烧结终点、垂直烧结速度等参数的预报模型;
Predicted models of rising position of gas temperature, burn through point, vertical sintering speed, and so on, are established using dada analysis method.
建立选择性激光烧结粉末快速成形工艺过程的数值计算模型,并用于估算烧结深度。
Numerical computation model for the thermal process of selective laser sintering of powders were presented to predict the sintered depth in selective laser sintering.
本文采用二维相场模型模拟固相陶瓷烧结后期,晶粒和气孔耦合生长演化过程。
The topological evolution of coupled pore and grain growth during final stage sintering based on a 2-d continuum diffusion-interface field model is studied.
建立了硬质合金烧结-热等静压炉内传热的三维非稳态数值仿真模型,对炉内的温度场进行仿真与优化。
A three dimensional unsteady numerical model of cemented carbide sinter-HIP furnace was established. The temperature field was simulated and optimized with this model.
建立选择性激光烧结粉末的快速成型工艺过程的数值计算模型,并用于估算热固结宽度和深度。
Numerical simulation model for the thermal process of selective laser sintering of powders was presented to predict the sintered width and depth in selective laser sintering.
模型由炼铁系统总体模型和烧结过程子模型组成,二者均为非线性规划模型。
The model consists of two parts, the general model of ironmaking system and submodel of sintering process, both are nonlinear program model.
本文利用BP神经网络建立烧结矿化学成分的预报模型。
Prediction models of in sintering process based on BP neural network is proposed to judge the trend of the chemical composition.
本文针对烧结透气性、烧结终点和烧结成品化学成分的预测对烧结过程中的软测量建模技术进行了综述,结合实际应用详细讨论了建立软测量模型的方法。
Soft-sensing modeling of sintering process is reviewed in the paper aiming at the predictions of finished sinter chemical components, permeability and burn-through point(B.
针对烧结配料的优化问题,由物理模型得出数学模型,探讨了数学模型的求解方法。
To solve the optimization-model of sintering burdening problem, firstly get the mathematic model from the physical model, and then the method using to solve the model was talked about.
在分析纳米材料已有烧结理论的基础上,结合激光加工中有关热传导理论,建立了纳米材料在激光作用下晶粒尺寸变化的数学模型。
Analyzing the sintering theory of nano material and the heat conduction theory of laser machining, the mathematic model of grain size growth of nano material in laser sintering is built.
工业实际数据验证表明,智能集成模型的残硫估计误差平均值仅为7.5%,而且真实反映了烧结块残硫的变化趋势,可以为生产操作提供有益的指导。
The estimation model was tested by industrial practical data, its average error is 7.5%. So this model could be used as a guide in practical operation in sintering process.
应用BP神经网络技术和遗传优化技术分别建立烧结矿质量模拟模型和烧结寻优配矿模型;
Sinter quality simulating model and optimizing iron ores matching model were built by using BP neural network technology and genetic algorithms technology, respectively.
现场应用表明,此模型的建立与实现,既能稳定烧结矿的性能,提高质量稳定率,又能降低烧结成本。
The successful application has showed that the algorithm is effective and useful for stabilizing sinter properties , improving sinter quality and reducing sinter cost.
考虑不同因素的影响,建立了反应烧结碳化硅反应烧结过程的一组数学模型,它们可表述为一个拟线性的抛物型方程。
Several mathematical models for reaction process of reaction bonded silicon carbide are set up, which are quasi linear parabolic systems.
应用推荐