中国航空学报(英文版)
中國航空學報(英文版)
중국항공학보(영문판)
CHINESE JOURNAL OF AERONAUTICS
2005年
1期
90-96
,共7页
刘玉红%李付国%李超%吴诗惇
劉玉紅%李付國%李超%吳詩惇
류옥홍%리부국%리초%오시돈
FGH96合金%流动行为%人工神经网络%模拟电路
FGH96閤金%流動行為%人工神經網絡%模擬電路
FGH96합금%류동행위%인공신경망락%모의전로
FGH96 superalloy%flow behavior%artificial neural network(ANN)%analog-circuit
在锻造领域,多采用数字模型进行工艺设计和过程控制,但数字模型无法完成材料成形过程的实时控制.因此,有必要建立一种适合于实时控制的材料动态流动行为模型,以提高生产效率和锻件质量.通过热模拟试验,对细晶态FGH96合金的高温流动特性进行了研究,用BP(Back Propagation)网络建立了FGH96合金热变形行为的人工神经网络模型,根据电模拟理论,利用模拟电路的快速反应与易于控制等特点,建立了基于ANN的FGH96合金的模拟电路模型.测试结果表明,所建立的ANN模型和模拟电路模型均具有较高的预测精度,能很好地反映材料热成形过程的动态流动行为,可用于材料热成形过程的实时控制.
在鍛造領域,多採用數字模型進行工藝設計和過程控製,但數字模型無法完成材料成形過程的實時控製.因此,有必要建立一種適閤于實時控製的材料動態流動行為模型,以提高生產效率和鍛件質量.通過熱模擬試驗,對細晶態FGH96閤金的高溫流動特性進行瞭研究,用BP(Back Propagation)網絡建立瞭FGH96閤金熱變形行為的人工神經網絡模型,根據電模擬理論,利用模擬電路的快速反應與易于控製等特點,建立瞭基于ANN的FGH96閤金的模擬電路模型.測試結果錶明,所建立的ANN模型和模擬電路模型均具有較高的預測精度,能很好地反映材料熱成形過程的動態流動行為,可用于材料熱成形過程的實時控製.
재단조영역,다채용수자모형진행공예설계화과정공제,단수자모형무법완성재료성형과정적실시공제.인차,유필요건립일충괄합우실시공제적재료동태류동행위모형,이제고생산효솔화단건질량.통과열모의시험,대세정태FGH96합금적고온류동특성진행료연구,용BP(Back Propagation)망락건립료FGH96합금열변형행위적인공신경망락모형,근거전모의이론,이용모의전로적쾌속반응여역우공제등특점,건립료기우ANN적FGH96합금적모의전로모형.측시결과표명,소건립적ANN모형화모의전로모형균구유교고적예측정도,능흔호지반영재료열성형과정적동태류동행위,가용우재료열성형과정적실시공제.
At the present time, numerical models (such as, numerical simulation based on FEM) adopted broadly in technological design and process control in forging field can not implement the real-time control of material forming process. It is thus necessary to establish a dynamic model fitting for the real-time control of material deformation processing in order to increase production efficiency, improve forging qualities and increase yields. In this paper, hot deformation behaviors of FGH96 superalloy are characterized by using hot compressive simulation experiments. The artificial neural network (ANN) model of FGH96 superalloy during hot deformation is established by using back propagation (BP) network. Then according to electrical analogy theory, its analog-circuit (AC) model is obtained through mapping the ANN model into analog circuit. Testing results show that the ANN model and the AC model of FGH96 superalloy hot deformation behaviors possess high predictive precisions and can well describe the superalloy's dynamic flow behaviors. The ideas proposed in this paper can be applied in the real-time control of material deformation processing.
