1) Coarse Grained Materials Characteristics
粗晶散射模型
2) Scattering model
散射模型
1.
A bistatic scattering model is presented based on perturbation theory and empirical formula in this paper, and the relations between the bistatic scattering strength and the frequency, the wind speed, the sound speed, the angles(the grazing angle, the scattering angle and the bistatic angle) are analyzed by means of computer simulatio.
建立了双基地声呐的海面散射模型,给出了海面散射强度的明确表达式。
2.
The model is applied to shallow water with a reverse thermocline and the curves of reverberation loss calculated by the model are compared when applying four different bottom scattering models.
在波束位移射线简正波理论的基础上推导了浅海混响模型,仿真比较了负跃层浅海情况四种海底散射模型对应的混响衰减曲线,结果表明海底散射模型对浅海混响的影响较为显著。
3.
In order to study bistatic ocean reverberation,three bistatic scattering models are developed.
海洋混响是影响双基地声呐性能的重要因素,本文依据双基地声呐的工作特点,对双基地声呐的混响特性进行了研究,建立了双基地散射模型,并进行仿真分析,得出有价值的结论。
3) Discretely scattering model
离散散射型模型
4) GTD scattering model
GTD散射模型
1.
Firstly,the range parameter of scattering centers is obtained by matrix-pencil method,and the type parameter of scattering centers is estimated based on approximation of GTD scattering model,and then the amplitude parameter of scattering centers can be estimated by least-squares method.
文中通过分析最大似然方法估计GTD散射模型参数的不足,提出了一种基于参数解耦的综合估计流程。
5) scattering model
声散射模型
1.
Review the ultrasonic scattering model for inhomogeneous soft tissue;
非均匀软组织声散射模型的研究概况
6) scattering point model
散射点模型
1.
According to the principle of the radar imaging,it is discussed the relations of the scattering points between the length direction’s displacements and the phase separation based on the scattering point model.
根据雷达一般成像原理,基于散射点模型讨论了目标旋转纵向位移及由此引起的散射点相位差的变化关系。
补充资料:铝合金挤压制品的粗晶环
铝合金挤压制品的粗晶环
coarse grain ring of extruded aluminium alloy product
IOheJ一nJ一yo zh1P旧de euJ一nghuon铝合金挤压制品的粗晶环(coarse grain ringof extruded aluminium alloy produet)宇吕合金加工制品缺陷的1种。挤压制品末端周边具有粗大的再结晶晶粒区,单孔模挤压呈环形,多孔模挤压呈月牙形。 粗晶环是采用无润滑正向挤压制品中固有的·种缺陷。沿挤压制品周边形成的粗大晶粒区,降低制品的抗拉强度和屈服强度,提高伸长率。如高强硬铝合金2A12(IY12)淬火自然时效状态棒材的粗晶环区(见图),与正常区相比.纵向么降低84一92MPa,丙2降低60~64MPa才提高3%一4%。 对粗晶环的形成机理各国有许多研究,早期文献认为由于发生二次再结晶而形成;20世纪70年代以来多数研究结果证明是由于亚晶合并产生的一次再结晶形成。 影响粗晶环的因素较多,低锰的合金形成粗晶环严重,含错的合金可减轻粗晶环。铸锭均匀化退火温度高和挤压温度低,均使粗晶环区深度增加。采用反挤压、润滑挤压和冷挤压工艺可显著减轻粗晶环,甚至完全消除。降低热处理温度和缩短保温时间也可减小粗晶环深度。「肇几 高强硬招合金2八1别{_Y12)挤压棒材淬火自然 时效状态的粗晶环 (咚长清)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条