1) plate-fin structure
板翅结构
1.
Finite element analysis of residual stresses and thermal deformation for brazing plate-fin structure;
板翅结构钎焊残余应力与热变形的有限元分析
2.
The residual stress in brazed stainless steel plate-fin structure and its influencing factor were analyzed by using finite element code-ABAQUS.
利用有限元软件ABAQUS,对不锈钢板翅结构在真空钎焊过程中产生的残余应力进行有限元分析,讨论钎缝间隙、隔板厚度、翅片内距、翅片内高、翅片厚度、钎焊温度、翅片层数、材料匹配程度以及压力对残余应力的影响。
3.
According to Norton creep constitutive equation and 600℃creep parameters of as-cast Ni-based BNi-2 filler and SS304 stainless steel, 105 h creep analysis for stainless steel plate-fin structure was carried out by ABAQUS finite element code.
基于有限元软件ABAQUS,利用Norton蠕变本构关系及镍基钎料BNi-2和不锈钢母材SS304在600℃的蠕变参数,对不锈钢板翅结构进行蠕变有限元分析,预测其在高温环境下服役105h的应力、应变分布规律和危险位置。
2) Plate-fin
板翅结构
1.
By using the full parametric finite element numerical simulation,a series of data is obtained,and the relationship between the stress and structure parameters of plate-fin is analyzed.
利用数据拟合技术,获得了翅片和隔板应力新的工程计算表达式,是对现有板翅结构设计规范的有效补充。
3) stainless steel plate-fin structure
不锈钢板翅结构
1.
3D numerical simulation of brazed residual stress in stainless steel plate-fin structure;
不锈钢板翅结构钎焊残余应力三维数值模拟
2.
Effect of brazing residual stress on creep for stainless steel plate-fin structure;
不锈钢板翅结构钎焊残余应力对蠕变的影响
3.
Effect of filler metal thickness on creep for stainless steel plate-fin structure;
钎缝厚度对不锈钢板翅结构蠕变的影响
4) fin structure
翅片结构
1.
Functions about fin structure parameters,such as height,spacing and thickness are established when volume of fin is the smallest under unit temperature difference and unit quantity of heat.
采用遗传算法进行了优化,指出了该方法用于热管翅片结构的分析具有高效、简捷的特点。
5) Elytral morphology
鞘翅结构
补充资料:卤鸭翅
卤鸭翅 "料: 鸭翅
调味料: 花椒、八角(大料)、桂皮、香叶、丁香、酱油、糖、麻油(香油)、料酒、葱、老姜
做法:
1.锅中加水、老姜、葱烧开,放入洗净的鸭翅,等水再烧开既将鸭翅捞出,再用水洗净。
2.原锅洗净,再加水、花椒、八角(大料)、桂皮、香叶、丁香、酱油、糖、料酒、鸭翅烧开,调整好口味,改小火浸卤鸭翅。这样大约浸卤3个小时左右即可。淋少许麻油装盘。"
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