1) process gap
工艺间隙
2) ability to bridge a gap between workpiece
大间隙的工艺可焊性
3) machining gap
加工间隙
1.
Due to high frequency short pulse electrochemical machining(HSPECM),machining gap model is built and the detection of interelectode gap average current is put forward.
针对高频窄脉冲电化学加工,对加工间隙进行建模分析,提出了间隙平均电流检测法。
2.
In this case, the influencing rules of frequency, voltage and electrolyte concentrations on machining gap as well as the section of electrode on machining stability were studied through experiment analysis in high frequency short pulse electrochemical micromachining.
加工间隙是电解加工的核心工艺参数,利用在45钢薄片上打微细孔,通过实验分析来探索高频、窄脉冲微细电解加工中频率、电压和电解液浓度对加工间隙及电极截面和加工稳定性的影响规律。
3.
Based on the movement of both the cathode and the anode in the electrochemical machining of an integral impeller,the velocity of the cathode was analyzed,and the velocity components influencing the machining gap were revealed.
从阐述电解加工整体叶轮过程中阳极和阴极的运动出发,对电解加工过程的阴极速度进行了分析,得到了影响电解加工间隙的速度分量;同时通过对展成电解加工特性的分析,对展成电解加工的成形规律进行了研究,推导出了侧面加工间隙的计算公式。
4) Interelectrode gap
加工间隙
1.
On-line measuring interelectrode gap of processing blade based on information fusion
基于信息融合的叶片加工间隙在线检测方法
2.
Arming to on-line monitoring interelectrode gap,turbine rotor blade of aero-engine was acted as research object,and machining current of ECM was acted as research parameter.
为了实时检测加工间隙,以某型航空发动机涡轮转子叶片为研究对象,把电解加工的电流作为研究参数,针对平面、斜面和叶片型面三种阴极进行试验加工,用最小二乘多变元线性拟合法,分别建立平面、斜面阴极加工电流与加工间隙之间的关系式,用叶片型面加工数据对建立的关系式进行检验和修正,得到最终的修正关系式,分析关系式参数的变换关系,得出在±15%的误差范围内关系式可用于在线检测加工间隙的结论。
3.
To effectively control interelectrode gap of electrochemical machining(ECM),the 6-D forces and machining current are used as primary data of fuzzy controller including two inputs and one output.
为了有效控制电解加工间隙,提高加工精度,以六维力和加工电流为模糊控制器输入的原始数据,结合在线检测加工间隙技术,得到测试间隙;设计控制加工间隙的二输入一输出的模糊控制器,把测试间隙与初始设定间隙形成偏差和偏差的变化量,作为模糊控制器的输入,机床主轴进给速度作为模糊控制器输出;在Matlab的Simulink模块中,通过对电解加工系统和模糊控制器组成的联合模型进行仿真试验,并调整加工间隙的初始设定值,得到结论:模糊控制电解加工过程稳定,鲁棒性好,加工过程很快达到平衡状态;在0。
5) work clearance
工作间隙
1.
Design and calculation on work clearance and relative interference amount of non-backpressure piston rings;
无背压活塞环的工作间隙和相对过盈量的设计计算
2.
The formula of thermal expansion work clearance between piston ring and cylinder inner side was derived by thermal deformation analysis.
利用热变形分析推导出了活塞环与气缸内壁间的热膨胀工作间隙计算式,表明工作间隙与非金属环的线热膨胀系数和工作前后温升成正比。
6) intermission working mode
间隙工作
补充资料:采气工艺(见天然气开采工艺)
采气工艺(见天然气开采工艺)
gas production technology
,一‘J\匕乙吕天然气开采工艺pro以uetionteehnology)见
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