吸气过程:气体通过吸气口进入转子齿槽。
Inspiratory process: the gas into the rotor through the alveolar inspiratory mouth.
转动时,通过带齿与带轮的齿槽相吻合来传递动力。
While working , the teeth of belt and the teeth of pulley joggle each other to transmit the motion and the dynamic force.
选择不同的公差在“弧齿槽宽”和“弧齿厚”中应用。
The selections differ only in the tolerance as applied to space width and tooth thickness.
自动装配切削齿,自动生成冠部的装齿齿槽和齿托结构。
Automatic assembling cutter and automatic creating the cutter's slot structure in crown.
牙周膜是位于牙骨质和下颌骨的齿槽骨之间的结缔组织。
The periodontal ligament is a connective tissue located between the cementum of teeth and the alveolar bone of the mandibula.
加工公差是花键的实际齿槽宽和实际齿厚的允许的变动量。
Machining Tolerance is the permissible variation in actual space width or actual tooth thickness.
决定负力矩大小的主要因素是齿槽接触线两侧的投影面积之差。
The primary factor determining this torque is the area difference between the front and back groove surfaces devided by the meshing line.
观察到过终极破坏和齿槽骨的缺失,状况严重时牙齿甚至会脱落。
Eventual destruction and loss of alveolar bone is observed and tooth exfoliation can occur in severe cases.
采用预制钛桩即刻行根管内加齿槽骨贯穿固定将断牙固定于原位。
The titanium dowels were put into the teeth canal fixed through alveolar teeth.
提出了一种由步进电机、转矩传感器等元件组成的齿槽转矩测试系统。
A cogging torque measurement system was proposed, which was composed of stepping motor, torque sensor, etc.
加工公差(m):加工公差是花键的实际齿槽宽和实际齿厚的答应的变动量。
Machining Tolerance (m) is the permissible variation in actual space width or actual tooth thickness.
有限元计算结果显示,优化设计后,齿槽转矩的幅值不足额定转矩的0.1%。
The FEM results show that the magnitude of cogging torque in both motors is less than 0.1% that of the rated torque after optimization with proposed method.
当齿槽效应比较大时会影响磁浮列车的悬浮控制,从而影响磁浮车的正常运行。
When cogging effect too big will affect the suspension control of HSMV, thus affecting the normal operation of HSMV.
自动计算相邻牙轮之间牙齿与齿槽的最小啮合间隙和牙齿底部到牙轮内孔的最小壁厚。
Calculate the engaging distance between inserts and slots and the least thickness from bearing to contour of cone automatically.
子块以PIC16C54为核心,通过测定齿槽板的挡光脉冲来计算行车速度及方向;
The submodule adopts a PIC16C54 as core processor and calculates the moving speed and direction by detecting the shading pulses of the toothandslots board.
计算了复合电机的感应电动势和电磁转矩,捕捉了齿槽定位转矩的最大值等电机参数。
Parameters of the induced electromotive force and the electromagnetic torque and so on of the novel motor have been calculated, and it is not difficult to catch the maximum value of cogging torque.
采用气隙磁导法计算发电机磁场时通常忽略定子齿槽效应,漏掉了发电机的故障信息。
The stator cogging effect is usually ignored when we calculate generator magnetic field by air gap permeance method, which lead to the generator fault information missing.
根据直线同步电机长定子的齿槽结构特性,设计了一种新型的电感式相对位置传感器。
In accordance with the cogging characteristic of the long stator of the linear synchronous motor, a new inductive sensing system of relative position is designed.
永磁电机中永磁体与有槽电枢铁心之间相互作用,产生齿槽转矩,引起电机振动和噪声。
Due to the interaction between the permanent magnet and slotted armature lamination, there exists cogging torque in slotted permanent magnet motors, which may cause noise and vibration.
结论:根管内加齿槽骨钛桩内固定即刻修复年轻恒前牙根折,方法简单可行,临床应用效果好。
Conclusion: This method which can survive the root-fractured young permanent anterior teeth is practical and effective for dental clinic.
根据光弹性试验和综合振动试验结果得出如下结论:1。锥齿轮齿槽裂纹并非由起动扭矩引起。
According the results and the comprehensive vibration test data, it can be concluded as follows: 1.
目的研究下颌支矢状劈开术(SSRO)常用两种内固定方式对下齿槽神经(IAN)功能的影响。
Objective To evaluate the neurosensory functions of the inferior alveolar nerve(IAN)after two rigid internal fixations for the sagittal split of ramus osteotomy(SSRO)in monkeys.
针对长定子直线同步电机驱动的高速磁悬浮列车,提出了采用对定子齿槽进行计数的测速定位方案。
A speed and position detection method for high-speed maglev train driven by long-stator synchronous linear motor, based on measuring cog-slots of the long-stator, was presented.
与其他永磁电机相比,由于结构和运行原理的不同,双凸极永磁电机齿槽转矩的削弱方法也有所不同。
Because of the differences on structure and operational principle, the ways of reducing cogging torque in DSPM is different from other permanent magnet motor.
无刷直流电机从定子的结构来看分为有铁心有齿槽、有铁心无齿槽、无铁心无齿槽和无齿槽空心杯定子。
Brushless DC motor from the stator core structure are divided into alveolar, a core non-alveolar, non-core non-alveolar and alveolar hollow stator Cup.
无刷直流电机从定子的结构来看分为有铁心有齿槽、有铁心无齿槽、无铁心无齿槽和无齿槽空心杯定子。
Brushless DC motor from the stator core structure are divided into alveolar, a core non-alveolar, non-core non-alveolar and alveolar hollow stator Cup.
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