涡轮增压器不能满足柴油机全工况运行的需要,使部分负荷扭矩不足,热负荷增大。
Turbocharger engine can not meet all the needs of the operational state, resulting in the part-load torque inadequate and heat load increases.
输送皂角泵内有设计合理的泄油和回油槽,是齿轮在工作中承受的扭矩力最小,因此轴承负荷小,磨损小,泵效率高。
Pump is the drainage and back into the groove of reasonable design, is a gear in the work under the minimum torque force, so the bearing load is small, wear small, pump with high efficiency.
绘制给定失速扭矩和空载速度时的力矩曲线和功率曲线,不含负荷转速。
Plots the torque speed curve and power curves for given values of stall torque and no load speed.
冲击负荷也会影响刹车和加速扭矩虽然再次,这种影响是速度依赖性。
Shock loading can also affect braking and acceleration torques though, again, such effects are speed-dependent.
泵内有设计合理的泄油和回油槽,是齿轮在工作中承受的扭矩力最小,因此轴承负荷小,磨损小,泵效率高。
There are well-designed pump drain back tank and is exposed in the work gear torque exerted the smallest, so bearing loads of small, wear, pump efficiency.
这就要求设计概念,提供热增长的灵活性,同时反应,大扭矩,分离负荷和外部管道负荷。
This requires design concepts that provide thermal growth flexibility while reacting large torques, separating loads and external ducting loads.
泵内有设计合理的泄油和回油槽,是齿轮在工作中承受的扭矩力最小,因此轴承负荷小,磨损小,泵效率高。
Pump is the drainage and back into the groove of reasonable design, is a gear in the work under the minimum torque force, so the bearing load is small, wear small, pump with high efficiency.
具有极佳的抗磨损、抗腐蚀、抗高温、抗重载性能,在低速高扭矩和高速冲击负荷的苛刻条件下有效保护齿面。
With excellent abrasion resistance, anti-corrosion, anti-high temperature, anti-heavy-duty performance, high torque at low load and high-speed impact of effective protection under harsh tooth.
泵内有设计合理的泄油和回油槽,是齿轮在工作中承受的扭矩力最小,因此轴承负荷小,磨损小,泵效率高。
Pump discharge of oil with reasonable design, gear oil and back at work under minimum torque force bearing load, so small, wear small, pump with high efficiency.
分析了三辊劳特式轧机的负荷率、负荷波动率水平及分轴扭矩的分配实况。
The load rate, load fluctuation rate and actual distribution of the torque moments of partial spindle of the mill have been analyzed.
扭矩正确,就能防止配合部件在负荷作用下出现弹性分离,并防止部件在长期运转过程中逐渐松动。
Proper torquing avoids elastic separation of the mating parts under load and resists gradual loosening over time.
本文在斯威顿杠杆传动轴扭矩的实例基础上, 系统地分析了不同工况下杠杆传动轴扭矩负荷的变化规律,为解决生产过程中万向接轴时常断裂提供了科学依据。
Based on testing data, the basic factors and rules influencing shaft torques of SWITN'S device are analysed. It provides scientific proof for further analysis of the universal joint-shaft broken.
本文在斯威顿杠杆传动轴扭矩的实例基础上, 系统地分析了不同工况下杠杆传动轴扭矩负荷的变化规律,为解决生产过程中万向接轴时常断裂提供了科学依据。
Based on testing data, the basic factors and rules influencing shaft torques of SWITN'S device are analysed. It provides scientific proof for further analysis of the universal joint-shaft broken.
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