inspecting geartrains
检查齿轮传动
geartrain maintenance
齿轮传动维护
geartrain failure
齿轮传动故障
geartrain systems
齿轮传动系统
replacing geartrains
更换齿轮传动
geartrain design
齿轮传动设计
geartrain lubrication
齿轮传动润滑
geartrain efficiency
齿轮传动效率
geartrain noise
齿轮传动噪音
the geartrain
齿轮传动装置
engineers often analyze complex geartrains to optimize mechanical efficiency in industrial machinery.
工程师经常分析复杂的齿轮系,以优化工业机械的机械效率。
the precision of modern geartrains allows for smooth power transmission in automotive transmissions.
现代齿轮系的精度使汽车变速箱能够实现平稳的动力传递。
simple geartrains are commonly used in clock mechanisms to regulate timekeeping accuracy.
简单的齿轮系常用于时钟机构中,以调节计时精度。
advanced geartrain modeling software helps designers predict system performance before manufacturing.
先进的齿轮系建模软件帮助设计师在制造前预测系统性能。
the efficiency of geartrains depends heavily on proper lubrication and alignment of components.
齿轮系的效率在很大程度上取决于适当的润滑和组件的对准。
mechanical engineers must consider gear ratios when designing geartrains for heavy machinery.
机械工程师在设计重型机械的齿轮系时必须考虑齿轮比。
geartrain dynamics can be analyzed using computer simulations to identify potential failure points.
可以使用计算机模拟分析齿轮系动力学,以识别潜在的故障点。
the complexity of geartrains in aerospace applications requires extensive testing and validation.
航空航天应用中齿轮系的复杂性需要广泛的测试和验证。
proper geartrain maintenance extends the lifespan of industrial equipment significantly.
适当的齿轮系维护可以显著延长工业设备的使用寿命。
compact geartrains are essential for miniaturized medical devices and precision instruments.
紧凑型齿轮系对于小型化医疗设备和精密仪器至关重要。
robotic systems rely on precise geartrain configurations for accurate movement control.
机器人系统依靠精确的齿轮系配置来实现精确的运动控制。
material selection plays a critical role in geartrain durability and performance.
材料选择对齿轮系的耐久性和性能起着关键作用。
inspecting geartrains
检查齿轮传动
geartrain maintenance
齿轮传动维护
geartrain failure
齿轮传动故障
geartrain systems
齿轮传动系统
replacing geartrains
更换齿轮传动
geartrain design
齿轮传动设计
geartrain lubrication
齿轮传动润滑
geartrain efficiency
齿轮传动效率
geartrain noise
齿轮传动噪音
the geartrain
齿轮传动装置
engineers often analyze complex geartrains to optimize mechanical efficiency in industrial machinery.
工程师经常分析复杂的齿轮系,以优化工业机械的机械效率。
the precision of modern geartrains allows for smooth power transmission in automotive transmissions.
现代齿轮系的精度使汽车变速箱能够实现平稳的动力传递。
simple geartrains are commonly used in clock mechanisms to regulate timekeeping accuracy.
简单的齿轮系常用于时钟机构中,以调节计时精度。
advanced geartrain modeling software helps designers predict system performance before manufacturing.
先进的齿轮系建模软件帮助设计师在制造前预测系统性能。
the efficiency of geartrains depends heavily on proper lubrication and alignment of components.
齿轮系的效率在很大程度上取决于适当的润滑和组件的对准。
mechanical engineers must consider gear ratios when designing geartrains for heavy machinery.
机械工程师在设计重型机械的齿轮系时必须考虑齿轮比。
geartrain dynamics can be analyzed using computer simulations to identify potential failure points.
可以使用计算机模拟分析齿轮系动力学,以识别潜在的故障点。
the complexity of geartrains in aerospace applications requires extensive testing and validation.
航空航天应用中齿轮系的复杂性需要广泛的测试和验证。
proper geartrain maintenance extends the lifespan of industrial equipment significantly.
适当的齿轮系维护可以显著延长工业设备的使用寿命。
compact geartrains are essential for miniaturized medical devices and precision instruments.
紧凑型齿轮系对于小型化医疗设备和精密仪器至关重要。
robotic systems rely on precise geartrain configurations for accurate movement control.
机器人系统依靠精确的齿轮系配置来实现精确的运动控制。
material selection plays a critical role in geartrain durability and performance.
材料选择对齿轮系的耐久性和性能起着关键作用。
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