1.平均失效间隔时间
2.平均故障间隔时间
3.平均失灵时间
1.mean time between failures
1.Theoretic calculations show that with redundancy control the mean-time-between-failures(MTBF) of the vacuum system is doubled at least.
通过计算,冗余控制可使整个负压系统的平均无故障工作时间至少增加一倍。
2.Given the failure rates for given subsystems, the Six Sigma Black Belt will be able to use reliability apportionment to set mtbf goals.
西格玛黑带应能计算基础的可靠性统计(平均无故障时间、可用性等)。
3.For the robot to achieve the required MTBF at the system level, each subassembly must achieve its target MTBF value shown in Table 4.
为实现机器人的MTBF需要在系统级,每个组件必须实现其目标的MTBF值列于表4。
4.To be offer Longer product life (MTBF) and stability for you. The image quality is clear and bright, true color and brightness.
产品寿命长,稳定性好,图像质量清澈明亮,对比度适中,色彩真实鲜艳。
5.This might include all the automated tests, some manual tests, plus, say, five days in "the lab" (i. e. , in the MTBF environment).
这可能包含所有自动化测试、一些手动测试,再加上,比方说,在“实验室”中的五天时间(也就是,在MTBF环境中)。
6.Specifically, you should consider the mean time between failures (MTBF) of each device in the critical path.
具体地说,应考虑关键路径中每个设备的平均故障间隔时间(MTBF)。
7.What are the expected availability, reliability, MTBF and Time-to-Repair?
预期的可用率、可靠性、平均故障间隔时间(MTBF)及修复时间怎样?
8.Regularly perform failure analysis and obtain MTBF data for all local components.
定期实施失效分析并为所有区域成分获取。
9.Capacity analysis. You'll need information on production time, MTBF, MTTR, %FTT, changeovers.
分析能力。你需要得到关于生产时间,
10.The Determination of MTBF Confidence Interval at Product Designing Finalization
产品设计定型时MTBF置信区间的确定