Accelerated Life Test Method for Low speed Heavy Load Self Lubricating Joint Bearings[Received 7 November 2024, revised 18 January 2025, accepted 20 January 2025, available online 28 January 2026. *Corresponding author. E-mail: qxw@ysu.edu.cn, Tel: +86-18603373001. This project was supported by the Research on Common Technologies by the Science and Technology Bureau (JPPT-2017-142). 科工局专项(JPPT-2017-142)资助.] 核心 · 已核验
doi:10.57760/sciencedb.tribology.00042
Low speed heavy-duty self-lubricating joint bearings were used in high load and low swing frequency conditions. Due to the slow wear process, their lifespan was often predicted through acceleration tests. Conventional acceleration tests with stress as the acceleration factor were prone to changes in bearing wear mechanism caused by stress exceeding the limit, which affected the predicted results. To ensure the accuracy of prediction results while shortening the test period, two actual allowable stresses (S1 = 139 MPa, S2 = 194 MPa) were selected as acceleration stresses to conduct 50000 swing cycle truncation acceleration tests on self-lubricating bearings under three Swing frequencies (f1 = 0.25 Hz, f2 = 0.4 Hz, f3 = 0.5 Hz). Monitor the temperature of the bearing liner during the experimental process, and used scanning electron microscopy (SEM) to analyze the wear mechanism of the specimen bearing, ensuring that the accelerated test does not change the failure mode of the bearing. The experimental results were fitted using a Weibull distribution model to predict and test the service life of bearings under conventional loads (S0 = 100 MPa). The results showed that the two prediction results were comparable, indicating that this experimental method could effectively predict the service life of low-speed heavy-duty self-lubricating joint bearings.
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- CC-BY-NC-ND-4.0 (判读置信:inferred)
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国内直连:可达 (2026-07-11 检测)
代理通道:可达 (2026-07-11 检测)
检测口径:lychee 双通道单轮探测;「直连超时」表示检测窗口内未完成,系慢或不稳定证据,不构成封锁证据。 - PHM 任务
rul_prediction
故障工况
| fault_type: wear |
运行工况
| condition_type: load |
| condition_type: rotating_speed |
溯源(PROV,7 条)
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| about_field: fault_conditionssource_citation: graphrag 抽取自论文 doi:10.57760/sciencedb.tribology.00042(model=glm-5.2, temperature=0)retrieved_on: 2026-07-10asserted_by: automated_extractionconfidence_level: grounded_nativenote: values: wear;候选区,晋升需人工核验(ADR-26) |
| about_field: operating_conditionssource_citation: graphrag 抽取自论文 doi:10.57760/sciencedb.tribology.00042(model=glm-5.2, temperature=0)retrieved_on: 2026-07-10asserted_by: automated_extractionconfidence_level: grounded_nativenote: values: load, rotating_speed;候选区,晋升需人工核验(ADR-26) |
| about_field: taskssource_citation: graphrag 抽取自论文 doi:10.57760/sciencedb.tribology.00042(model=glm-5.2, temperature=0)retrieved_on: 2026-07-10asserted_by: automated_extractionconfidence_level: grounded_nativenote: values: rul_prediction;候选区,晋升需人工核验(ADR-26) |
| about_field: source_citation: 人工核验:zfbin(委托批准 2026-07-10)retrieved_on: 2026-07-10asserted_by: human_curatorconfidence_level: human_verifiednote: 晋升核心区。晋升批次 05:KLS-018 挖掘池卡,逐卡逐断言对照自述核验(evidence/KLS-016/08) |
| about_field: china_accessibilitysource_citation: KLS-009 链接健康扫描(lychee 双通道)retrieved_on: 2026-07-11asserted_by: automated_harvestnote: 定期刷新标注,仅覆盖本字段;历史结果以最新扫描为准 |
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