Tribological Properties for the Interaction of Point Contact Interface 核心 · 已核验
doi:10.57760/sciencedb.tribology.00038
Investigating the wear characteristics of point contact interfaces under the coupled effects of lubrication,wear,and surface topography is of great significance for predicting the service life and failure modes of mechanical components,as well as for improving their performance. Meanwhile, It lays a theoretical foundation for the maintenance, replacement,and reliability assessment of critical components.This paper constructs a mathematical model for predicting wear at point contact interfaces under various lubrication conditions to explore the wear behavior characteristics in the point contact area.The lubrication state of the contact interface is determined based on elastohydrodynamic lubrication(EHL)theory,and the half-width and contact stress of the interface are calculated using Hertzian contact theory. Combining the spatial structure of the ball - disc friction and wear test rig and the Archard wear theory, a wear prediction model for point contacts under different lubrication conditions is established. Experiments are carried out on the ball - disc friction and wear test rig. The wear marks before and after wear are analyzed and compared, and the experimental results are compared with the theoretical results. It is found that the theoretical results are in good agreement with the experimental results in reflecting the relationships between the friction radius, test force, number of revolutions and the wear amount of the contact interface, the influence of the friction radius and the number of wear times on the wear rate under different lubrication states, and the improvements in contact half-width and wear distribution under lubricated conditions. Under dry friction conditions, an increase in friction radius leads to a gradual increase in wear rate. However, under lubricated conditions, an increase in friction radius results in a gradual decrease in wear rate. As the number of wear cycles increases, the wear rate tends to stabilize. In lubricated conditions, the contact half-width is narrower compared to dry friction, and the wear distribution is significantly improved. The wear prediction model proposed in this paper can accurately predict the wear depth at the point contact interface and provides a crucial theoretical basis and research approach for the study of wear evolution in point contact transmission interfaces.
- 落地页
- https://www.scidb.cn/detail?dataSetId=070ea969cd2c455c9aa2fed206077bc4
- 许可证
- CC-BY-NC-ND-4.0 (判读置信:unknown)
- 国内可访问性
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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_predictiondegradation_trend_prediction
故障工况
| fault_type: wear |
溯源(PROV,6 条)
| source_url: https://www.scidb.cn/detail?dataSetId=070ea969cd2c455c9aa2fed206077bc4source_citation: quarry_mining_pool datacite#10.57760/sciencedb.tribology.00038retrieved_on: 2026-07-09asserted_by: automated_harvestnote: 反向挖掘 v3(KLS-018,词表圈选+全量人工复核):level=L0 score=0.49999999999999994;候选区,晋升需人工核验 |
| about_field: fault_conditionssource_citation: graphrag 抽取自论文 doi:10.57760/sciencedb.tribology.00038(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: taskssource_citation: graphrag 抽取自论文 doi:10.57760/sciencedb.tribology.00038(model=glm-5.2, temperature=0)retrieved_on: 2026-07-10asserted_by: automated_extractionconfidence_level: grounded_nativenote: values: rul_prediction, degradation_trend_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 |
| about_field: license_idsource_citation: 人工核验:zfbin(Gate 0 四问拍板 2026-07-14)retrieved_on: 2026-07-14asserted_by: human_curatorconfidence_level: human_verifiednote: 人工改写。KLS-023 SPDX 记法归一:cc-by-nc-nd-4.0 → CC-BY-NC-ND-4.0(官方大小写,语义不变;批次 09 同款先例) |