陶瓷喷丸强化:有害还是有益?

Q4 Materials Science
T. Frey, W. Pfeiffer
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引用次数: 11

摘要

非相变增韧陶瓷在室温下表现出典型的脆性材料变形前破坏行为。因此,由于变形引起的压缩残余应力而增强陶瓷被认为是不可能的。然而,初步研究表明,使用特定陶瓷参数,喷丸强化可以在氮化硅近表面引入高压残余应力,并提高载荷能力。本研究的目的是改善喷丸强化条件,以扩大载荷能力的增加,同时保持表面完整性。考察了材料中氧化铝和氮化硅所处的位置,确定了材料中残余应力、承载能力和形貌等性能。结果表明,氮化硅和氧化铝在gpa范围内具有较高的残余压应力,可使近表面层的承载能力提高9倍。对表面完整性的影响很小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Shot Peening of Ceramics: Damage or Benefit?
Non-transformation toughened ceramics show the typical brittle material behavior of failure before deformation at room temperature. Thus, strengthening of ceramics due to deformation induced compressive residual stresses has been thought to be not possible. Nevertheless, preliminary investigations had shown that, using ceramic-specific parameters, shot peening can introduce high compressive residual stresses into the near-surface of silicon nitride and improve the load capacity. The aim of the presented investigation was to improve the shot peening conditions in order to extend the increase of load capacity while maintaining the surface integrity. The materials investigated where alumina and silicon nitride, the properties determined where residual stresses, load capacity and topography. The results show that high compressive residual stresses in the GPa-range can be introduced in silicon nitride and alumina which may boost the load capacity of the near surface layers by a factor of up to 9. Only little effect on the surface integrity could be obtained.
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来源期刊
Cfi-ceramic Forum International
Cfi-ceramic Forum International 工程技术-材料科学:硅酸盐
CiteScore
0.20
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