新型热爆焊接法制备陶瓷-金属间化合物-金属三层包层

IF 0.4 4区材料科学 Q4 CHEMISTRY, APPLIED

Science and Technology of Energetic Materials Pub Date : 2021-01-01 DOI:10.34571/STEM.82.5_123

R. Tomoshige, Kensaku Takaki, Y. Maeda, Shouta Momokita, Kazushi Kai

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引用次数: 0

摘要

我们开发了一种新的陶瓷材料和金属的焊接技术。该技术由燃烧合成和爆炸焊接两部分组成，燃烧合成是一种高温放热反应。采用金属加热线圈在铜板上燃烧合成了tic - al2o3陶瓷复合材料原料粉末和TiNi金属间化合物的层状粉末床。然后，立即引爆炸药，在燃烧合成相关的高温下进行焊接。因此，不同材料之间形成了具有黏结界面的三层覆层。陶瓷层的硬度值随炸药用量的增加而增大。采用条形试样进行快速淬火试验，试样界面处无剥落现象。结果表明，具有伪弹性效应的TiNi可以有效地缓解不同材料间的热应力。

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Preparation of ceramic-intermetallics-metal three layered clad by novel hot explosive welding

We have developed a novel welding technique for joining ceramic materials and metals. The technique composes of combustion synthesis, which is an exothermic reaction with very high temperature, and explosive welding. Layered powder bed consisting of raw material powders for TiC-Al 2O 3 ceramic composite and TiNi intermetallics was combustion-synthesized on a copper plate by using the metal heating coil. After that, the explosive was detonated immediately for welding under elevated temperature associated with the combustion synthesis. Consequently, a threelayered clad was obtained with cohesive interface between the dissimilar materials. Hardness value in the ceramics layer increased with the amounts of explosives. The rapid quenching tests using the strip specimen showed no exfoliation at the interfaces of the samples. It is suggested that TiNi with pseudo elastic effect was effective to relax the thermal stress caused between the dissimilar materials.

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来源期刊

Science and Technology of Energetic Materials 化学-材料科学：综合

自引率

20.00%

发文量

审稿时长

3 months

期刊介绍： The Science and Technology of Energetic Materials is a peer-reviewed journal of scientific research and engineering studies in the fields of explosion, combustion, energetic materials, and related areas. The Science and Technology of Energetic Materials is published by the Japan Explosives Society.