Joining technologies for a temperature-stable integration of a LTCC-based pressure sensor-Reference-Cited by-同舟云学术

Joining technologies for a temperature-stable integration of a LTCC-based pressure sensor

Published:2016-03-09 Issue:1 Volume:5 Page:73-83
ISSN:2194-878X
Container-title:Journal of Sensors and Sensor Systems
language:en
Short-container-title:J. Sens. Sens. Syst.

Author:

Schilm J.,Goldberg A.,Partsch U.^ORCID,Dürfeld W.,Arndt D.,Pönicke A.,Michaelis A.

Abstract

Abstract. Besides the well-known application as circuit boards and housings, multilayer low-temperature co-fired ceramics (LTCC) offer a flexible and temperature-stable platform for the development of complex sensor elements. Commercial LTCC qualities are usually available with a matching set of metallization pastes which allow the integration of various electrical functions. However, for the integration of ceramic sensor elements based on LTCC into standardized steel housings it is necessary to compensate the mismatching thermal expansion behaviour. Therefore balancing elements made of Kovar® (Fe–29 wt% Ni–17 wt% Co) and alumina ceramic (Al2O3) can be used. These components have to be joined hermetically to each other and to the LTCC sensors. In this study, brazing experiments were performed for combinations of Kovar–Al2O3 and Kovar–LTCC with Ag–Cu–Ti- and Ag–Cu–In–Ti-based commercial braze filler metals, Cusil-ABA® and Incusil®-ABA, respectively. For both active braze filler metals, optimized processing parameters were investigated to realize hermetic Kovar–Al2O3 and Kovar–LTCC joints.

Publisher

Copernicus GmbH

Subject

Electrical and Electronic Engineering,Instrumentation

Link

https://jsss.copernicus.org/articles/5/73/2016/jsss-5-73-2016.pdf

Reference27 articles.

1. Arróyave, R. and Eagar, T. W.: Metal substrate effects on the thermochemistry of active brazing interfaces, Acta Mater., 51, 4871–4880, 2003.

2. Berry, K. A.: Corrosion Resistance of military microelectronics package at the lead-glass interface, in: Proceedings of the ASM's 3rd Conference on Electronic Packaging: Materials and Corrosion in Microelectronics, Minneapolis, MN, Materials Park, OH, ASM International, 28–30 April 1987, 55–61, 1987.

3. Fernie, J. A., Drew, R. A. L., and Knowles, K. M.: Joining of engineering ceramics, Int. Mater. Rev., 54, 283–331, 2009.

4. Fournier, Y., Maeder, T., Boutinard-Rouelle, G., Barras, A., Craquelin, N., and Ryse, P.: Integrated LTCC pressure flow temperature multisensor for compressed air diagnostics, Sensors, 10, 11156–11173, 2010.

5. Hahn, S., Kim, M., and Kang, S.: A study of the reliability of brazed Al2O3 joint systems, IEEE Trans. Comp. Pack. Manuf. Tech. C., 21, 211–216, 1998.

Cited by 6 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Active Brazing for Energy Devices Sealing;Journal of Experimental and Theoretical Analyses;2024-01-12

2. Influence of iron on the structure and strength of the Kovar to stainless steel joints by using Cu–Mn–Co–Fe brazing filler metal;Welding in the World;2023-11-13

3. The effect of temperature and dwell time on diamond-WC brazed joint quality using low-melting point active Ag-Cu-In alloy;Diamond and Related Materials;2023-11

4. Influence of iron on the structure and strength of the Kovar to stainless steel joints by using Cu-Mn-Co-Fe brazing filler metal;2023-08-30

5. Influence of Со on Structure and Mechanical Properties of Kovar–Stainless Steel Brazed Joints;METALLOFIZIKA I NOVEISHIE TEKHNOLOGII;2021-07-13