Elektrik direnç nokta kaynak parametrelerinin TWIP/Martenizitik çeliklerin kaynağında porozite oluşumuna etkisi-Reference-Cited by-同舟云学术

Elektrik direnç nokta kaynak parametrelerinin TWIP/Martenizitik çeliklerin kaynağında porozite oluşumuna etkisi

Published:2022-02-28 Issue: Volume: Page:
ISSN:1300-3402
Container-title:Mühendis ve Makina
language:
Short-container-title:

Author:

ÖZEN Fatih,İLHAN Erdinç,ASLANLAR Salim

Publisher

Makina Muhendisleri Odasi (Chamber of Mechanical Engineering)

Subject

General Medicine

Reference19 articles.

1. [1] Safanama, D.S., Marashi, S.P.H., Pouranvari, M. 2012. “Similar and dissimilar resistance spot welding of martensitic advanced high strength steel and low carbon steel: metallurgical characteristics and failure mode transition” , Science and Technology of Welding & Joining, vol.17, pp.288–294.

2. [2] Cora, Ö.N., Koç, M. 2014. “Promises and Problems of Ultra/Advanced High Strength Steel (U/AHSS) Utilization in Automotive Industry” , 7th Automotive Technologies Congress (OTEKON 2014), pp.1–8.

3. [3] Onar, V., Özen, F., Kekik, M., Aslanlar, Y.S., Özderin, Y., Aslan, H., et al. 2019. “Effect of current and welding time on tensile-peel strength of resistance spot welded TWIP 1000 and martensitic steels” , Indian Journal of Chemical Technology, vol.26, pp.248-251.

4. [4] Macke, A., Schultz, B.F., Rohatgi, P. 2012. “Metal matrix: Composites offer the automotive industry an opportunity to reduce vehicle weight, improve performance” , Advanced Materials and Processes, vol.170, pp.19–23.

5. [5] Şahin, S., Hayat, F., Çölgeçen, O.C. 2021. “The effect of welding current on nugget geometry, microstructure and mechanical properties of TWIP steels in resistance spot welding” , Welding in the World, vol.65, pp.921–935.