Abstract <p>This review analyzes the influence of loading ratio, a principle process parameter in explosive welding, on the interface morphology, and mechanical properties of similar/dissimilar joints. The loading ratio (weight of the explosive mass/weight of the flyer plate), dictates the collision velocity, dynamic bend angle, and jet formation. It influences the nature of interface—straight, wavy, or intermetallic layer formation—thereby impacting the weldability of dissimilar metals. The judicial selection of loading ratios ensures good welding with minimal defects, while excessive or insufficient loading ratios lead to incomplete bonding or interface degradation. This article summarizes the key experimental findings and offers insights for process optimization and future research directions.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

The Effect of Loading Ratio on the Interface Morphology in Explosive Welding: A Review

  • S. Debbarma,
  • P. Kumar,
  • S. Kumar Ghosh,
  • S. Saravanan,
  • K. Jayachandran,
  • R. K. Bhogendro Meitei

摘要

Abstract

This review analyzes the influence of loading ratio, a principle process parameter in explosive welding, on the interface morphology, and mechanical properties of similar/dissimilar joints. The loading ratio (weight of the explosive mass/weight of the flyer plate), dictates the collision velocity, dynamic bend angle, and jet formation. It influences the nature of interface—straight, wavy, or intermetallic layer formation—thereby impacting the weldability of dissimilar metals. The judicial selection of loading ratios ensures good welding with minimal defects, while excessive or insufficient loading ratios lead to incomplete bonding or interface degradation. This article summarizes the key experimental findings and offers insights for process optimization and future research directions.