焊接工艺作为石油化工、航空、造船等制造业的核心环节，其质量直接关乎产品的结构安全性与运行役可靠性。在现代化工业迈向高质量与可持续发展的新阶段，对焊接质量的控制提出了更为严苛的要求。强化焊接检测质量，优化应用DR（数字射线）检测技术，以实现焊缝内部缺陷的精准识别与定量分析，是行业发展的关键。聚焦于DR技术在焊缝缺陷识别中的应用实践，系统探究其关键工艺方法，从图像处理、智能算法等维度深入探讨提升检测精度的有效策略，旨在为实现焊接质量与效率的协同提升，为增强产品竞争力提供理论依据与技术支撑，推动行业的整体升级优化。

As a core process in manufacturing sectors including petrochemicals, aviation, and shipbuilding, welding quality directly determines the structural safety and operational reliability of products. In the new era of modern industry pursuing high-quality and sustainable development, stricter requirements are imposed on welding quality control. Enhancing welding inspection quality and optimizing Digital Radiography (DR) technology applications to achieve precise identification and quantitative analysis of internal weld defects have become critical for industry advancement. This study focuses on practical applications of DR technology in weld defect detection, systematically explores key process methodologies, and investigates effective strategies for improving inspection accuracy through image processing and intelligent algorithms. The research aims to provide theoretical foundations and technical support for achieving coordinated improvements in welding quality and efficiency, thereby enhancing product competitiveness and driving comprehensive industry optimization.