Titanium laminated metal composites (TLMCs) leverage hybrid structures to combine titanium's corrosion resistance with the mechanical or functional properties of other metals. Primary manufacturing methods include explosive welding, explosive welding-rolling hybrids, and extrusion-based techniques. Explosive welding achieves metallurgical bonding at ambient temperatures through Контролирана енергия на детонация, идеална за титанови стопани . Хибридният метод засилва междуфазната здравина и стабилността на размерите чрез интегриране на термомеханично търкалящо Геометрии . Тези методи гарантират превъзходна междуфазна целостта, критична за аерокосмическите и химическите приложения .
Recent advancements have expanded TLMC capabilities beyond conventional titanium-steel systems. Multi-layered architectures now incorporate titanium-copper, titanium-nickel, and titanium-zirconium combinations, driven by optimized detonation parameters and precision rolling protocols. Industrial-grade titanium alloys like TA1 (ASTM Gr1), TA10 (Ti-0.3Mo-0.8Ni), and Gr12 (Ti-0.3Mo-0.8Ni) are prioritized for their balanced corrosion resistance and thermomechanical performance. Modern production lines support scalable fabrication of large-format plates (>20 мм дебелина) и сложни тръбни компоненти, отговарящи на строгите изисквания в офшорното инженерство и ядрените реактори .
Critical challenges persist in managing residual stresses from differential thermal expansion coefficients and ensuring defect-free interfaces. Innovations focus on adaptive process controls, such as real-time monitoring of explosive welding dynamics and AI-driven temperature regulation during extrusion. Emerging applications include titanium-aluminum composites for aerospace weight reduction and titanium-nickel smart alloys for biomedical devices. Future trends emphasize eco-efficient manufacturing, including energy recovery systems in rolling mills and recycling protocols for composite scrap. As TLMC technology evolves, its role in enabling next-generation industrial solutions will hinge on interdisciplinary advancements in materials science and precision Инженеринг .
