连续纤维增强塑料为高强度和轻重量至关重要的应用提供了显著优势。航空航天、汽车和娱乐行业感兴趣的许多结构很难或不可能使用传统的纤维缠绕或手工上铺技术进行生产。AUTOMATED DYNAMICS Corporation机器人缠绕系统（ROWS）为复合材料行业带来了自动化的复杂形状处理能力。通过使用机械手在固定心轴上沿结构载荷路径放置纤维，ROWS为复合材料的优点开辟了新的应用领域。 与传统热固性复合材料相比，热塑性复合材料具有更好的损伤容限、耐环境性、阻尼性和可修复性。热塑性焊接机（TPW）已被开发用于连续纤维RE的原位固化

CONTINUOUS FIBER REINFORCED PLASTICS OFFER SIGNIFICANT ADVANTAGES FOR APPLICATIONS WHERE HIGH STRENGTH AND LIGHT WEIGHT ARE CRITICAL. MANY STRUCTURES OF INTEREST TO THE AEROSPACE, AUTOMOTIVE, AND RECREATION INDUSTRIES ARE DIFFICULT OR IMPOSSIBLE TO PRODUCE USING CONVENTIONAL FILAMENT WINDING OR HAND LAYUP TECHNIQUES. AUTOMATED DYNAMICS CORPORATIONS ROBOTIC WINDING SYSTEM (ROWS) BRINGS AUTOMATED COMPLEX SHAPE PROCESSING CAPABILITIES TO THE COMPOSITE MATERIALS INDUSTRY. BY USING A ROBOTIC MANIPULATOR TO PLACE FIBERS ALONG STRUCTURAL LOAD PATHS ON STATIONARY MANDRELS, ROWS OPENS NEW APPLICATIONS TO THE BENEFITS OF COMPOSITE MATERIALS. THERMOPLASTIC COMPOSITES PROVIDE IMPROVED DAMAGE TOLERANCE, ENVIRONMENTAL RESISTANCE, DAMPING AND REPAIRABILITY AS COMPARED WITH TRADITIONAL THERMOSET COMPOSITES. A THERMOPLASTIC WELDER (TPW) HAS BEEN DEVELOPED FOR IN-SITU CONSOLIDATION OF CONTINUOUS FIBER RE