In addition to traditional manufacturing methods, Additive Manufacturing (AM) has become a widespread production technique used in the industry. The Fused Deposition Modeling (FDM) method is one of the most known and widely used additive manufacturing techniques. Due to the fact that polymer-based materials used as depositing materials by the FDM method in printing of parts have insufficient mechanical properties, the technique generally has limited application areas such as model making and prototyping. With the development of polymer-based materials with improved mechanical properties, this technique can be preferred in wider application areas. In this context, analysis of the mechanical properties of the products has an important role in the production method with FDM. This study investigated the mechanical properties of the products obtained by metal/polymer composite filament production and FDM method in detail. It was reviewed current literature on the production of metal/polymer composite filaments with better mechanical properties than filaments compatible with three-dimensional (3D) printers. As a result, it was found that by adding reinforcements of composites in various proportions, products with high mechanical properties can be obtained. Thus, it was predicted that the composite products obtained in this way can be used in wider application areas.

中文翻译：

---

FDM法制得的产品力学性能及金属/聚合物复合长丝生产的研究进展

除传统制造方法外，增材制造（AM）已成为行业中广泛使用的生产技术。熔融沉积建模（FDM）方法是最著名和广泛使用的增材制造技术之一。由于在零件的印刷中通过FDM方法用作沉积材料的聚合物基材料的机械性能不足，因此该技术通常具有有限的应用领域，例如模型制作和原型制作。随着具有改进的机械性能的聚合物基材料的发展，该技术在更广阔的应用领域中可能是首选。在这种情况下，产品机械性能的分析在FDM生产方法中具有重要作用。这项研究详细研究了通过金属/聚合物复合长丝生产和FDM方法获得的产品的机械性能。综述了与具有比三维（3D）打印机兼容的长丝更好的机械性能的金属/聚合物复合长丝的生产的现有文献。结果发现，通过以各种比例添加复合材料的增强材料，可以获得具有高机械性能的产品。因此，据预测，以这种方式获得的复合产品可用于更广泛的应用领域。结果发现，通过以各种比例添加复合材料的增强材料，可以获得具有高机械性能的产品。因此，据预测，以这种方式获得的复合产品可用于更广泛的应用领域。结果发现，通过以各种比例添加复合材料的增强材料，可以获得具有高机械性能的产品。因此，据预测，以这种方式获得的复合产品可用于更广泛的应用领域。