Title of the manuscript
Keywords:
black holes, neutron stars, VLF, GPSAbstract
This article explores key methods for enhancing the strength of components manufactured using 3D printing technologies. The relevance of the topic stems from the growing demand for functional parts capable of withstanding various mechanical loads. Special attention is given to the selection of high-performance materials, including reinforced polymers and metals. Parameters such as tensile strength, flexural strength, impact toughness, Young’s modulus, and elongation at break are analyzed. Comparative data on the properties of various materials, including polymers reinforced with carbon or Kevlar fibers, are provided. Practical aspects of improving the strength of 3D-printed parts are discussed, including optimization of print settings, model orientation, infill density, and thermal post-processing (particularly annealing). The article concludes that material selection should be guided by the nature of expected loads, and offers recommendations for designing structurally robust components. The findings may be useful in the development of durable and reliable parts in the field of additive manufacturing.
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