To study the effect of mechanical properties on the UV-exposed extremely usage aged FS3300PA PA- 12 powder based on YZY 0 degree sintering orientation

Ahmad Zahida, Muhammad Ismal Haqif (2025) To study the effect of mechanical properties on the UV-exposed extremely usage aged FS3300PA PA- 12 powder based on YZY 0 degree sintering orientation. Project Report. Melaka, Malaysia, Universiti Teknikal Malaysia Melaka. (Submitted)

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Abstract

FS3300PA PA-12 powder is a high-performance polyamide 12 (PA-12) material developed for use in powder bed fusion (PBF) additive manufacturing processes. With its excellent mechanical properties, chemical resistance, and thermal stability, FS3300PA PA-12 powder offers a versatile solution for a wide range of applications across various industries. The powder exhibits outstanding layer-to-layer adhesion and part density, ensuring the production of robust and dimensionally accurate components. Its fine particle size distribution enables smooth powder spreading and uniform laser sintering, leading to superior surface finish and intricate part geometry. FS3300PA PA-12 powder demonstrates exceptional mechanical strength, including high tensile and flexural modulus, making it suitable for applications demanding structural integrity and durability. Its inherent toughness and impact resistance further enhance its suitability for end-use parts subjected to dynamic loading and harsh operating conditions. Furthermore, FS3300PA PA-12 powder showcases excellent chemical resistance, maintaining its properties when exposed to oils, greases, fuels, and a variety of chemicals. This feature expands its utility in applications requiring resistance to corrosive environments or contact with aggressive substances. The material's thermal stability ensures reliable performance across a broad temperature range, making it suitable for applications requiring heat resistance or exposure to elevated temperatures during operation. This characteristic is particularly advantageous in automotive, aerospace, and industrial applications where components may experience fluctuating thermal conditions. In conclusion, FS3300PA PA-12 powder offers a compelling combination of mechanical strength, chemical resistance, and thermal stability, making it a preferred choice for additive manufacturing applications where performance and reliability are paramount. Its versatility and consistent processing characteristics make it wellsuited for producing functional prototypes, end-use parts, and tooling across diverse industries, contributing to advancements in additive manufacturing technology and accelerating product development cycles.

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