Optimal Printing and Post-Processing Modes of Polymer Products Manufactured Using SLA-Technology of Additive Мanufacturing

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION
T. Pratasenia, A. P. Kren
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Abstract

Innovative production technologies, such as additive synthesis, is inextricably linked with the development of methods for assessing the quality of manufactured products. At the initial stage of introducing of new production methods into various industries, the most studied and widely used control methods are usually used. In most cases these are standard destructive tests. As an alternative to standard tensile tests used to evaluate the elastic and strength properties of polymer products produced using SLA-technology, the dynamic indentation method is studed in this work. Using the samples of the high-temperature photopolymer resin High Temp RS-F2-HTAM-01, the possibility of optimizing 3D printing methods and post-processing modes based on dynamic indentation data is shown. It has been shown that non-pigmented photopolymers are most susceptible to embrittlement due to their ability to transmit UV radiation into the volume of the synthesized material. It was found that the embrittlement of a polymer material has a lesser effect on the result of measuring its dynamic hardness than on its tensile strength. It has been established that post-curing of polymer products at high temperatures (up to 160 °C) and UV radiation with a power of 39 W can increase their strength and elastic modulus by 170 % and 85 %, respectively, compared to the state before treatment. It has been proven that the sensitivity of the dynamic indentation method to changes in the physical and mechanical characteristics of products obtained using SLA-technology under various types and modes of their post-processing is comparable to the sensitivity of standard tensile tests. 
使用添加剂制造 SLA 技术制造聚合物产品的最佳打印和后处理模式
添加剂合成等创新生产技术与制成品质量评估方法的发展密不可分。在将新生产方法引入各行各业的初期阶段,通常会使用研究最深入、使用最广泛的控制方法。在大多数情况下,这些都是标准的破坏性试验。作为评估使用 SLA 技术生产的聚合物产品的弹性和强度特性的标准拉伸试验的替代方法,本工作研究了动态压痕法。通过使用高温光聚合物树脂 High Temp RS-F2-HTAM-01 样品,显示了根据动态压痕数据优化 3D 打印方法和后处理模式的可能性。研究表明,非色素光聚合物最容易发生脆化,这是因为它们能够将紫外线辐射传输到合成材料的体积中。研究发现,与拉伸强度相比,聚合物材料的脆化对动态硬度测量结果的影响较小。研究证实,在高温(最高 160 ℃)和功率为 39 W 的紫外线辐射下对聚合物产品进行后固化,可使其强度和弹性模量分别比处理前提高 170 % 和 85 %。事实证明,动态压痕法对使用 SLA 技术生产的产品在各种类型和模式的后处理情况下物理和机械特性变化的灵敏度与标准拉伸试验的灵敏度相当。
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来源期刊
Devices and Methods of Measurements
Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-
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25.00%
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18
审稿时长
8 weeks
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