High pressure salt water and low temperature effects on the material performance characteristics of additive manufacturing polymers

James LeBlanc , Lewis Shattuck , Eric Warner , Carlos Javier , Irine Chenwi , Jahn Torres , David Ponte , Patric Lockhart , Tyler Chu , Arun Shukla
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Abstract

The effects of salt water exposure at deep ocean depth pressures when coupled with low temperatures on the material characteristics of three unique additively manufactured polymers has been investigated through a detailed experimental approach. The polymers in the study were manufactured utilizing both Vat Photopolymerization and Material Extrusion printing techniques. The Material Extrusion process was utilized to produce material specimens of Stratasys ULTEM 9085 and Markforged Onyx while the Vat Photopolymerization process was used to produce specimens of Accura ClearVue. The ULTEM 9085 and Markforged Onyx are filament based polymers and the ClearVue is a liquid based resin. The specimens were first submerged in a high pressure, salt water bath of 3.5% NaCl solution at 34.5 MPa (5000 lb/in2) for a total exposure time of 60 days to determine the water absorption characteristics. Subsequent to the salt water exposure at high pressure, the specimens were evaluated to determine changes in tension, compression, flexure, and in-plane fracture properties. To determine the effects of water saturation and low temperature coupling, the mechanical testing was performed at temperatures of 20 °C, 0 °C and −20 °C in both dry and saturated conditions. Additionally, non-destructive testing in the form of TeraHertz and FIRT imaging was conducted to analyze the physical material changes through the thickness of the material due to the saline water absorption. To quantify the change in material storage and loss moduli properties, Dynamic Mechanical Analysis (DMA) characterization was performed on each of the AM polymers in dry and saturated states. The DMA testing also quantified changes in the Glass Transition Temperature because of salt water exposure. In summary, The current study investigates the effects of coupled long term/high pressure salt water exposure with low temperatures on the mechanical and material characteristics of three unique AM polymers by: (1) immersing the materials in a salt water solution at 34.5 MPa for 60 days, (2) Conducting post exposure mechanical testing on the materials at 0 °C and −20 °C with comparisons to 20 °C testing on dry specimens, and quantifies changes in material properties through DMA experiments. The results from all testing in the study show that high pressure salt water exposure when coupled with low temperatures has unique effects on each of the materials considered in the study and careful consideration to each parameter must be given based on the material type when components will be employed in marine operations.

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高压盐水和低温对增材制造聚合物材料性能特征的影响
通过详细的实验方法,研究了深海压力下的盐水暴露与低温对三种独特的添加式制造聚合物的材料特性的影响。研究中的聚合物是利用大桶光聚合和材料挤压印刷技术制造的。材料挤压工艺用于生产 Stratasys ULTEM 9085 和 Markforged Onyx 的材料试样,而大桶光聚合工艺则用于生产 Accura ClearVue 的试样。ULTEM 9085 和 Markforged Onyx 是丝基聚合物,ClearVue 是液基树脂。首先将试样浸没在 34.5 兆帕(5000 磅/平方英寸)、含 3.5% NaCl 溶液的高压盐水浴中,总暴露时间为 60 天,以确定吸水特性。高压盐水曝晒后,对试样进行评估,以确定拉伸、压缩、弯曲和平面内断裂特性的变化。为了确定水饱和度和低温耦合的影响,在 20 °C、0 °C 和 -20 °C 的温度下进行了干燥和饱和条件下的机械测试。此外,还进行了 TeraHertz 和 FIRT 成像形式的无损检测,以分析盐水吸收导致材料厚度发生的物理变化。为了量化材料存储和损耗模量特性的变化,对每种 AM 聚合物在干燥和饱和状态下进行了动态力学分析(DMA)。DMA 测试还量化了玻璃化转变温度因盐水暴露而发生的变化。总之,本研究通过以下方法研究了长期/高压盐水暴露和低温对三种独特 AM 聚合物的机械和材料特性的影响:(1) 将材料浸泡在 34.5 兆帕的盐水溶液中 60 天;(2) 在 0 °C 和 -20 °C 下对材料进行暴露后机械测试,并与 20 °C 下对干燥试样的测试进行比较,同时通过 DMA 实验量化材料特性的变化。研究中所有测试的结果表明,高压盐水暴露和低温会对研究中考虑的每种材料产生独特的影响,因此在海洋作业中使用部件时,必须根据材料类型仔细考虑每个参数。
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来源期刊
International Journal of Lightweight Materials and Manufacture
International Journal of Lightweight Materials and Manufacture Engineering-Industrial and Manufacturing Engineering
CiteScore
9.90
自引率
0.00%
发文量
52
审稿时长
48 days
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