Combining fast scanning chip calorimetry and nanoindentation: Young's modulus and hardness of poly (l-lactic acid) containing α′- and α-crystals

IF 5 2区 材料科学 Q1 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Katalee Jariyavidyanont , Christina Wüstefeld , Thomas Chudoba , René Androsch
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Abstract

Fast scanning chip calorimetry (FSC) allows subjecting polymer melts to well-defined vitrification, crystal nucleation, and crystal growth pathways and, therefore, precise control of morphologies, from fully amorphous glassy states to semicrystalline structures containing perfect crystals. Due to the required use of nanogram-sized samples, needed to achieve high cooling rates, their mechanical properties, in order to establish structure-property relations, are difficult to assess. In this work, indentation modulus and indentation hardness of FSC samples are successfully determined on example of semicrystalline poly (ʟ-lactic acid) (PLLA) containing spherulitically grown disorder α′- or rather perfect α-crystals, with the correctness of the applied preparation and analyses routes confirmed by nanoindentation measurements on milligram-sized samples prepared through hotstage microscopy, and by applying both static single-step and quasi-continuous stiffness measurements. Modulus and hardness data are consistent with prior analyses of bulk samples, confirming that semicrystalline PLLA containing α-crystals exhibits around 10–20 % higher values of these properties compared to PLLA containing α′-crystals, related to the different molecular-chain packing in the crystal lattice. This work demonstrates that combination of FSC and nanoindentation techniques is an effective tool for determining mechanical properties of samples solidified at specific thermal pathways which otherwise cannot be realized.

Abstract Image

结合快速扫描芯片量热法和纳米压痕法:含有α'-和α-晶体的聚(l-乳酸)的杨氏模量和硬度
通过快速扫描芯片量热法(FSC),可以对聚合物熔体进行明确的玻璃化、晶体成核和晶体生长过程,从而精确控制形态,从完全无定形的玻璃态到含有完美晶体的半晶体结构。由于需要使用纳米级尺寸的样品才能达到较高的冷却速度,因此很难评估其机械性能以建立结构-性能关系。在这项研究中,我们成功地测定了 FSC 样品的压痕模量和压痕硬度,以半结晶聚(ʟ-乳酸)(PLLA)为例,其中含有球状生长的无序 α′- 晶体或完美 α- 晶体,并通过对热台显微镜制备的毫克级样品进行纳米压痕测量,以及应用静态单步和准连续刚度测量,证实了所采用的制备和分析方法的正确性。模量和硬度数据与之前对块状样品的分析结果一致,证实与含有α′晶体的聚乳酸相比,含有α晶体的半结晶聚乳酸的这些特性值要高出约10-20%,这与晶格中不同的分子链包装有关。这项工作表明,结合使用 FSC 和纳米压痕技术是确定在特定热路径下凝固的样品机械性能的有效工具,否则无法实现。
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来源期刊
Polymer Testing
Polymer Testing 工程技术-材料科学:表征与测试
CiteScore
10.70
自引率
5.90%
发文量
328
审稿时长
44 days
期刊介绍: Polymer Testing focuses on the testing, analysis and characterization of polymer materials, including both synthetic and natural or biobased polymers. Novel testing methods and the testing of novel polymeric materials in bulk, solution and dispersion is covered. In addition, we welcome the submission of the testing of polymeric materials for a wide range of applications and industrial products as well as nanoscale characterization. The scope includes but is not limited to the following main topics: Novel testing methods and Chemical analysis • mechanical, thermal, electrical, chemical, imaging, spectroscopy, scattering and rheology Physical properties and behaviour of novel polymer systems • nanoscale properties, morphology, transport properties Degradation and recycling of polymeric materials when combined with novel testing or characterization methods • degradation, biodegradation, ageing and fire retardancy Modelling and Simulation work will be only considered when it is linked to new or previously published experimental results.
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