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相关概念视频

Plastic Behavior01:21

Plastic Behavior

230
A material's elastic behavior is characterized by the disappearance of stress once the load is removed, allowing the material to return to its original state. However, when stress surpasses the yield point, yielding commences, marking the onset of plastic deformation or permanent set. This change from elastic to plastic behavior is influenced by the peak stress value and the duration before the load is removed. An intriguing observation occurs when a specimen is loaded, unloaded, and...
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Polymer Classification: Architecture01:14

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Polymers are classified as linear or branched on the basis of their chain architecture. The polymer chains in linear polymers have a long chain-like structure with minimal to no branching at all. Even if a polymer features large substituent groups on the monomer, which appear as branches to the skeleton, it is not considered a branched polymer. A branched polymer contains secondary polymer chains that arise from the main polymer chain. The branching occurs when the polymer growth shifts from...
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Molecular Weight of Step-Growth Polymers01:08

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Step growth polymerization involves bi or multifunctional monomers. Bifunctional monomers react to form linear step growth polymers, whereas multifunctional monomers react to form non-linear or branched polymers.
As the step-growth polymerization involves step-wise condensation of monomers, the molecular weight also builds up eventually. Consequently, high molecular weight polymers are obtained at the late stages of the polymerization, where 99% of monomers have been consumed.
The extent of the...
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Members Made of Elastoplastic Material01:19

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The behavior of elastoplastic materials under bending stresses, particularly in structural members with rectangular cross-sections, is crucial for predicting material responses and understanding failure modes. Initially, when a bending moment is applied, the stress distribution across the section follows Hooke's Law and is linear and elastic. This distribution means the stress increases from the neutral axis to the maximum at the outer fibers, up to the elastic limit.
As the bending moment...
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Types of Step-Growth Polymers: Polyesters01:20

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The introduction of polyesters has brought major development to the textile industry. The wrinkle-free behavior of polyester blends has eliminated the need for starching and ironing clothes.
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Plastic Deformations01:19

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Plastic deformation represents a fundamental concept in materials science, which explains the irreversible change in the shape of a material when it experiences stress beyond its elastic capability. This phenomenon is important in structural engineering, especially in designing and analyzing cantilever beams—structures that are securely fixed at one end and bear loads at the opposite end. When these beams are subjected to loads within their elastic range, they will return to their...
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Updated: Jul 26, 2025

A Fabrication Method for Highly Stretchable Conductors with Silver Nanowires
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一个可拉伸的聚合物导体通过相互塑化效应.

Yihong Bai1, Weizhen Li1, Yuan Tie1

  • 1Tianjin Key Laboratory of Molecular Optoelectronic Sciences, Department of Chemistry, School of Science, Tianjin University and Collaborative Innovation Center of Chemical Science and Engineering, Tianjin, 300072, P. R. China.

Advanced materials (Deerfield Beach, Fla.)
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概括
此摘要是机器生成的。

研究人员使用PEDOT:PSS开发了高度可拉伸和导电的薄膜电极,避免了苛刻的处理. 这些灵活的导体非常适合可穿戴电子产品和先进显示器,可与软组织无集成.

关键词:
导电性聚合物中的导电性聚合物.有机光电子产品 有机光电子产品塑化剂是一种可塑化剂.聚罗塔克桑是一种多氧化物.可伸缩电子产品可伸缩电子产品

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科学领域:

  • 材料科学 材料科学 材料科学
  • 聚合物科学 聚合物科学
  • 电气工程 电气工程

背景情况:

  • 本质上可拉伸的导体对于将电子设备与软生物组织集成至关重要.
  • 在这些材料中实现高电导率和机械伸展性仍然是一个重大挑战.
  • 现有的方法通常涉及苛刻的处理,可能会损害设备的制造和性能.

研究的目的:

  • 开发高度可拉伸和导电的薄膜电极,无需进行苛刻的化学处理.
  • 为了提高溶剂耐受性和光学透明度,用于实际的设备制造.
  • 为了展示这些电极在可伸缩的透明电色显示屏中的应用.

主要方法:

  • 结合PEDOT:PSS与相互塑性聚合物剂,制造薄膜电极.
  • 采用一种新的配方,可以避免强酸处理以提高导电性.
  • 制造和测试一个包含开发的电极的透明电色显示器.

主要成果:

  • 开发的薄膜电极具有高电导率和出色的机械伸展性.
  • 这些材料具有良好的溶剂耐受性和高光学透明度,这对于设备集成至关重要.
  • 成功创建了一个透明的电色显示器,在高达80%的压力下运行.

结论:

  • 新的基于PEDOT:PSS的电极为可伸缩电子产品提供了一个有前途的解决方案.
  • 避免苛刻的处理方法简化了制造,扩大了应用潜力.
  • 这些可拉伸导体为下一代光电子和生物集成设备铺平了道路.