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相关概念视频

Plastic Behavior01:21

Plastic Behavior

192
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...
192
Thermal Strain01:19

Thermal Strain

746
Thermal strain is a concept that arises when we consider how temperature changes affect structures. Unlike the conventional assumption that structures remain constant under load, real-world scenarios often involve temperature fluctuations that can significantly impact these structures. Consider a homogeneous rod with a uniform cross-section resting freely on a flat horizontal surface. If the rod's temperature increases, the rod elongates. This elongation is proportional to the temperature...
746
Stress-Strain Diagram - Ductile Materials01:24

Stress-Strain Diagram - Ductile Materials

647
The stress-strain relationship in ductile materials such as structural steel or aluminium is intricate and progresses through several stages. When a specimen is loaded, it initially exhibits a linear length increase, depicted by a steep straight line on the stress-strain diagram. It indicates the material is elastically deforming and will return to its original shape once unloaded. However, when a critical stress value is reached, plastic deformation begins. This stage sees substantial...
647
Residual Stresses in Bending01:18

Residual Stresses in Bending

153
In the study of elastoplastic members subjected to bending moments, understanding the loading and unloading phases is crucial for assessing material behavior and structural integrity. During the loading phase, as the bending moment increases, the material initially responds elastically, adhering to Hooke's Law, where stress is directly proportional to strain. When the load exceeds the yield strength, plastic deformation occurs, resulting in permanent strain and deformation that remains even...
153
Stress-Strain Diagram - Brittle Materials01:24

Stress-Strain Diagram - Brittle Materials

2.2K
Brittle materials, including glass, cast iron, and stone, exhibit unique characteristics. They fracture without considerable change in their elongation rate, indicating that their breaking and ultimate strength are equivalent. Such materials also show lower strain levels at the point of rupture. The failure in brittle materials predominantly results from normal stresses, as evidenced by the rupture created along a surface perpendicular to the applied load. These materials do not display...
2.2K
Hooke's Law01:26

Hooke's Law

354
Hooke's law, a pivotal principle in material science, establishes that the strain a material undergoes is directly proportional to the applied stress, defined by a factor called the modulus of elasticity or Young's modulus.
354

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拉伸率,温度和溶剂交换如何影响弹性网络破裂?

Asal Y Siavoshani1, Zehao Fan1, Muxuan Yang1

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聚合物网络在更高的拉伸率和更低的温度下表现出增强的强度和伸展性. 这种行为是由聚合物链内键解离的动力学驱动的,这会影响材料在压力下的性能.

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科学领域:

  • 聚合物科学 聚合物科学
  • 材料科学 材料科学 材料科学
  • 物理化学 物理化学

背景情况:

  • 聚合物网络在各种应用中至关重要,但它们在动态条件下的机械特性尚未完全理解.
  • 了解影响抗拉强度,伸展性和性的因素是材料设计的关键.

研究的目的:

  • 在不同拉伸速率,温度和中等粘度下研究三种聚合物网络的抗拉强度.
  • 阐明控制聚合物网络破裂速率和温度依赖性的基本机制.

主要方法:

  • 在不同的条件下对基于烯酸的弹性体和交联聚甲烯酸进行实验测试.
  • 应用艾灵的激活理论来分析链裂动力学.

主要成果:

  • 基于烯酸盐的弹性体和聚甲烯酸) 在高拉伸速度下显示出增强的强度,伸展性和性.
  • 较低的温度显著提高了这些聚合物材料的强度.
  • 在水凝中用糖取代水,从而显著提高了伸展性和强度.

结论:

  • 聚合物网络破裂的速率和温度依赖性是由骨干键解离的动力学决定的.
  • 艾林的激活理论为理解弹性体和水凝中的这些依赖提供了一个有效的框架.
  • 中等粘度在水凝的机械性能中起着重要作用.