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相关概念视频

Fatigue01:21

Fatigue

206
Fatigue occurs when materials rupture under repeated or fluctuating loads, even at stress levels far below their static breaking strength. It typically results in brittle failure, even for ductile materials. It is a critical consideration in designing machines and structural components subjected to repetitive or varying loads. The nature of these loadings can range from fluctuating loads like unbalanced pump impellers causing vibrations to repeatedly bending a thin steel rod wire back and forth...
206
Stress: General Loading Conditions01:15

Stress: General Loading Conditions

336
To grasp the intricacy of real-world conditions where multiple loads are applied simultaneously to a structure, one might visualize a section passing through a specific point within a body, aligned parallel to the xy plane. This section is subjected to various forces, including original loads, normal forces, and shearing forces.
The shearing force, possessing potential directionality within the plane of the section, is simplified into two component forces running parallel to the x and y axes....
336
Plastic Behavior01:21

Plastic Behavior

222
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...
222
Residual Stresses in Bending01:18

Residual Stresses in Bending

207
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...
207
Stress-Strain Diagram - Ductile Materials01:24

Stress-Strain Diagram - Ductile Materials

838
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...
838
Design of Transmission Shafts - Stress Analysis01:15

Design of Transmission Shafts - Stress Analysis

400
Designing a transmission shaft requires a thorough understanding of the stresses induced by bending moments and torques, especially in systems where power is transferred through gears. These forces create force-couple systems at the centers of the shaft's cross-sections, leading to both transverse and torsional loading. Although shearing stresses from transverse loads are typically smaller than those from torques and are often overlooked, the significant normal stresses from these loads...
400

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在印刷的PLA中,波形负载分析疲劳.

Moises Jimenez-Martinez1, Julio Varela-Soriano1, José Jorge Rojas Carreón1

  • 1Tecnologico de Monterrey, Escuela de Ingeniería y Ciencias, Via Atlixcayotl 5718, Col. Reserva Territorial Atlixcayotl, C.P. 72453 Pue, Puebla, Mexico.

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|August 9, 2023
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概括

这项研究研究了循环负荷下化丝制造 (FFF) 部件. 结果显示,正方形波形造成的损伤最多,有助于预测功能应用的组件寿命.

关键词:
增材制造 增材制造是一种增材制造.循环负荷是指周期性负荷.化灯丝制造工艺 化灯丝制造工艺负载波形形成了负载波形.这就是为什么PLA PLA PLA.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 机械工程 机械工程
  • 增材制造 增材制造 增材制造

背景情况:

  • 化丝制造 (FFF) 是复杂几何形状的关键增材制造工艺.
  • 当前的FFF组件通常具有比传统制造的部件更低的机械强度,限制了它们的使用到原型.
  • 在重复的循环负荷下,部件故障经常发生,因此需要对功能应用的疲劳特性有所了解.

研究的目的:

  • 为了研究不同周期性负载波形下的FFF试样的疲劳行为.
  • 为了确定各种波形对FFF部件累积损坏的影响.
  • 在重复加载条件下预测FFF部件的组件寿命.

主要方法:

  • 在三种不同的循环负荷波形下测试FFF标本:正弦形,三角形和方形.
  • 在每个波形下分析累积的损伤和疲劳特性.
  • 在不同的负载条件下比较疲劳性能.

主要成果:

  • 方形波形被确定为诱导测试波形中最严重的负载条件.
  • 根据应用的负载波形,观察到疲劳行为的显著差异.
  • 收集数据以支持预测FFF零件组件寿命.

结论:

  • 这项研究提供了关键的洞察力,了解在不同循环负荷下FFF部件的疲劳特性.
  • 了解这些疲劳特性可以为像PLA这样的材料带来更好的机械预测.
  • 这些发现表明,FFF零件可能适用于功能部件,而不仅仅是原型或备件.