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相关概念视频

IR Spectrometers01:25

IR Spectrometers

1.0K
There are two main infrared (IR) spectrophotometers: dispersive IR spectrometers and Fourier transform infrared (FTIR) spectrometers. In a dispersive IR spectrometer, a beam of infrared radiation produced by a hot wire is divided into two parallel equal-intensity beams using mirrors. One beam passes through the sample, while another is a reference beam. The beams then move through the monochromator, which separates the radiations into a continuous spectrum of different frequencies. The...
1.0K
Infrared (IR) Spectroscopy: Overview01:09

Infrared (IR) Spectroscopy: Overview

1.4K
When electromagnetic radiation passes through a material, atoms or molecules transition from a lower to a higher energy state by absorbing radiation corresponding to the energy difference between the two states. The absorption of infrared (IR) radiation causes transitions between vibrational energy levels in a molecule. Therefore, IR spectroscopy is a useful analytical tool for determining the molecular structure of molecules.
Different compounds display unique properties due to their...
1.4K
IR Frequency Region: Fingerprint Region01:03

IR Frequency Region: Fingerprint Region

665
IR spectra are divided into two main regions: the diagnostic region and the fingerprint region. The diagnostic region of the spectrum lies above 1500 cm−1. The absorptions resulting from single-bond vibrations of the N–H, C–H, and O–H stretch at higher wavenumbers and appear on the left side of the spectrum. The stretching absorptions of the C≡C and C≡N occur between 2100–2300 cm−1. In contrast, those arising from stretching absorptions of the...
665
IR Spectrum01:19

IR Spectrum

852
When infrared (IR) radiation passes through a molecule, the bonds stretch or bend by absorbing the radiation. This absorption creates the molecule's absorption spectrum, which is the plot of its percentage transmittance versus wavenumber.
Transmittance is defined as the ratio of the radiant power passing through a sample to that from the radiation's source. Multiplying the transmittance by 100 gives the percent transmittance (%T), which varies between 100% (no absorption) and 0%...
852
IR Frequency Region: X–H Stretching01:24

IR Frequency Region: X–H Stretching

886
In IR spectroscopy, signals produced by the X−H bonds (such as C−H, O−H, or N−H) can be observed in the frequency range of  2700–4000 cm–1. The C−H stretching vibration forms sharp bands in the region 2850–3000 cm–1. The presence of the O−H stretching vibration leads to the forming of an absorption band in the frequency range 3650–3200 cm−1. At the same time, N−H stretching can be confirmed by absorption bands in...
886

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相关实验视频

Updated: May 15, 2025

Subsurface Defect Localization by Structured Heating Using Laser Projected Photothermal Thermography
11:34

Subsurface Defect Localization by Structured Heating Using Laser Projected Photothermal Thermography

Published on: May 15, 2017

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在金属中IR缺陷检测.

Chunming Ai1,2, Haichuan Lin1,2, Pingping Sun3

  • 1College of Safety Science and Engineering, Liaoning Technical University, Huludao 125000, China.

iScience
|April 9, 2025
PubMed
概括
此摘要是机器生成的。

这项研究证明了使用红外热波技术进行非破坏性测试. 红外热学和模拟显示温度变化与组件厚度相关,以进行有效的材料分析.

关键词:
工程 工程师 工程师 工程师热传递是一种传递热量的过程.材料科学 是一种材料科学.在材料科学中的数值方法.

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In Situ Surface Temperature Measurement in a Conveyor Belt Furnace via Inline Infrared Thermography
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High-definition Fourier Transform Infrared FT-IR Spectroscopic Imaging of Human Tissue Sections towards Improving Pathology
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High-definition Fourier Transform Infrared FT-IR Spectroscopic Imaging of Human Tissue Sections towards Improving Pathology

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相关实验视频

Last Updated: May 15, 2025

Subsurface Defect Localization by Structured Heating Using Laser Projected Photothermal Thermography
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Subsurface Defect Localization by Structured Heating Using Laser Projected Photothermal Thermography

Published on: May 15, 2017

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In Situ Surface Temperature Measurement in a Conveyor Belt Furnace via Inline Infrared Thermography
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In Situ Surface Temperature Measurement in a Conveyor Belt Furnace via Inline Infrared Thermography

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High-definition Fourier Transform Infrared FT-IR Spectroscopic Imaging of Human Tissue Sections towards Improving Pathology
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科学领域:

  • 材料科学 材料科学 材料科学
  • 热物理 热物理
  • 非破坏性测试 不破坏性测试

背景情况:

  • 非破坏性测试 (NDT) 对于材料完整性评估至关重要.
  • 红外热波技术为NDT提供了一个有前途的途径.
  • 整合传热理论和图像科学是推动这项技术发展的关键.

研究的目的:

  • 开发和验证使用红外热波技术的非破坏性测试方法.
  • 为了研究表面温度分布和部件厚度之间的关系.
  • 确定使用理论分析,数值模拟和实验验证的可行性.

主要方法:

  • 热传递原理的理论分析.
  • 使用COMSOL进行有限元数值模拟.
  • 在不同温度 (80°C,106°C,130°C) 的红外热学实验.
  • 分析表面温度分布及其与部件厚度的相关性.

主要成果:

  • 捕获和分析了实验表面温度分布.
  • 确定了元件厚度和温度响应之间的明显相关性.
  • COMSOL模拟准确地复制了实验结果,验证了模拟方法.

结论:

  • 热传递理论,图像科学,模拟和实验的综合方法对NDT有效.
  • 经过验证的模拟方法为在NDT应用中推广红外热波技术提供了基础.
  • 这项研究对基于红外线的非破坏性测试领域做出了重大贡献.